-- dump date   	20140619_154516
-- class       	Genbank::CDS
-- table       	cds_note
-- id	note
YP_001285946.1	binds to the dnaA-box as an ATP-bound complex at the origin of replication during the initiation of chromosomal replication; can also affect transcription of multiple genes including itself.
YP_001285947.1	binds the polymerase to DNA and acts as a sliding clamp
YP_001285948.1	Required for DNA replication; binds preferentially to single-stranded, linear DNA
YP_001285949.1	Mapped to H37Rv Rv0004
YP_001285950.1	negatively supercoils closed circular double-stranded DNA
YP_001285951.1	negatively supercoils closed circular double-stranded DNA
YP_001285952.1	Mapped to H37Rv Rv0007
YP_001285953.1	Mapped to H37Rv Rv0008c
YP_001285954.1	Mapped to H37Rv Rv0009
YP_001285955.1	Mapped to H37Rv Rv0010c
YP_001285956.1	integral membrane protein involved in inhibition of the Z-ring formation
YP_001285957.1	Mapped to H37Rv Rv0012
YP_001285958.1	aminodeoxychorismate synthase subunit PabA; with PabB catalyzes the formation of 4-amino-4-deoxychorismate from chorismate and glutamine in para-aminobenzoate synthesis; PabA provides the glutamine amidotransferase activity
YP_001285959.1	Mapped to H37Rv Rv0014c
YP_001285960.1	Mapped to H37Rv Rv0015c
YP_001285961.1	Mapped to H37Rv Rv0016c
YP_001285962.1	Mapped to H37Rv Rv0017c
YP_001285963.1	Mapped to H37Rv Rv0018c
YP_001285964.1	Mapped to H37Rv Rv0019c
YP_001285965.1	Mapped to H37Rv Rv0020c
YP_001285966.1	Mapped to H37Rv Rv0021c
YP_001285967.1	Mapped to H37Rv Rv0022c
YP_001285968.1	Mapped to H37Rv Rv0023
YP_001285969.1	Mapped to H37Rv Rv0024
YP_001285970.1	Mapped to H37Rv Rv0025
YP_001285971.1	Mapped to H37Rv Rv0026
YP_001285972.1	Mapped to H37Rv Rv0027
YP_001285973.1	Mapped to H37Rv Rv0028
YP_001285974.1	Mapped to H37Rv Rv0029
YP_001285975.1	Mapped to H37Rv Rv0029
YP_001285976.1	Mapped to H37Rv Rv0032
YP_001285977.1	Mapped to H37Rv Rv0033
YP_001285978.1	Mapped to H37Rv Rv0034
YP_001285979.1	Mapped to H37Rv Rv0035
YP_001285980.1	Mapped to H37Rv Rv0036c
YP_001285981.1	Mapped to H37Rv Rv0037c
YP_001285982.1	Mapped to H37Rv Rv0038
YP_001285983.1	Mapped to H37Rv Rv0039c
YP_001285984.1	Mapped to H37Rv Rv0040c
YP_001285985.1	leucine--tRNA ligase; LeuRS; class-I aminoacyl-tRNA synthetase; charges leucine by linking carboxyl group to alpha-phosphate of ATP and then transfers aminoacyl-adenylate to its tRNA; due to the large number of codons that tRNA(Leu) recognizes, the leucyl-tRNA synthetase does not recognize the anticodon loop of the tRNA, but instead recognition is dependent on a conserved discriminator base A37 and a long arm; an editing domain hydrolyzes misformed products; in Methanothermobacter thermautotrophicus this enzyme associates with prolyl-tRNA synthetase
YP_001285986.1	Mapped to H37Rv Rv0042c
YP_001285987.1	Mapped to H37Rv Rv0043c
YP_001285988.1	Mapped to H37Rv Rv0044c
YP_001285989.1	Mapped to H37Rv Rv0045c
YP_001285990.1	Mapped to H37Rv Rv0046c
YP_001285991.1	Mapped to H37Rv Rv0047c
YP_001285992.1	Mapped to H37Rv Rv0048c
YP_001285993.1	Mapped to H37Rv Rv0049
YP_001285994.1	Mapped to H37Rv Rv0050
YP_001285995.1	Mapped to H37Rv Rv0051
YP_001285996.1	Mapped to H37Rv Rv0052
YP_001285997.1	binds cooperatively with S18 to the S15-16S complex, allowing platform assembly to continue with S11 and S21
YP_001285998.1	binds to single stranded DNA and may facilitate the binding and interaction of other proteins to DNA
YP_001285999.1	binds as a heterodimer with protein S6 to the central domain of the 16S rRNA; helps stabilize the platform of the 30S subunit
YP_001286000.1	in Escherichia coli this protein is wrapped around the base of the L1 stalk
YP_001286001.1	Mapped to H37Rv Rv0057
YP_001286002.1	unwinds double stranded DNA; these Mycobacterial enzymes appear to contain inteins
YP_001286003.1	Mapped to H37Rv Rv0059
YP_001286004.1	Mapped to H37Rv Rv0060
YP_001286005.1	Mapped to H37Rv Rv0060
YP_001286006.1	Mapped to H37Rv Rv0062
YP_001286007.1	Mapped to H37Rv Rv0063
YP_001286008.1	Mapped to H37Rv Rv0064
YP_001286009.1	Mapped to H37Rv Rv0064
YP_001286010.1	Mapped to H37Rv Rv0065
YP_001286011.1	Mapped to H37Rv Rv0066c
YP_001286012.1	Mapped to H37Rv Rv0067c
YP_001286013.1	Mapped to H37Rv Rv0068
YP_001286014.1	Mapped to H37Rv Rv0069c
YP_001286015.1	catalyzes the reaction of glycine with 5,10-methylenetetrahydrofolate to form L-serine and tetrahydrofolate
YP_001286016.1	Mapped to H37Rv Rv0071
YP_001286017.1	Mapped to H37Rv Rv0072
YP_001286018.1	Mapped to H37Rv Rv0073
YP_001286019.1	Mapped to H37Rv Rv0074
YP_001286020.1	Mapped to H37Rv Rv0075
YP_001286021.1	Mapped to H37Rv Rv0076c
YP_001286022.1	Mapped to H37Rv Rv0077c
YP_001286023.1	Mapped to H37Rv Rv0078
YP_001286024.1	Mapped to H37Rv Rv0078A
YP_001286025.1	Mapped to H37Rv Rv0079
YP_001286026.1	Mapped to H37Rv Rv0080
YP_001286027.1	Mapped to H37Rv Rv0081
YP_001286028.1	Mapped to H37Rv Rv0082
YP_001286029.1	Mapped to H37Rv Rv0083
YP_001286030.1	Mapped to H37Rv Rv0084
YP_001286031.1	Mapped to H37Rv Rv0085
YP_001286032.1	Mapped to H37Rv Rv0086
YP_001286033.1	Mapped to H37Rv Rv0087
YP_001286034.1	Mapped to H37Rv Rv0088
YP_001286035.1	Mapped to H37Rv Rv0089
YP_001286036.1	Mapped to H37Rv Rv0090
YP_001286037.1	Mapped to H37Rv Rv0091
YP_001286038.1	Mapped to H37Rv Rv0092
YP_001286039.1	Mapped to H37Rv Rv0093c
YP_001286040.1	Mapped to H37Rv Rv0094c
YP_001286041.1	Mapped to H37Rv Rv0095c
YP_001286042.1	Mapped to H37Rv Rv0096
YP_001286043.1	Mapped to H37Rv Rv0097
YP_001286044.1	Mapped to H37Rv Rv0098
YP_001286045.1	activates fatty acids by binding to coenzyme A
YP_001286046.1	Mapped to H37Rv Rv0100
YP_001286047.1	Mapped to H37Rv Rv0101
YP_001286048.1	Mapped to H37Rv Rv0102
YP_001286049.1	Mapped to H37Rv Rv0103c
YP_001286050.1	Mapped to H37Rv Rv0104
YP_001286051.1	required for 70S ribosome assembly
YP_001286052.1	Mapped to H37Rv Rv0106
YP_001286053.1	Mapped to H37Rv Rv0107c
YP_001286054.1	Mapped to H37Rv Rv0108c
YP_001286055.1	Mapped to H37Rv Rv0109
YP_001286056.1	Mapped to H37Rv Rv0110
YP_001286057.1	Mapped to H37Rv Rv0111
YP_001286058.1	Mapped to H37Rv Rv0112
YP_001286059.1	catalyzes the isomerization of sedoheptulose 7-phosphate to D-glycero-D-manno-heptose 7-phosphate
YP_001286060.1	Mapped to H37Rv Rv0114
YP_001286061.1	Mapped to H37Rv Rv0115
YP_001286062.1	Mapped to H37Rv Rv0116c
YP_001286063.1	Mapped to H37Rv Rv0117
YP_001286064.1	catalyzes the formation of formyl-CoA from oxalyl-CoA
YP_001286065.1	activates fatty acids by binding to coenzyme A
YP_001286066.1	EF-G; promotes GTP-dependent translocation of the ribosome during translation; many organisms have multiple copies of this gene
YP_001286067.1	Mapped to H37Rv Rv0121c
YP_001286068.1	Mapped to H37Rv Rv0122
YP_001286069.1	Mapped to H37Rv Rv0123
YP_001286070.1	Mapped to H37Rv Rv0124
YP_001286071.1	Mapped to H37Rv Rv0125
YP_001286072.1	Mapped to H37Rv Rv0126
YP_001286073.1	Mapped to H37Rv Rv0127
YP_001286074.1	Mapped to H37Rv Rv0128
YP_001286075.1	Mapped to H37Rv Rv0129c
YP_001286076.1	Mapped to H37Rv Rv0130
YP_001286077.1	Mapped to H37Rv Rv0131c
YP_001286078.1	Mapped to H37Rv Rv0132c
YP_001286079.1	Mapped to H37Rv Rv0133
YP_001286080.1	Mapped to H37Rv Rv0134
YP_001286081.1	Mapped to H37Rv Rv0135c
YP_001286082.1	Mapped to H37Rv Rv0136
YP_001286083.1	this stereospecific enzymes reduces the S isomer of methionine sulfoxide while MsrB reduces the R form; provides protection against oxidative stress
YP_001286084.1	Mapped to H37Rv Rv0138
YP_001286085.1	Mapped to H37Rv Rv0139
YP_001286086.1	Mapped to H37Rv Rv0140
YP_001286087.1	Mapped to H37Rv Rv0141c
YP_001286088.1	Mapped to H37Rv Rv0142
YP_001286089.1	Mapped to H37Rv Rv0143c
YP_001286090.1	Mapped to H37Rv Rv0144
YP_001286091.1	Mapped to H37Rv Rv0145
YP_001286092.1	Mapped to H37Rv Rv0146
YP_001286093.1	Mapped to H37Rv Rv0147
YP_001286094.1	Mapped to H37Rv Rv0148
YP_001286095.1	Mapped to H37Rv Rv0149
YP_001286096.1	Mapped to H37Rv Rv0150c
YP_001286097.1	Mapped to H37Rv Rv0151c
YP_001286098.1	Mapped to H37Rv Rv0152c
YP_001286099.1	Mapped to H37Rv Rv0153c
YP_001286100.1	Mapped to H37Rv Rv0154c
YP_001286101.1	Mapped to H37Rv Rv0155
YP_001286102.1	Mapped to H37Rv Rv0156
YP_001286103.1	Mapped to H37Rv Rv0157
YP_001286104.1	Mapped to H37Rv Rv0158
YP_001286105.1	Mapped to H37Rv Rv0159c
YP_001286106.1	Mapped to H37Rv Rv0160c
YP_001286107.1	Mapped to H37Rv Rv0161
YP_001286108.1	Mapped to H37Rv Rv0162c
YP_001286109.1	Mapped to H37Rv Rv0163
YP_001286110.1	Mapped to H37Rv Rv0164
YP_001286111.1	Mapped to H37Rv Rv0165c
YP_001286112.1	activates fatty acids by binding to coenzyme A
YP_001286113.1	Mapped to H37Rv Rv0167
YP_001286114.1	Mapped to H37Rv Rv0168
YP_001286115.1	Mapped to H37Rv Rv0169
YP_001286116.1	Mapped to H37Rv Rv0170
YP_001286117.1	Mapped to H37Rv Rv0171
YP_001286118.1	Mapped to H37Rv Rv0172
YP_001286119.1	Mapped to H37Rv Rv0173
YP_001286120.1	Mapped to H37Rv Rv0174
YP_001286121.1	Mapped to H37Rv Rv0175
YP_001286122.1	Mapped to H37Rv Rv0176
YP_001286123.1	Mapped to H37Rv Rv0177
YP_001286124.1	Mapped to H37Rv Rv0178
YP_001286125.1	Mapped to H37Rv Rv0179c
YP_001286126.1	Mapped to H37Rv Rv0180c
YP_001286127.1	Mapped to H37Rv Rv0181c
YP_001286128.1	DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates
YP_001286129.1	Mapped to H37Rv Rv0183
YP_001286130.1	Mapped to H37Rv Rv0184
YP_001286131.1	Mapped to H37Rv Rv0185
YP_001286132.1	Mapped to H37Rv Rv0186
YP_001286133.1	Mapped to H37Rv Rv0187
YP_001286134.1	Mapped to H37Rv Rv0188
YP_001286135.1	catalyzes the dehydration of 2,3-dihydroxy-3-methylbutanoate to 3-methyl-2-oxobutanoate in valine and isoleucine biosynthesis
YP_001286136.1	Mapped to H37Rv Rv0190
YP_001286137.1	Mapped to H37Rv Rv0191
YP_001286138.1	Mapped to H37Rv Rv0192A
YP_001286139.1	Mapped to H37Rv Rv0192
YP_001286140.1	Mapped to H37Rv Rv0193c
YP_001286141.1	Mapped to H37Rv Rv0194
YP_001286142.1	Mapped to H37Rv Rv0195
YP_001286143.1	Mapped to H37Rv Rv0196
YP_001286144.1	Mapped to H37Rv Rv0197
YP_001286145.1	Mapped to H37Rv Rv0198c
YP_001286146.1	Mapped to H37Rv Rv0199
YP_001286147.1	Mapped to H37Rv Rv0200
YP_001286148.1	Mapped to H37Rv Rv0201c
YP_001286149.1	Mapped to H37Rv Rv0202c
YP_001286150.1	Mapped to H37Rv Rv0203
YP_001286151.1	Mapped to H37Rv Rv0204c
YP_001286152.1	Mapped to H37Rv Rv0205
YP_001286153.1	Mapped to H37Rv Rv0206c
YP_001286154.1	Mapped to H37Rv Rv0207c
YP_001286155.1	tRNA (guanine-N(7)-)-methyltransferase; catalyzes the formation of N(7)-methylguanine at position 46 (m7G46) in tRNA by transferring the methyl residue from S-adenosyl-L-methionine
YP_001286156.1	Mapped to H37Rv Rv0209
YP_001286157.1	Mapped to H37Rv Rv0210
YP_001286158.1	catalyzes the phosphorylation and decarboxylation of oxaloacetate to form phosphoenolpyruvate using GTP
YP_001286159.1	Mapped to H37Rv Rv0212c
YP_001286160.1	Mapped to H37Rv Rv0213c
YP_001286161.1	activates fatty acids by binding to coenzyme A
YP_001286162.1	Mapped to H37Rv Rv0215c
YP_001286163.1	Mapped to H37Rv Rv0216
YP_001286164.1	Mapped to H37Rv Rv0217c
YP_001286165.1	Mapped to H37Rv Rv0218
YP_001286166.1	Mapped to H37Rv Rv0219
YP_001286167.1	Mapped to H37Rv Rv0220
YP_001286168.1	Mapped to H37Rv Rv0221
YP_001286169.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001286170.1	Mapped to H37Rv Rv0223c
YP_001286171.1	Mapped to H37Rv Rv0224c
YP_001286172.1	Mapped to H37Rv Rv0225
YP_001286173.1	Mapped to H37Rv Rv0226c
YP_001286174.1	Mapped to H37Rv Rv0227c
YP_001286175.1	Mapped to H37Rv Rv0228
YP_001286176.1	Mapped to H37Rv Rv0229c
YP_001286177.1	Mapped to H37Rv Rv0230c
YP_001286178.1	Mapped to H37Rv Rv0231
YP_001286179.1	Mapped to H37Rv Rv0232
YP_001286180.1	Catalyzes the rate-limiting step in dNTP synthesis
YP_001286181.1	NADP-dependent semialdehyde dehydrogenase; part of alternative pathway from alpha-ketoglutarate to succinate
YP_001286182.1	Mapped to H37Rv Rv0235c
YP_001286183.1	Mapped to H37Rv Rv0236c
YP_001286184.1	Mapped to H37Rv Rv0236A
YP_001286185.1	Mapped to H37Rv Rv0237
YP_001286186.1	Mapped to H37Rv Rv0238
YP_001286187.1	Mapped to H37Rv Rv0239
YP_001286188.1	Mapped to H37Rv Rv0240
YP_001286189.1	Mapped to H37Rv Rv0241c
YP_001286190.1	Catalyzes the first of the two reduction steps in the elongation cycle of fatty acid synthesis
YP_001286191.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001286192.1	Mapped to H37Rv Rv0244c
YP_001286193.1	Mapped to H37Rv Rv0245
YP_001286194.1	Mapped to H37Rv Rv0246
YP_001286195.1	catalyzes the fumarate and succinate interconversion; fumarate reductase is used under anaerobic conditions with glucose or glycerol as carbon source
YP_001286196.1	part of four member succinate dehydrogenase enzyme complex that forms a trimeric complex (trimer of tetramers); SdhA/B are the catalytic subcomplex and can exhibit succinate dehydrogenase activity in the absence of SdhC/D which are the membrane components and form cytochrome b556; SdhC binds ubiquinone; oxidizes succinate to fumarate while reducing ubiquinone to ubiquinol
YP_001286197.1	Mapped to H37Rv Rv0249c
YP_001286198.1	Mapped to H37Rv Rv0250c
YP_001286199.1	Mapped to H37Rv Rv0251c
YP_001286200.1	Mapped to H37Rv Rv0252
YP_001286201.1	Mapped to H37Rv Rv0253
YP_001286202.1	Mapped to H37Rv Rv0254c
YP_001286203.1	catalyzes amidations at positions B, D, E, and G on adenosylcobyrinic A,C-diamide. NH(2) groups are provided by glutamine, and one molecule of ATP is hydrogenolyzed for each amidation
YP_001286204.1	Mapped to H37Rv Rv0256c
YP_001286205.1	Mapped to H37Rv Rv0257
YP_001286206.1	Mapped to H37Rv Rv0257
YP_001286207.1	Mapped to H37Rv Rv0258c
YP_001286208.1	Mapped to H37Rv Rv0259c
YP_001286209.1	catalyzes the formation of uroporphyrinogen-III from hydroxymethylbilane
YP_001286210.1	Mapped to H37Rv Rv0261c
YP_001286211.1	Mapped to H37Rv Rv0262c
YP_001286212.1	Mapped to H37Rv Rv0263c
YP_001286213.1	Mapped to H37Rv Rv0264c
YP_001286214.1	Mapped to H37Rv Rv0265c
YP_001286215.1	Mapped to H37Rv Rv0266c
YP_001286216.1	Mapped to H37Rv Rv0267
YP_001286217.1	Mapped to H37Rv Rv0268c
YP_001286218.1	Mapped to H37Rv Rv0269c
YP_001286219.1	activates fatty acids by binding to coenzyme A
YP_001286220.1	Mapped to H37Rv Rv0271c
YP_001286221.1	Mapped to H37Rv Rv0272c
YP_001286222.1	Mapped to H37Rv Rv0273c
YP_001286223.1	Mapped to H37Rv Rv0274
YP_001286224.1	Mapped to H37Rv Rv0275c
YP_001286225.1	Mapped to H37Rv Rv0276
YP_001286226.1	Mapped to H37Rv Rv0277c
YP_001286228.1	Mapped to H37Rv Rv0278c
YP_001286229.1	Mapped to H37Rv Rv0278c
YP_001286230.1	Mapped to H37Rv Rv0278c
YP_001286231.1	Mapped to H37Rv Rv0279c
YP_001286232.1	Mapped to H37Rv Rv0280
YP_001286233.1	Mapped to H37Rv Rv0281
YP_001286234.1	Mapped to H37Rv Rv0282
YP_001286235.1	Mapped to H37Rv Rv0283
YP_001286236.1	Mapped to H37Rv Rv0284
YP_001286237.1	Mapped to H37Rv Rv0285
YP_001286238.1	Mapped to H37Rv Rv0286
YP_001286239.1	Mapped to H37Rv Rv0287
YP_001286240.1	Mapped to H37Rv Rv0288
YP_001286241.1	Mapped to H37Rv Rv0289
YP_001286242.1	Mapped to H37Rv Rv0290
YP_001286243.1	Mapped to H37Rv Rv0291
YP_001286244.1	Mapped to H37Rv Rv0292
YP_001286245.1	Mapped to H37Rv Rv0293c
YP_001286246.1	catalyzes the formation of (E)-3-(methoxycarbonyl)pent-2-enedioate and S-adenosyl-L-homocysteine from S-adenosyl-L-methionine and trans-aconitate
YP_001286247.1	Mapped to H37Rv Rv0295c
YP_001286248.1	Mapped to H37Rv Rv0296c
YP_001286249.1	Mapped to H37Rv Rv0297
YP_001286250.1	Mapped to H37Rv Rv0298
YP_001286251.1	Mapped to H37Rv Rv0299
YP_001286252.1	Mapped to H37Rv Rv0301
YP_001286253.1	Mapped to H37Rv Rv0302
YP_001286254.1	Mapped to H37Rv Rv0303
YP_001286255.1	Mapped to H37Rv Rv0303
YP_001286256.1	Mapped to H37Rv Rv0306
YP_001286257.1	Mapped to H37Rv Rv0307c
YP_001286258.1	Mapped to H37Rv Rv0308
YP_001286259.1	Mapped to H37Rv Rv0309
YP_001286260.1	Mapped to H37Rv Rv0310c
YP_001286261.1	Mapped to H37Rv Rv0311
YP_001286262.1	Mapped to H37Rv Rv0312
YP_001286263.1	Mapped to H37Rv Rv0313
YP_001286264.1	Mapped to H37Rv Rv0314c
YP_001286265.1	Mapped to H37Rv Rv0315
YP_001286266.1	Mapped to H37Rv Rv0316
YP_001286267.1	Mapped to H37Rv Rv0317c
YP_001286268.1	Mapped to H37Rv Rv0318c
YP_001286269.1	catalyzes the removal of 5-oxoproline from various penultimate amino acid residues except L-proline
YP_001286270.1	Mapped to H37Rv Rv0320
YP_001286271.1	Catalyzes the formation of dUTP from dCTP in thymidylate biosynthesis
YP_001286272.1	Mapped to H37Rv Rv0322
YP_001286273.1	Mapped to H37Rv Rv0323c
YP_001286274.1	Mapped to H37Rv Rv0324
YP_001286275.1	Mapped to H37Rv Rv0325
YP_001286276.1	Mapped to H37Rv Rv0326
YP_001286277.1	Mapped to H37Rv Rv0327c
YP_001286278.1	Mapped to H37Rv Rv0328
YP_001286279.1	Mapped to H37Rv Rv0329c
YP_001286280.1	Mapped to H37Rv Rv0330c
YP_001286281.1	Mapped to H37Rv Rv0331
YP_001286282.1	Mapped to H37Rv Rv0332
YP_001286283.1	Mapped to H37Rv Rv0333
YP_001286284.1	Mapped to H37Rv Rv0334
YP_001286285.1	Mapped to H37Rv Rv0335c
YP_001286286.1	Mapped to H37Rv Rv0336
YP_001286287.1	broad specificity; family IV; in Corynebacterium glutamicum this protein can use glutamate, 2-aminobutyrate, and aspartate as amino donors and pyruvate as the acceptor
YP_001286288.1	Mapped to H37Rv Rv0338c
YP_001286289.1	Mapped to H37Rv Rv0339c
YP_001286290.1	Mapped to H37Rv Rv0340
YP_001286291.1	Mapped to H37Rv Rv0341
YP_001286292.1	Mapped to H37Rv Rv0342
YP_001286293.1	Mapped to H37Rv Rv0343
YP_001286294.1	Mapped to H37Rv Rv0344c
YP_001286295.1	Mapped to H37Rv Rv0345
YP_001286296.1	Mapped to H37Rv Rv0346c
YP_001286297.1	Mapped to H37Rv Rv0347
YP_001286298.1	Mapped to H37Rv Rv0348
YP_001286299.1	Mapped to H37Rv Rv0349
YP_001286300.1	heat shock protein 70; assists in folding of nascent polypeptide chains; refolding of misfolded proteins; utilizes ATPase activity to help fold; co-chaperones are DnaJ and GrpE; multiple copies in some bacteria
YP_001286301.1	with DnaK and DnaJ acts in response to hyperosmotic and heat shock by preventing the aggregation of stress-denatured proteins; may act as a thermosensor
YP_001286302.1	chaperone Hsp40; co-chaperone with DnaK; Participates actively in the response to hyperosmotic and heat shock by preventing the aggregation of stress-denatured proteins and by disaggregating proteins, also in an autonomous, dnaK-independent fashion
YP_001286303.1	Mapped to H37Rv Rv0353
YP_001286304.1	Mapped to H37Rv Rv0354c
YP_001286305.1	Mapped to H37Rv Rv0355c
YP_001286306.1	Mapped to H37Rv Rv0356c
YP_001286307.1	catalyzes the formation of N6-(1,2,-dicarboxyethyl)-AMP from L-aspartate, inosine monophosphate and GTP in AMP biosynthesis
YP_001286308.1	Mapped to H37Rv Rv0358
YP_001286309.1	Mapped to H37Rv Rv0359
YP_001286310.1	Mapped to H37Rv Rv0360c
YP_001286311.1	Mapped to H37Rv Rv0361
YP_001286312.1	Mapped to H37Rv Rv0362
YP_001286313.1	catalyzes the formation of glycerone phosphate and glyceraldehyde 3-phosphate from fructose 1,6, bisphosphate
YP_001286314.1	Mapped to H37Rv Rv0364
YP_001286315.1	Mapped to H37Rv Rv0365c
YP_001286316.1	Mapped to H37Rv Rv0366c
YP_001286317.1	Mapped to H37Rv Rv0367c
YP_001286318.1	Mapped to H37Rv Rv0368c
YP_001286319.1	Mapped to H37Rv Rv0369c
YP_001286320.1	Mapped to H37Rv Rv0370c
YP_001286321.1	Mapped to H37Rv Rv0371c
YP_001286322.1	Mapped to H37Rv Rv0372c
YP_001286323.1	Mapped to H37Rv Rv0373c
YP_001286324.1	Mapped to H37Rv Rv0374c
YP_001286325.1	Mapped to H37Rv Rv0375c
YP_001286326.1	Mapped to H37Rv Rv0376c
YP_001286327.1	Mapped to H37Rv Rv0377
YP_001286328.1	Mapped to H37Rv Rv0378
YP_001286329.1	Mapped to H37Rv Rv0379
YP_001286330.1	Mapped to H37Rv Rv0380c
YP_001286331.1	Mapped to H37Rv Rv0381c
YP_001286332.1	involved in fifth step of pyrimidine biosynthesis; converts orotidine 5'-phosphate and diphosphate to orotate and 5-phospho-alpha-D-ribose 1-diphosphate
YP_001286333.1	Mapped to H37Rv Rv0383c
YP_001286334.1	Mapped to H37Rv Rv0384c
YP_001286335.1	Mapped to H37Rv Rv0385
YP_001286336.1	Mapped to H37Rv Rv0386
YP_001286337.1	Mapped to H37Rv Rv0386
YP_001286338.1	non-folate utilizing enzyme, catalyzes the production of beta-formyl glycinamide ribonucleotide from formate, ATP, and beta-GAR and a side reaction producing acetyl phosphate and ADP from acetate and ATP; involved in de novo purine biosynthesis
YP_001286339.1	Mapped to H37Rv Rv0390
YP_001286340.1	Mapped to H37Rv Rv0391
YP_001286341.1	Mapped to H37Rv Rv0392c
YP_001286342.1	Mapped to H37Rv Rv0393
YP_001286343.1	Mapped to H37Rv Rv0394c
YP_001286344.1	Mapped to H37Rv Rv0395
YP_001286345.1	Mapped to H37Rv Rv0396
YP_001286346.1	Mapped to H37Rv Rv0397
YP_001286347.1	Mapped to H37Rv Rv0397
YP_001286348.1	Mapped to H37Rv Rv0398c
YP_001286349.1	Mapped to H37Rv Rv0399c
YP_001286350.1	Mapped to H37Rv Rv0400c
YP_001286351.1	Mapped to H37Rv Rv0401
YP_001286352.1	Mapped to H37Rv Rv0402c
YP_001286353.1	Mapped to H37Rv Rv0403c
YP_001286354.1	activates fatty acids by binding to coenzyme A
YP_001286355.1	Mapped to H37Rv Rv0405
YP_001286356.1	Mapped to H37Rv Rv0406c
YP_001286357.1	Mapped to H37Rv Rv0407
YP_001286358.1	catalyzes the synthesis of acetylphosphate or propionylphosphate from acetyl-CoA or propionyl-CoA and inorganic phosphate; when using propionyl-CoA the enzyme is functioning in the anaerobic pathway catabolizing threonine to propionate
YP_001286359.1	AckA utilizes acetate and can acetylate CheY which increases signal strength during flagellar rotation; utilizes magnesium and ATP; also involved in conversion of acetate to aceyl-CoA
YP_001286360.1	Mapped to H37Rv Rv0410c
YP_001286361.1	Mapped to H37Rv Rv0411c
YP_001286362.1	Mapped to H37Rv Rv0412c
YP_001286363.1	Mapped to H37Rv Rv0413
YP_001286364.1	Condenses 4-methyl-5-(beta-hydroxyethyl)-thiazole monophosphate and 4-amino-5-hydroxymethyl pyrimidine pyrophosphate to form thiamine monophosphate
YP_001286365.1	Mapped to H37Rv Rv0415
YP_001286366.1	with ThiF, ThiG, and ThiO catalyzes the formation of the thiazole moiety of thiamine pyrophosphate
YP_001286367.1	functions in thiamine (vitamin B1) biosynthesis; in Bacillus subtilis this enzyme catalyzes the formation of thiazole from dehydroxyglycine and 1-deoxy-D-xylulose-5-phosphate and ThiS-thiocarboxylate
YP_001286368.1	Mapped to H37Rv Rv0418
YP_001286369.1	Mapped to H37Rv Rv0419
YP_001286370.1	Mapped to H37Rv Rv0420c
YP_001286371.1	Mapped to H37Rv Rv0421c
YP_001286372.1	catalyzes the formation of 4-amino-2-methyl-5-diphosphomethylpyrimidine
YP_001286373.1	required for the synthesis of the hydromethylpyrimidine moiety of thiamine
YP_001286374.1	Mapped to H37Rv Rv0424c
YP_001286375.1	Mapped to H37Rv Rv0425c
YP_001286376.1	Mapped to H37Rv Rv0426c
YP_001286377.1	Mapped to H37Rv Rv0427c
YP_001286378.1	Mapped to H37Rv Rv0428c
YP_001286379.1	cleaves off formyl group from N-terminal methionine residues of newly synthesized proteins; binds iron(2+)
YP_001286380.1	Mapped to H37Rv Rv0430
YP_001286381.1	Mapped to H37Rv Rv0431
YP_001286382.1	Mapped to H37Rv Rv0432
YP_001286383.1	ATP-dependent carboxylate-amine ligase
YP_001286384.1	Mapped to H37Rv Rv0434
YP_001286385.1	Mapped to H37Rv Rv0435c
YP_001286386.1	Mapped to H37Rv Rv0436c
YP_001286387.1	catalyzes the decarboxylaton of phospatidyl-L-sering to phosphatidylethanolamine
YP_001286388.1	Mapped to H37Rv Rv0438c
YP_001286389.1	Mapped to H37Rv Rv0439c
YP_001286390.1	60 kDa chaperone family; promotes refolding of misfolded polypeptides especially under stressful conditions; forms two stacked rings of heptamers to form a barrel-shaped 14mer; ends can be capped by GroES; misfolded proteins enter the barrel where they are refolded when GroES binds; many bacteria have multiple copies of the groEL gene which are active under different environmental conditions; the B.japonicum protein in this cluster is expressed constitutively; in Rhodobacter, Corynebacterium and Rhizobium this protein is essential for growth
YP_001286391.1	Mapped to H37Rv Rv0441c
YP_001286392.1	Mapped to H37Rv Rv0442c
YP_001286393.1	Mapped to H37Rv Rv0443
YP_001286394.1	Mapped to H37Rv Rv0444c
YP_001286395.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription; in M. bovis this protein has been shown to be involved in expression of antigenic proteins
YP_001286396.1	Mapped to H37Rv Rv0446c
YP_001286397.1	Mapped to H37Rv Rv0446c
YP_001286398.1	Mapped to H37Rv Rv0447c
YP_001286399.1	Mapped to H37Rv Rv0448c
YP_001286400.1	Mapped to H37Rv Rv0449c
YP_001286401.1	Mapped to H37Rv Rv0450c
YP_001286402.1	Mapped to H37Rv Rv0451c
YP_001286403.1	Mapped to H37Rv Rv0452
YP_001286404.1	Mapped to H37Rv Rv0453
YP_001286405.1	Mapped to H37Rv Rv0453
YP_001286406.1	Mapped to H37Rv Rv0455c
YP_001286407.1	catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001286408.1	Mapped to H37Rv Rv0456A
YP_001286409.1	Mapped to H37Rv Rv0457c
YP_001286410.1	Mapped to H37Rv Rv0458
YP_001286411.1	Mapped to H37Rv Rv0459
YP_001286412.1	Mapped to H37Rv Rv0460
YP_001286413.1	Mapped to H37Rv Rv0461
YP_001286414.1	E3 component of alpha keto acid dehydrogenase complexes LpdC; forms a homodimer; binds one molecule of FAD monomer; catalyzes NAD+-dependent oxidation of dihydrolipoyl cofactors that are covalently linked to the E2 component
YP_001286415.1	Mapped to H37Rv Rv0463
YP_001286416.1	Mapped to H37Rv Rv0464c
YP_001286417.1	Mapped to H37Rv Rv0465c
YP_001286418.1	Mapped to H37Rv Rv0466
YP_001286419.1	Mapped to H37Rv Rv0467
YP_001286420.1	converts (S)-3-hydroxybutanoyl-CoA to 3-acetoacetyl-CoA
YP_001286421.1	Mapped to H37Rv Rv0469
YP_001286422.1	Mapped to H37Rv Rv0470c
YP_001286423.1	Mapped to H37Rv Rv0470A
YP_001286424.1	Mapped to H37Rv Rv0471c
YP_001286425.1	Mapped to H37Rv Rv0472c
YP_001286426.1	Mapped to H37Rv Rv0473
YP_001286427.1	Mapped to H37Rv Rv0474
YP_001286428.1	Mapped to H37Rv Rv0475
YP_001286429.1	Mapped to H37Rv Rv0476
YP_001286430.1	Mapped to H37Rv Rv0477
YP_001286431.1	catalyzes the formation of D-glyceraldehyde 3-phosphate and acetaldehyde from 2-deoxy-D-ribose-5-phosphate
YP_001286432.1	Mapped to H37Rv Rv0479c
YP_001286433.1	Mapped to H37Rv Rv0480c
YP_001286434.1	Mapped to H37Rv Rv0481c
YP_001286435.1	catalyzes the reduction of UDP-N-acetylglucosamine enolpyruvate to form UDP-N-acetylmuramate in peptidoglycan biosynthesis
YP_001286436.1	Mapped to H37Rv Rv0483
YP_001286437.1	Mapped to H37Rv Rv0484c
YP_001286438.1	Mapped to H37Rv Rv0485
YP_001286439.1	Mapped to H37Rv Rv0486
YP_001286440.1	Mapped to H37Rv Rv0487
YP_001286441.1	Mapped to H37Rv Rv0488
YP_001286442.1	2,3-bisphosphoglycerate-dependent; catalyzes the interconversion of 2-phosphoglycerate to 3-phosphoglycerate
YP_001286443.1	Mapped to H37Rv Rv0490
YP_001286444.1	Mapped to H37Rv Rv0491
YP_001286445.1	Mapped to H37Rv Rv0492c
YP_001286446.1	Mapped to H37Rv Rv0492A
YP_001286447.1	Mapped to H37Rv Rv0493c
YP_001286448.1	Mapped to H37Rv Rv0494
YP_001286449.1	Mapped to H37Rv Rv0495c
YP_001286450.1	Mapped to H37Rv Rv0496
YP_001286451.1	Mapped to H37Rv Rv0497
YP_001286452.1	Mapped to H37Rv Rv0498
YP_001286453.1	Mapped to H37Rv Rv0499
YP_001286454.1	catalyzes the formation of L-proline from pyrroline-5-carboxylate
YP_001286455.1	Mapped to H37Rv Rv0500A
YP_001286456.1	Mapped to H37Rv Rv0500B
YP_001286457.1	Mapped to H37Rv Rv0501
YP_001286458.1	Mapped to H37Rv Rv0502
YP_001286459.1	Mapped to H37Rv Rv0503c
YP_001286460.1	Mapped to H37Rv Rv0504c
YP_001286461.1	Mapped to H37Rv Rv0505c
YP_001286462.1	Mapped to H37Rv Rv0506
YP_001286463.1	Mapped to H37Rv Rv0507
YP_001286464.1	Mapped to H37Rv Rv0508
YP_001286465.1	catalyzes the formation of glutamate-1-semialdehyde from glutamyl-tRNA(Glu) and NADPH; the second step of the pathway is catalyzed by glutamate-1-semialdehyde aminomutase which results in the formation of 5-aminolevulinic acid; functions in porphyrin (tetrapyrroles) biosynthesis; the crystal structure showed a C-terminal dimerization domain that appears to be absent in Chlamydial proteins
YP_001286466.1	transformation of porphobilinogen to hydroxymethylbilane in porphyrin biosynthesis
YP_001286467.1	Mapped to H37Rv Rv0511
YP_001286468.1	catalyzes the formation of porphobilinogen from 5-aminolevulinate
YP_001286469.1	Mapped to H37Rv Rv0513
YP_001286470.1	Mapped to H37Rv Rv0514
YP_001286471.1	Mapped to H37Rv Rv0515
YP_001286472.1	Mapped to H37Rv Rv0516c
YP_001286473.1	Mapped to H37Rv Rv0517
YP_001286474.1	Mapped to H37Rv Rv0518
YP_001286475.1	Mapped to H37Rv Rv0519c
YP_001286476.1	Mapped to H37Rv Rv0520
YP_001286477.1	Mapped to H37Rv Rv0521
YP_001286478.1	Mapped to H37Rv Rv0522
YP_001286479.1	Mapped to H37Rv Rv0523c
YP_001286480.1	Converts (S)-4-amino-5-oxopentanoate to 5-aminolevulinate during the porphyrin biosynthesis pathway
YP_001286481.1	Mapped to H37Rv Rv0525
YP_001286482.1	Mapped to H37Rv Rv0526
YP_001286483.1	Mapped to H37Rv Rv0527
YP_001286484.1	Mapped to H37Rv Rv0528
YP_001286485.1	Mapped to H37Rv Rv0529
YP_001286486.1	Mapped to H37Rv Rv0530
YP_001286487.1	Mapped to H37Rv Rv0531
YP_001286488.1	Mapped to H37Rv Rv0532
YP_001286489.1	FabH; beta-ketoacyl-acyl carrier protein synthase III; catalyzes the condensation of acetyl-CoA with malonyl-ACP to initiate cycles of fatty acid elongation; differs from 3-oxoacyl-(acyl carrier protein) synthase I and II in that it utilizes CoA thioesters as primers rather than acyl-ACPs
YP_001286490.1	catalyzes the formation of dimethylmenaquinone from 1,4-dihydroxy-2-naphthoate and octaprenyl diphosphate
YP_001286491.1	Catalyzes the reversible phosphorolysis of 5'-deoxy-5'- methylthioadenosine (MTA) to adenine and 5-methylthio-D-ribose-1- phosphate
YP_001286492.1	Mapped to H37Rv Rv0536
YP_001286493.1	Mapped to H37Rv Rv0537c
YP_001286494.1	Mapped to H37Rv Rv0538
YP_001286495.1	Mapped to H37Rv Rv0539
YP_001286496.1	Mapped to H37Rv Rv0540
YP_001286497.1	Mapped to H37Rv Rv0541c
YP_001286498.1	Mapped to H37Rv Rv0542c
YP_001286499.1	Mapped to H37Rv Rv0543c
YP_001286500.1	Mapped to H37Rv Rv0544c
YP_001286501.1	Mapped to H37Rv Rv0545c
YP_001286502.1	Mapped to H37Rv Rv0546c
YP_001286503.1	Mapped to H37Rv Rv0547c
YP_001286504.1	catalyzes the formation of 1,4-dihydroxy-2-naphthoate from O-succinylbenzoyl-CoA
YP_001286505.1	Mapped to H37Rv Rv0549c
YP_001286506.1	activates fatty acids by binding to coenzyme A
YP_001286507.1	Mapped to H37Rv Rv0552
YP_001286508.1	catalyzes the dehydration of 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylic acid to form O-succinylbenzoate
YP_001286509.1	Mapped to H37Rv Rv0554
YP_001286510.1	SEPHCHC synthase; forms 5-enolpyruvoyl-6-hydroxy-2-succinyl-cyclohex-3-ene-1- carboxylate from 2-oxoglutarate and isochorismate in menaquinone biosynthesis
YP_001286511.1	Mapped to H37Rv Rv0556
YP_001286512.1	Mapped to H37Rv Rv0557
YP_001286513.1	Catalyzes the carbon methylation reaction in the biosynthesis of ubiquinone
YP_001286514.1	Mapped to H37Rv Rv0559c
YP_001286515.1	Mapped to H37Rv Rv0560c
YP_001286516.1	Mapped to H37Rv Rv0561c
YP_001286517.1	Mapped to H37Rv Rv0562
YP_001286518.1	putative metalloprotease
YP_001286519.2	catalyzes the NAD(P)H-dependent reduction of glycerol 3-phosphate to glycerone phosphate
YP_001286520.1	Mapped to H37Rv Rv0565c
YP_001286521.1	putative nucleotide binding property based on structural studies of Haemophilus influenzae crystallized protein in PDB Accession Number 1IN0 and NMR studies of Escherichia coli YajQ; the YajQ protein from Pseudomonas synringae appears to play a role in activation of bateriophage phi6 segment L transcription
YP_001286522.1	Mapped to H37Rv Rv0567
YP_001286523.1	Mapped to H37Rv Rv0568
YP_001286524.1	Mapped to H37Rv Rv0569
YP_001286525.1	Mapped to H37Rv Rv0570
YP_001286526.1	Mapped to H37Rv Rv0571c
YP_001286527.1	Mapped to H37Rv Rv0572c
YP_001286528.1	catalyzes the formation of 5-phospho-alpha-D-ribose 1-diphosphate and nicotinate from nicotinate D-ribonucleotide and diphosphate
YP_001286529.1	Mapped to H37Rv Rv0574c
YP_001286530.1	Mapped to H37Rv Rv0575c
YP_001286531.1	Mapped to H37Rv Rv0576
YP_001286532.1	Mapped to H37Rv Rv0577
YP_001286533.1	Mapped to H37Rv Rv0578c
YP_001286534.1	Mapped to H37Rv Rv0577
YP_001286535.1	Mapped to H37Rv Rv0579
YP_001286536.1	Mapped to H37Rv Rv0580c
YP_001286537.1	Mapped to H37Rv Rv0581
YP_001286538.1	Mapped to H37Rv Rv0582
YP_001286539.1	Mapped to H37Rv Rv0583c
YP_001286540.1	Mapped to H37Rv Rv0584
YP_001286541.1	Mapped to H37Rv Rv0585c
YP_001286542.1	Mapped to H37Rv Rv0586
YP_001286543.1	Mapped to H37Rv Rv0587
YP_001286544.1	Mapped to H37Rv Rv0588
YP_001286545.1	Mapped to H37Rv Rv0589
YP_001286546.1	Mapped to H37Rv Rv0590
YP_001286547.1	Mapped to H37Rv Rv0590A
YP_001286548.1	Mapped to H37Rv Rv0591
YP_001286549.1	Mapped to H37Rv Rv0592
YP_001286550.1	Mapped to H37Rv Rv0593
YP_001286551.1	Mapped to H37Rv Rv0594
YP_001286552.1	Mapped to H37Rv Rv0595c
YP_001286553.1	Mapped to H37Rv Rv0596c
YP_001286554.1	Mapped to H37Rv Rv0597c
YP_001286555.1	Mapped to H37Rv Rv0598c
YP_001286556.1	Mapped to H37Rv Rv0599c
YP_001286557.1	Mapped to H37Rv Rv0599c
YP_001286558.1	Mapped to H37Rv Rv0602c
YP_001286559.1	Mapped to H37Rv Rv0603
YP_001286560.1	Mapped to H37Rv Rv0604
YP_001286561.1	Mapped to H37Rv Rv0605
YP_001286562.1	Mapped to H37Rv Rv0606
YP_001286563.1	Mapped to H37Rv Rv0607
YP_001286564.1	Mapped to H37Rv Rv0608
YP_001286565.1	Mapped to H37Rv Rv0609
YP_001286566.1	Mapped to H37Rv Rv0610c
YP_001286567.1	Mapped to H37Rv Rv0611c
YP_001286568.1	Mapped to H37Rv Rv0612
YP_001286569.1	Mapped to H37Rv Rv0613c
YP_001286570.1	Mapped to H37Rv Rv0614
YP_001286571.1	Mapped to H37Rv Rv0615
YP_001286572.1	Mapped to H37Rv Rv0616c
YP_001286573.1	Mapped to H37Rv Rv0617
YP_001286574.1	Mapped to H37Rv Rv0618
YP_001286575.1	Mapped to H37Rv Rv0619
YP_001286576.1	catalyzes the formation of alpha-D-galactose 1-phosphate from D-galactose in galactose metabolism
YP_001286577.1	Mapped to H37Rv Rv0621
YP_001286578.1	Mapped to H37Rv Rv0622
YP_001286579.1	Mapped to H37Rv Rv0623
YP_001286580.1	Mapped to H37Rv Rv0624
YP_001286581.1	Mapped to H37Rv Rv0625c
YP_001286582.1	Mapped to H37Rv Rv0626
YP_001286583.1	Mapped to H37Rv Rv0627
YP_001286584.1	Mapped to H37Rv Rv0628c
YP_001286585.1	Mapped to H37Rv Rv0629c
YP_001286586.1	Mapped to H37Rv Rv0630c
YP_001286587.1	Mapped to H37Rv Rv0631c
YP_001286588.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001286589.1	Mapped to H37Rv Rv0633c
YP_001286590.1	Mapped to H37Rv Rv0634c
YP_001286591.1	Mapped to H37Rv Rv0634A
YP_001286592.1	in Escherichia coli BM108, a mutation that results in lack of L33 synthesis had no effect on ribosome synthesis or function; there are paralogous genes in several bacterial genomes, and a CXXC motif for zinc binding and an upstream regulation region of the paralog lacking this motif that are regulated by zinc similar to other ribosomal proteins like L31; the proteins in this group have the CXXC motif
YP_001286593.1	functions as a heterodimer along with HadB in fatty acid biosynthesis; fatty acid synthase type II; FAS-II
YP_001286594.1	functions as a heterodimer along with HadA or HadC in fatty acid biosynthesis; fatty acid synthase type II; FAS-II
YP_001286595.1	functions as a heterodimer along with HadB in fatty acid biosynthesis; fatty acid synthase type II; FAS-II
YP_001286596.1	forms a complex with SecY and SecG; SecYEG forms a putative protein-conducting channel to which secA binds and translocates targeted polypeptides across the cytoplasmic membrane, a process driven by ATP and a proton-motive force
YP_001286597.1	Modulates Rho-dependent transcription termination
YP_001286598.1	binds directly to 23S ribosomal RNA
YP_001286599.1	in Escherichia coli and Methanococcus, this protein autoregulates expression; the binding site in the mRNA mimics the binding site in the 23S rRNA
YP_001286600.1	Mapped to H37Rv Rv0642c
YP_001286601.1	Mapped to H37Rv Rv0643c
YP_001286602.1	Mapped to H37Rv Rv0644c
YP_001286603.1	Mapped to H37Rv Rv0645c
YP_001286604.1	Mapped to H37Rv Rv0646c
YP_001286605.1	Mapped to H37Rv Rv0647c
YP_001286606.1	Mapped to H37Rv Rv0648
YP_001286607.1	Mapped to H37Rv Rv0649
YP_001286608.1	Mapped to H37Rv Rv0650
YP_001286609.1	binds the two ribosomal protein L7/L12 dimers and anchors them to the large ribosomal subunit
YP_001286610.1	present in two forms; L12 is normal, while L7 is aminoacylated at the N-terminal serine; the only multicopy ribosomal protein; 4:1 ratio of L7/L12 per ribosome; two L12 dimers bind L10; critically important for translation efficiency and fidelity; stimulates GTPase activity of translation factors
YP_001286611.1	Mapped to H37Rv Rv0653c
YP_001286612.1	Mapped to H37Rv Rv0654
YP_001286613.1	Mapped to H37Rv Rv0655
YP_001286614.1	Mapped to H37Rv Rv0656c
YP_001286615.1	Mapped to H37Rv Rv0657c
YP_001286616.1	Mapped to H37Rv Rv0658c
YP_001286617.1	Mapped to H37Rv Rv0659c
YP_001286618.1	Mapped to H37Rv Rv0660c
YP_001286619.1	Mapped to H37Rv Rv0661c
YP_001286620.1	Mapped to H37Rv Rv0662c
YP_001286621.1	Mapped to H37Rv Rv0663
YP_001286622.1	Mapped to H37Rv Rv0664
YP_001286623.1	Mapped to H37Rv Rv0665
YP_001286624.1	Mapped to H37Rv Rv0666
YP_001286626.1	DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates; beta subunit is part of the catalytic core which binds with a sigma factor to produce the holoenzyme
YP_001286627.1	DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subunit beta' binds to sigma factor allowing it to bind to the -10 region of the promoter
YP_001286628.1	Mapped to H37Rv Rv0669c
YP_001286629.1	Assists in DNA repair by cleaving phosphodiester bonds at apurinic or apyrimidinic sties to produce new 5' ends that are base-free deoxyribose 5-phosphate residues
YP_001286630.1	Mapped to H37Rv Rv0671
YP_001286631.1	Mapped to H37Rv Rv0672
YP_001286632.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001286633.1	Mapped to H37Rv Rv0674
YP_001286634.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001286635.1	Mapped to H37Rv Rv0676c
YP_001286636.1	Mapped to H37Rv Rv0677c
YP_001286637.1	Mapped to H37Rv Rv0678
YP_001286638.1	Mapped to H37Rv Rv0679c
YP_001286639.1	Mapped to H37Rv Rv0680c
YP_001286640.1	Mapped to H37Rv Rv0681
YP_001286641.1	interacts with and stabilizes bases of the 16S rRNA that are involved in tRNA selection in the A site and with the mRNA backbone; located at the interface of the 30S and 50S subunits, it traverses the body of the 30S subunit contacting proteins on the other side; mutations in the S12 gene confer streptomycin resistance
YP_001286642.1	binds directly to 16S rRNA where it nucleates assembly of the head domain of the 30S subunit
YP_001286643.1	EF-G; promotes GTP-dependent translocation of the ribosome during translation; many organisms have multiple copies of this gene
YP_001286644.1	EF-Tu; promotes GTP-dependent binding of aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis; when the tRNA anticodon matches the mRNA codon, GTP hydrolysis results; the inactive EF-Tu-GDP leaves the ribosome and release of GDP is promoted by elongation factor Ts; many prokaryotes have two copies of the gene encoding EF-Tu
YP_001286645.1	Mapped to H37Rv Rv0686
YP_001286646.1	catalyzes the first of the two reduction steps in the elongation cycle of fatty acid synthesis
YP_001286647.1	Mapped to H37Rv Rv0688
YP_001286648.1	Mapped to H37Rv Rv0689c
YP_001286649.1	Mapped to H37Rv Rv0690c
YP_001286650.1	Mapped to H37Rv Rv0691c
YP_001286651.1	Mapped to H37Rv Rv0692
YP_001286652.1	Mapped to H37Rv Rv0693
YP_001286653.1	Mapped to H37Rv Rv0694
YP_001286654.1	Mapped to H37Rv Rv0695
YP_001286655.1	Mapped to H37Rv Rv0696
YP_001286656.1	Mapped to H37Rv Rv0697
YP_001286657.1	Mapped to H37Rv Rv0698
YP_001286658.1	Mapped to H37Rv Rv0698
YP_001286659.1	NusE; involved in assembly of the 30S subunit; in the ribosome, this protein is involved in the binding of tRNA; in Escherichia coli this protein was also found to be involved in transcription antitermination; NusB/S10 heterodimers bind boxA sequences in the leader RNA of rrn operons which is required for antitermination; binding of NusB/S10 to boxA nucleates assembly of the antitermination complex
YP_001286660.1	binds directly near the 3' end of the 23S rRNA, where it nucleates assembly of the 50S subunit; essential for peptidyltransferase activity; mutations in this gene confer resistance to tiamulin
YP_001286661.1	L4 is important during the early stages of 50S assembly; it initially binds near the 5' end of the 23S rRNA
YP_001286662.1	binds third domain of 23S rRNA and protein L29; part of exit tunnel
YP_001286663.1	one of the primary rRNA-binding proteins; required for association of the 30S and 50S subunits to form the 70S ribosome, for tRNA binding and peptide bond formation
YP_001286664.1	protein S19 forms a complex with S13 that binds strongly to the 16S ribosomal RNA
YP_001286665.1	binds specifically to 23S rRNA during the early stages of 50S assembly; makes contact with all 6 domains of the 23S rRNA in the assembled 50S subunit and ribosome; mutations in this gene result in erythromycin resistance; located near peptidyl-transferase center
YP_001286666.1	forms a complex with S10 and S14; binds the lower part of the 30S subunit head and the mRNA in the complete ribosome to position it for translation
YP_001286667.1	located in the peptidyl transferase center and may be involved in peptidyl transferase activity; similar to archaeal L10e
YP_001286668.1	one of the stabilizing components for the large ribosomal subunit
YP_001286669.1	primary binding protein; helps mediate assembly; involved in translation fidelity
YP_001286670.1	Mapped to H37Rv Rv0711
YP_001286671.1	Mapped to H37Rv Rv0712
YP_001286672.1	Mapped to H37Rv Rv0713
YP_001286673.1	binds to the 23S rRNA between the centers for peptidyl transferase and GTPase
YP_001286674.1	assembly initiator protein; binds to 5' end of 23S rRNA and nucleates assembly of the 50S; surrounds polypeptide exit tunnel
YP_001286675.1	part of 50S and 5S/L5/L18/L25 subcomplex; contacts 5S rRNA and P site tRNA; forms a bridge to the 30S subunit in the ribosome by binding to S13
YP_001286676.1	located in the peptidyl transferase center and involved in assembly of 30S ribosome subunit; similar to what is observed with proteins L31 and L33, some proteins in this family contain CXXC motifs that are involved in zinc binding; if two copies are present in a genome, then the duplicated copy appears to have lost the zinc-binding motif and is instead regulated by zinc; the proteins in this group appear to contain the zinc-binding motif
YP_001286677.1	binds directly to 16S rRNA central domain where it helps coordinate assembly of the platform of the 30S subunit
YP_001286678.1	ribosomal protein L6 appears to have arisen as a result of an ancient gene duplication as based on structural comparison of the Bacillus stearothermophilus protein; RNA-binding appears to be in the C-terminal domain; mutations in the L6 gene confer resistance to aminoglycoside antibiotics such as gentamicin and these occur in truncations of the C-terminal domain; it has been localized to a region between the base of the L7/L12 stalk and the central protuberance
YP_001286679.1	binds 5S rRNA along with protein L5 and L25
YP_001286680.1	located at the back of the 30S subunit body where it stabilizes the conformation of the head with respect to the body; contacts S4 and S8; with S4 and S12 plays a role in translational accuracy; mutations in this gene result in spectinomycin resistance
YP_001286681.1	L30 binds domain II of the 23S rRNA and the 5S rRNA; similar to eukaryotic protein L7
YP_001286682.1	late assembly protein
YP_001286683.1	Mapped to H37Rv Rv0724
YP_001286684.1	Mapped to H37Rv Rv0725c
YP_001286685.1	Mapped to H37Rv Rv0726c
YP_001286686.1	catalyzes the formation of glycerone phosphate and (S)-lactaldehyde from L-fuculose 1-phosphate
YP_001286687.1	Mapped to H37Rv Rv0728c
YP_001286688.1	Mapped to H37Rv Rv0729
YP_001286689.1	Mapped to H37Rv Rv0730
YP_001286690.1	Mapped to H37Rv Rv0731c
YP_001286691.1	forms heterotrimeric complex in the membrane; in bacteria the complex consists of SecY which forms the channel pore and SecE and SecG; the SecG subunit is not essential; in bacteria translocation is driven via the SecA ATPase
YP_001286692.1	essential enzyme that recycles AMP in active cells; converts ATP and AMP to two molecules of ADP
YP_001286693.1	catalyzes the removal of N-terminal amino acids from peptides and arylamides; generally Co(II) however activity has been shown for some methionine aminopeptidases with Zn, Fe, or Mn
YP_001286694.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription; in M. tuberculosis this protein regulates polyketide synthases and secreted or membrane proteins
YP_001286695.1	Mapped to H37Rv Rv0736
YP_001286696.1	Mapped to H37Rv Rv0737
YP_001286697.1	Mapped to H37Rv Rv0738
YP_001286698.1	Mapped to H37Rv Rv0739
YP_001286699.1	Mapped to H37Rv Rv0740
YP_001286700.1	Mapped to H37Rv Rv0741
YP_001286701.1	Mapped to H37Rv Rv0742
YP_001286702.1	Mapped to H37Rv Rv0743c
YP_001286703.1	Mapped to H37Rv Rv0744c
YP_001286704.1	Mapped to H37Rv Rv0745
YP_001286705.1	Mapped to H37Rv Rv0746
YP_001286706.1	Mapped to H37Rv Rv0747
YP_001286707.1	Mapped to H37Rv Rv0748
YP_001286708.1	Mapped to H37Rv Rv0749
YP_001286709.1	Mapped to H37Rv Rv0750
YP_001286710.1	Mapped to H37Rv Rv0751c
YP_001286711.1	Mapped to H37Rv Rv0752c
YP_001286712.1	Mapped to H37Rv Rv0753c
YP_001286713.1	Mapped to H37Rv Rv0754
YP_001286714.1	Mapped to H37Rv Rv0755c
YP_001286715.1	Mapped to H37Rv Rv0755A
YP_001286716.1	Mapped to H37Rv Rv0756c
YP_001286717.1	Mapped to H37Rv Rv0757
YP_001286718.1	Mapped to H37Rv Rv0758
YP_001286719.1	Mapped to H37Rv Rv0759c
YP_001286720.1	Mapped to H37Rv Rv0760c
YP_001286721.1	Mapped to H37Rv Rv0761c
YP_001286722.1	Mapped to H37Rv Rv0762c
YP_001286723.1	Mapped to H37Rv Rv0763c
YP_001286724.1	Mapped to H37Rv Rv0764c
YP_001286725.1	Mapped to H37Rv Rv0765c
YP_001286726.1	Mapped to H37Rv Rv0766c
YP_001286727.1	Mapped to H37Rv Rv0767c
YP_001286728.1	Mapped to H37Rv Rv0768
YP_001286729.1	Mapped to H37Rv Rv0769
YP_001286730.1	Mapped to H37Rv Rv0770
YP_001286731.1	Mapped to H37Rv Rv0771
YP_001286732.1	catalyzes the formation of N(1)-(5-phospho-D-ribosyl)glycinamide from 5-phospho-D-ribosylamine and glycine in purine biosynthesis
YP_001286733.1	Mapped to H37Rv Rv0773c
YP_001286734.1	Mapped to H37Rv Rv0774c
YP_001286735.1	Mapped to H37Rv Rv0775
YP_001286736.1	Mapped to H37Rv Rv0776c
YP_001286737.1	Catalyzes two discrete reactions in the de novo synthesis of purines: the cleavage of adenylosuccinate and succinylaminoimidazole carboxamide ribotide
YP_001286738.1	Mapped to H37Rv Rv0778
YP_001286739.1	Mapped to H37Rv Rv0779c
YP_001286740.1	catalyzes the formation of (S)-2-(5-amino-1-(5-phospho-D-ribosyl)imidazole-4- carboxamido)succinate from 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate and L-aspartate in purine biosynthesis; SAICAR synthase
YP_001286741.1	Mapped to H37Rv Rv0781
YP_001286742.1	Mapped to H37Rv Rv0781
YP_001286743.1	Mapped to H37Rv Rv0783c
YP_001286744.1	Mapped to H37Rv Rv0784
YP_001286745.1	proposed role in polysaccahride synthesis
YP_001286746.1	Mapped to H37Rv Rv0786c
YP_001286747.1	Mapped to H37Rv Rv0787
YP_001286748.1	With PurL and PurQ catalyzes the conversion of formylglycinamide ribonucleotide, ATP, and glutamine to formylglycinamidine ribonucleotide, ADP, and glutamate in the fourth step of the purine biosynthetic pathway
YP_001286749.1	catalyzes the formation of 2-(formamido)-N1-(5-phospho-D-ribosyl)acetamidine from N2-formyl-N1-(5-phospho-D-ribosyl)glycinamide and L-glutamine in purine biosynthesis
YP_001286750.1	Mapped to H37Rv Rv0789c
YP_001286751.1	Mapped to H37Rv Rv0790c
YP_001286752.1	Mapped to H37Rv Rv0791c
YP_001286753.1	Mapped to H37Rv Rv0792c
YP_001286754.1	Mapped to H37Rv Rv0793
YP_001286755.1	Mapped to H37Rv Rv0794c
YP_001286756.1	Mapped to H37Rv Rv0797
YP_001286757.1	Mapped to H37Rv Rv0797
YP_001286758.1	Mapped to H37Rv Rv0798c
YP_001286759.1	Mapped to H37Rv Rv0799c
YP_001286760.1	catalyzes the removal of amino acids from the N termini of peptides
YP_001286761.1	Mapped to H37Rv Rv0801
YP_001286762.1	Mapped to H37Rv Rv0802c
YP_001286763.1	catalyzes the formation of 2-(formamido)-N1-(5-phospho-D-ribosyl)acetamidine from N2-formyl-N1-(5-phospho-D-ribosyl)glycinamide and L-glutamine in purine biosynthesis
YP_001286764.1	Mapped to H37Rv Rv0804
YP_001286765.1	Mapped to H37Rv Rv0805
YP_001286766.1	Mapped to H37Rv Rv0806c
YP_001286767.1	Mapped to H37Rv Rv0807
YP_001286768.1	Catalyzes first step of the de novo purine nucleotide biosynthetic pathway
YP_001286769.1	catalyzes the formation of 1-(5-phosphoribosyl)-5-aminoimidazole from 2-(formamido)-N1-(5-phosphoribosyl)acetamidine and ATP in purine biosynthesis
YP_001286770.1	Mapped to H37Rv Rv0810c
YP_001286771.1	Mapped to H37Rv Rv0811c
YP_001286772.1	catalyzes the formation of 4-aminobenzoate and pyruvate from 4-amino-4-deoxychorismate
YP_001286773.1	Mapped to H37Rv Rv0813c
YP_001286774.1	Mapped to H37Rv Rv0814c
YP_001286775.1	Mapped to H37Rv Rv0815c
YP_001286776.1	Mapped to H37Rv Rv0816c
YP_001286777.1	Mapped to H37Rv Rv0817c
YP_001286778.1	Mapped to H37Rv Rv0818
YP_001286779.1	Mapped to H37Rv Rv0819
YP_001286780.1	ATP-binding protein; PstABCS is an ATP dependent phosphate uptake system which is responsible for inorganic phosphate uptake during phosphate starvation
YP_001286781.1	Mapped to H37Rv Rv0821c
YP_001286782.1	Mapped to H37Rv Rv0822c
YP_001286783.1	Mapped to H37Rv Rv0823c
YP_001286784.1	Mapped to H37Rv Rv0824c
YP_001286785.1	Mapped to H37Rv Rv0825c
YP_001286786.1	Mapped to H37Rv Rv0826
YP_001286787.1	Mapped to H37Rv Rv0827c
YP_001286788.1	Mapped to H37Rv Rv0828c
YP_001286789.1	Mapped to H37Rv Rv0829
YP_001286790.1	Mapped to H37Rv Rv0830
YP_001286791.1	Mapped to H37Rv Rv0831c
YP_001286792.1	Mapped to H37Rv Rv0832
YP_001286793.1	Mapped to H37Rv Rv0833
YP_001286794.1	Mapped to H37Rv Rv0834c
YP_001286795.1	Mapped to H37Rv Rv0835
YP_001286796.1	Mapped to H37Rv Rv0835
YP_001286797.1	Mapped to H37Rv Rv0835
YP_001286799.1	Mapped to H37Rv Rv0836c
YP_001286800.1	Mapped to H37Rv Rv0837c
YP_001286801.1	Mapped to H37Rv Rv0838
YP_001286802.1	Mapped to H37Rv Rv0839
YP_001286803.1	Mapped to H37Rv Rv0840c
YP_001286804.1	Mapped to H37Rv Rv0842
YP_001286805.1	Mapped to H37Rv Rv0843
YP_001286806.1	Mapped to H37Rv Rv0844c
YP_001286807.1	Mapped to H37Rv Rv0845
YP_001286808.1	Mapped to H37Rv Rv0846c
YP_001286809.1	Mapped to H37Rv Rv0847
YP_001286810.1	Mapped to H37Rv Rv0848
YP_001286811.1	Mapped to H37Rv Rv0849
YP_001286812.1	Mapped to H37Rv Rv0850
YP_001286813.1	Mapped to H37Rv Rv0851c
YP_001286814.1	Mapped to H37Rv Rv0852
YP_001286815.1	Mapped to H37Rv Rv0853c
YP_001286816.1	Mapped to H37Rv Rv0854
YP_001286817.1	Mapped to H37Rv Rv0855
YP_001286818.1	Mapped to H37Rv Rv0856
YP_001286819.1	Mapped to H37Rv Rv0857
YP_001286820.1	Mapped to H37Rv Rv0858c
YP_001286821.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001286822.1	Mapped to H37Rv Rv0860
YP_001286823.1	Mapped to H37Rv Rv0861c
YP_001286824.1	Mapped to H37Rv Rv0862c
YP_001286825.1	Mapped to H37Rv Rv0863
YP_001286826.1	MoaC; along with MoaA is involved in conversion of a guanosine derivative into molybdopterin precursor Z; involved in molybdenum cofactor biosynthesis
YP_001286827.1	Mapped to H37Rv Rv0865
YP_001286828.1	Mapped to H37Rv Rv0866
YP_001286829.1	Mapped to H37Rv Rv0867c
YP_001286830.1	Mapped to H37Rv Rv0868c
YP_001286831.1	together with moaC, is involved in the conversion of a guanosine derivative (GXP) into molybdopterin precursor Z
YP_001286832.1	Mapped to H37Rv Rv0870c
YP_001286833.1	Mapped to H37Rv Rv0871
YP_001286834.1	Mapped to H37Rv Rv0872c
YP_001286835.1	Mapped to H37Rv Rv0873
YP_001286836.1	Mapped to H37Rv Rv0874c
YP_001286837.1	Mapped to H37Rv Rv0875c
YP_001286838.1	Mapped to H37Rv Rv0876c
YP_001286839.1	Mapped to H37Rv Rv0877
YP_001286840.1	Mapped to H37Rv Rv0878c
YP_001286841.1	Mapped to H37Rv Rv0879c
YP_001286842.1	Mapped to H37Rv Rv0880
YP_001286843.1	Mapped to H37Rv Rv0881
YP_001286844.1	Mapped to H37Rv Rv0882
YP_001286845.1	Mapped to H37Rv Rv0883c
YP_001286846.1	catalyzes the formation of 3-phosphonooxypyruvate and glutamate from O-phospho-L-serine and 2-oxoglutarate
YP_001286847.1	Mapped to H37Rv Rv0885
YP_001286848.1	Mapped to H37Rv Rv0886
YP_001286849.1	Mapped to H37Rv Rv0887c
YP_001286852.1	Mapped to H37Rv Rv0888
YP_001286853.1	forms citrate from oxaloacetate and acetyl-CoA; functions in TCA cycle
YP_001286854.1	Mapped to H37Rv Rv0890c
YP_001286855.1	Mapped to H37Rv Rv0891c
YP_001286856.1	Mapped to H37Rv Rv0892
YP_001286857.1	Mapped to H37Rv Rv0893c
YP_001286858.1	Mapped to H37Rv Rv0894
YP_001286859.1	Mapped to H37Rv Rv0895
YP_001286860.1	type II enzyme; in Escherichia coli this enzyme forms a trimer of dimers which is allosterically inhibited by NADH and competitively inhibited by alpha-ketoglutarate; allosteric inhibition is lost when Cys206 is chemically modified which also affects hexamer formation; forms oxaloacetate and acetyl-CoA and water from citrate and coenzyme A; functions in TCA cycle, glyoxylate cycle and respiration; enzyme from Helicobacter pylori is not inhibited by NADH
YP_001286861.1	Mapped to H37Rv Rv0897c
YP_001286862.1	Mapped to H37Rv Rv0898c
YP_001286863.1	Mapped to H37Rv Rv0899
YP_001286864.1	Mapped to H37Rv Rv0901
YP_001286865.1	Mapped to H37Rv Rv0902c
YP_001286866.1	Mapped to H37Rv Rv0903c
YP_001286867.1	Mapped to H37Rv Rv0904c
YP_001286868.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001286869.1	Mapped to H37Rv Rv0906
YP_001286870.1	Mapped to H37Rv Rv0907
YP_001286871.1	Mapped to H37Rv Rv0908
YP_001286872.1	Mapped to H37Rv Rv0909
YP_001286873.1	Mapped to H37Rv Rv0910
YP_001286874.1	Mapped to H37Rv Rv0911
YP_001286875.1	Mapped to H37Rv Rv0912
YP_001286876.1	Mapped to H37Rv Rv0913c
YP_001286877.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001286878.1	Mapped to H37Rv Rv0915c
YP_001286879.1	Mapped to H37Rv Rv0916c
YP_001286880.1	Mapped to H37Rv Rv0917
YP_001286881.1	Mapped to H37Rv Rv0918
YP_001286882.1	Mapped to H37Rv Rv0919
YP_001286883.1	Mapped to H37Rv Rv0920c
YP_001286884.1	Mapped to H37Rv Rv0921
YP_001286885.1	Mapped to H37Rv Rv0922
YP_001286886.1	Mapped to H37Rv Rv0923c
YP_001286887.1	Mapped to H37Rv Rv0924c
YP_001286888.1	Mapped to H37Rv Rv0925c
YP_001286889.1	Mapped to H37Rv Rv0926c
YP_001286890.1	Mapped to H37Rv Rv0927c
YP_001286891.1	Mapped to H37Rv Rv0928
YP_001286892.1	Mapped to H37Rv Rv0929
YP_001286893.1	Mapped to H37Rv Rv0930
YP_001286894.1	Mapped to H37Rv Rv0931c
YP_001286895.1	Mapped to H37Rv Rv0932c
YP_001286896.1	ATP-binding protein; PstABCS is an ATP dependent phosphate uptake system which is responsible for inorganic phosphate uptake during phosphate starvation
YP_001286897.1	Mapped to H37Rv Rv0934
YP_001286898.1	Mapped to H37Rv Rv0935
YP_001286899.1	Mapped to H37Rv Rv0936
YP_001286900.1	Mapped to H37Rv Rv0937c
YP_001286901.1	catalyzes the ATP-dependent formation of a phosphodiester at the site of a single-strand break in duplex DNA and has been shown to have polymerase activity
YP_001286902.1	Mapped to H37Rv Rv0939
YP_001286903.1	Mapped to H37Rv Rv0940c
YP_001286904.1	Mapped to H37Rv Rv0941c
YP_001286905.1	Mapped to H37Rv Rv0943c
YP_001286906.1	Mapped to H37Rv Rv0944
YP_001286907.1	Mapped to H37Rv Rv0945
YP_001286908.1	functions in sugar metabolism in glycolysis and the Embden-Meyerhof pathways (EMP) and in gluconeogenesis; catalyzes reversible isomerization of glucose-6-phosphate to fructose-6-phosphate; member of PGI family
YP_001286910.1	Mapped to H37Rv Rv0947c
YP_001286911.1	Mapped to H37Rv Rv0948c
YP_001286912.1	Mapped to H37Rv Rv0949
YP_001286913.1	Mapped to H37Rv Rv0950c
YP_001286914.1	catalyzes the interconversion of succinyl-CoA and succinate
YP_001286915.1	Catalyzes the only substrate-level phosphorylation in the TCA cycle
YP_001286916.1	Mapped to H37Rv Rv0953c
YP_001286917.1	Mapped to H37Rv Rv0954
YP_001286918.1	Mapped to H37Rv Rv0955
YP_001286919.1	glycinamide ribonucleotide transformylase; GAR Tfase; catalyzes the synthesis of 5'-phosphoribosylformylglycinamide from 5'-phosphoribosylglycinamide and 10-formyltetrahydrofolate; PurN requires formyl folate for the reaction unlike PurT which uses formate
YP_001286920.1	involved in de novo purine biosynthesis
YP_001286921.1	Mapped to H37Rv Rv0958
YP_001286922.1	Mapped to H37Rv Rv0959
YP_001286923.1	Mapped to H37Rv Rv0960
YP_001286924.1	Mapped to H37Rv Rv0961
YP_001286925.1	Mapped to H37Rv Rv0962c
YP_001286926.1	Mapped to H37Rv Rv0963c
YP_001286927.1	Mapped to H37Rv Rv0964c
YP_001286928.1	Mapped to H37Rv Rv0965c
YP_001286929.1	Mapped to H37Rv Rv0966c
YP_001286930.1	Mapped to H37Rv Rv0967
YP_001286931.1	Mapped to H37Rv Rv0968
YP_001286932.1	Mapped to H37Rv Rv0969
YP_001286933.1	Mapped to H37Rv Rv0970
YP_001286934.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001286935.1	Mapped to H37Rv Rv0972c
YP_001286936.1	Mapped to H37Rv Rv0973c
YP_001286937.1	Mapped to H37Rv Rv0974c
YP_001286938.1	Mapped to H37Rv Rv0975c
YP_001286939.1	Mapped to H37Rv Rv0976c
YP_001286940.1	Mapped to H37Rv Rv0977
YP_001286941.1	Mapped to H37Rv Rv0978c
YP_001286942.2	some L32 proteins have zinc finger motifs consisting of CXXC while others do not
YP_001286943.1	Mapped to H37Rv Rv0980c
YP_001286944.1	Mapped to H37Rv Rv0981
YP_001286945.1	Mapped to H37Rv Rv0982
YP_001286946.1	Mapped to H37Rv Rv0983
YP_001286947.1	Mapped to H37Rv Rv0984
YP_001286948.1	forms homopentamer; channel that opens in response to pressure or hypoosmotic shock
YP_001286949.1	Mapped to H37Rv Rv0986
YP_001286950.1	Mapped to H37Rv Rv0987
YP_001286951.1	Mapped to H37Rv Rv0988
YP_001286952.1	Mapped to H37Rv Rv0989c
YP_001286953.1	Mapped to H37Rv Rv0990c
YP_001286954.1	Mapped to H37Rv Rv0991c
YP_001286955.1	Mapped to H37Rv Rv0992c
YP_001286956.1	Mapped to H37Rv Rv0993
YP_001286957.1	Mapped to H37Rv Rv0994
YP_001286958.1	Mapped to H37Rv Rv0995
YP_001286959.1	Mapped to H37Rv Rv0996
YP_001286961.1	Mapped to H37Rv Rv0997
YP_001286962.1	Mapped to H37Rv Rv0998
YP_001286963.1	Mapped to H37Rv Rv0999
YP_001286964.1	Mapped to H37Rv Rv1000c
YP_001286965.1	catalyzes the degradation of arginine to citruline and ammonia
YP_001286966.1	Mapped to H37Rv Rv1002c
YP_001286967.1	Mapped to H37Rv Rv1003
YP_001286968.1	Mapped to H37Rv Rv1004c
YP_001286969.1	catalyzes the formation of 4-amino-4-deoxychorismate from chorismate and glutamine
YP_001286970.1	Mapped to H37Rv Rv1006
YP_001286971.1	methionine--tRNA ligase; MetRS; adds methionine to tRNA(Met) with cleavage of ATP to AMP and diphosphate; some MetRS enzymes form dimers depending on a C-terminal domain that is also found in other proteins such as Trbp111 in Aquifex aeolicus and the cold-shock protein CsaA from Bacillus subtilis while others do not; four subfamilies exist based on sequence motifs and zinc content
YP_001286972.1	Mapped to H37Rv Rv1008
YP_001286973.1	Mapped to H37Rv Rv1009
YP_001286974.1	catalyzes the transfer of a total of four methyl groups from S-adenosyl-l-methionine (S-AdoMet) to two adjacent adenosine bases A1518 and A1519 in 16S rRNA; mutations in ksgA causes resistance to the translation initiation inhibitor kasugamycin
YP_001286975.1	catalyzes the phosphorylation of 4-diphosphocytidyl-2-C-methyl-D-erythritol in the nonmevalonate pathway of isoprenoid biosynthesis
YP_001286976.1	activates fatty acids by binding to coenzyme A
YP_001286977.1	Enables the recycling of peptidyl-tRNAs produced at termination of translation
YP_001286978.1	the Ctc family of proteins consists of two types, one that contains the N-terminal ribosomal protein L25 domain only which in Escherichia coli binds the 5S rRNA while a subset of proteins contain a C-terminal extension that is involved in the stress response
YP_001286979.1	Mapped to H37Rv Rv1016c
YP_001286980.1	catalyzes the formation of 5-phospho-alpha-D-ribose 1-phosphate from D-ribose 5-phosphate and ATP
YP_001286981.1	forms a homotrimer; catalyzes the acetylation of glucosamine-1-phosphate and uridylation of N-acetylglucosamine-1-phosphate to produce UDP-GlcNAc; function in cell wall synthesis
YP_001286982.1	Mapped to H37Rv Rv1019
YP_001286983.1	Mapped to H37Rv Rv1020
YP_001286984.1	functions in degradation of stringent response intracellular messenger ppGpp; in Escherichia coli this gene is co-transcribed with the toxin/antitoxin genes mazEF; activity of MazG is inhibited by MazEF in vitro; ppGpp inhibits mazEF expression; MazG thus works in limiting the toxic activity of the MazF toxin induced during starvation; MazG also interacts with the GTPase protein Era
YP_001286985.1	Mapped to H37Rv Rv1022
YP_001286986.1	enolase; catalyzes the formation of phosphoenolpyruvate from 2-phospho-D-glycerate in glycolysis
YP_001286987.1	Mapped to H37Rv Rv1024
YP_001286988.1	Mapped to H37Rv Rv1025
YP_001286989.1	Mapped to H37Rv Rv1026
YP_001286990.1	Mapped to H37Rv Rv1027c
YP_001286991.1	Mapped to H37Rv Rv1028c
YP_001286992.1	catalyzes the hydrolysis of ATP coupled with the exchange of hydrogen and potassium ions
YP_001286993.1	One of the components of the high-affinity ATP-driven potassium transport (or KDP) system, which catalyzes the hydrolysis of ATP coupled with the exchange of hydrogen and potassium ions
YP_001286994.1	one of the components of the high-affinity ATP-driven potassium transport (or KDP)system, which catalyzes the hydrolysis of ATP coupled with the exchange of hydrogen and potassium ions; the C subunit may be involved in assembly of the KDP complex
YP_001286995.1	Mapped to H37Rv Rv1032c
YP_001286996.1	Mapped to H37Rv Rv1033c
YP_001286997.1	Mapped to H37Rv Rv1034c
YP_001286998.1	Mapped to H37Rv Rv1035c
YP_001286999.1	Mapped to H37Rv Rv1036c
YP_001287000.1	Mapped to H37Rv Rv1037c
YP_001287001.1	Mapped to H37Rv Rv1038c
YP_001287002.1	Mapped to H37Rv Rv1039c
YP_001287003.1	Mapped to H37Rv Rv1040c
YP_001287004.1	Mapped to H37Rv Rv1041c
YP_001287005.1	Mapped to H37Rv Rv1042c
YP_001287006.1	Mapped to H37Rv Rv1043c
YP_001287007.1	Mapped to H37Rv Rv1044
YP_001287008.1	Mapped to H37Rv Rv1045
YP_001287009.1	Mapped to H37Rv Rv1046c
YP_001287010.1	Mapped to H37Rv Rv1047
YP_001287011.1	Mapped to H37Rv Rv1048c
YP_001287012.1	Mapped to H37Rv Rv1049
YP_001287013.1	Mapped to H37Rv Rv1050
YP_001287014.1	Mapped to H37Rv Rv1051c
YP_001287016.1	Mapped to H37Rv Rv1052
YP_001287017.1	Mapped to H37Rv Rv1053c
YP_001287018.1	Mapped to H37Rv Rv1054
YP_001287019.1	Mapped to H37Rv Rv1056
YP_001287020.1	Mapped to H37Rv Rv1057
YP_001287021.1	activates fatty acids by binding to coenzyme A
YP_001287022.1	Mapped to H37Rv Rv1059
YP_001287023.1	Mapped to H37Rv Rv1060
YP_001287024.1	Mapped to H37Rv Rv1061
YP_001287025.1	Mapped to H37Rv Rv1062
YP_001287026.1	Mapped to H37Rv Rv1063c
YP_001287027.1	Mapped to H37Rv Rv1064c
YP_001287028.1	Mapped to H37Rv Rv1065
YP_001287029.1	Mapped to H37Rv Rv1066
YP_001287030.1	Mapped to H37Rv Rv1067c
YP_001287031.1	Mapped to H37Rv Rv1068c
YP_001287032.1	Mapped to H37Rv Rv1069c
YP_001287033.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001287034.1	catalyzes the formation of 3-hydroxy-2-methylpropanoate from 3-hydroxy-2-methylpropanoyl-CoA
YP_001287035.1	Mapped to H37Rv Rv1072
YP_001287036.1	Mapped to H37Rv Rv1073
YP_001287037.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001287038.1	Mapped to H37Rv Rv1075c
YP_001287039.1	Mapped to H37Rv Rv1076
YP_001287040.1	Mapped to H37Rv Rv1077
YP_001287041.1	Mapped to H37Rv Rv1078
YP_001287042.1	catalyzes the formation of cystathionine from L-cysteine and O-succinyl-L-homoserine
YP_001287043.1	necessary for efficient RNA polymerase transcription elongation past template-encoded arresting sites; arresting sites in DNA have the property of trapping a certain fraction of elongating RNA polymerases that pass through, resulting in locked ternary complexes. Cleavage of the nascent transcript by cleavage factors such as GreA or GreB allows the resumption of elongation from the new 3'terminus
YP_001287044.1	Mapped to H37Rv Rv1081c
YP_001287045.1	Mapped to H37Rv Rv1082
YP_001287046.1	Mapped to H37Rv Rv1083
YP_001287047.1	Mapped to H37Rv Rv1084
YP_001287048.1	Mapped to H37Rv Rv1085c
YP_001287049.1	Mapped to H37Rv Rv1086
YP_001287050.1	Mapped to H37Rv Rv1087
YP_001287051.1	Mapped to H37Rv Rv1087A
YP_001287052.1	Mapped to H37Rv Rv1088
YP_001287053.1	Mapped to H37Rv Rv1089
YP_001287054.1	Mapped to H37Rv Rv1089
YP_001287055.1	Mapped to H37Rv Rv1089A
YP_001287056.1	Mapped to H37Rv Rv1090
YP_001287057.1	Mapped to H37Rv Rv1091
YP_001287058.1	catalyzes the formation of (R)-4'-phosphopantothenate in coenzyme A biosynthesis
YP_001287059.1	catalyzes the reaction of glycine with 5,10-methylenetetrahydrofolate to form L-serine and tetrahydrofolate
YP_001287060.1	Mapped to H37Rv Rv1094
YP_001287061.1	Mapped to H37Rv Rv1095
YP_001287062.1	Mapped to H37Rv Rv1096
YP_001287063.1	Mapped to H37Rv Rv1097c
YP_001287064.1	class II family (does not require metal); tetrameric enzyme; fumarase C; reversibly converts (S)-malate to fumarate and water; functions in the TCA cycle
YP_001287065.1	type II fructose 1,6-bisphosphatae; in Escherichia coli this protein forms a dimer and binds manganese
YP_001287066.1	Mapped to H37Rv Rv1100
YP_001287067.1	Mapped to H37Rv Rv1101c
YP_001287068.1	Mapped to H37Rv Rv1102c
YP_001287069.1	Mapped to H37Rv Rv1103c
YP_001287070.1	Mapped to H37Rv Rv1104
YP_001287071.1	Mapped to H37Rv Rv1104
YP_001287072.1	Mapped to H37Rv Rv1105
YP_001287073.1	Mapped to H37Rv Rv1106c
YP_001287074.1	catalyzes the bidirectional exonucleolytic cleavage of DNA
YP_001287075.1	bidirectionally degrades single-stranded DNA into large acid-insoluble oligonucleotides
YP_001287076.1	Mapped to H37Rv Rv1109c
YP_001287077.1	catalyzes the conversion of 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate into isopentenyl diphosphate (IPP) and dimethylallyl diphosphate (DMAPP); functions in the nonmevalonate isoprenoid biosynthesis pathway
YP_001287078.1	Mapped to H37Rv Rv1111c
YP_001287079.1	translation-associated GTPase; the crystal structure of the Haemophilus influenzae YchF protein showed similarity to the yeast structure (PDB: 1NI3); fluorescence spectroscopy revealed nucleic acid binding; the yeast protein YBR025c interacts with the translation elongation factor eEF1
YP_001287080.1	Mapped to H37Rv Rv1113
YP_001287081.1	Mapped to H37Rv Rv1114
YP_001287082.1	Mapped to H37Rv Rv1115
YP_001287083.1	Mapped to H37Rv Rv1116
YP_001287084.1	Mapped to H37Rv Rv1116A
YP_001287085.1	Mapped to H37Rv Rv1117
YP_001287086.1	Mapped to H37Rv Rv1118c
YP_001287087.1	Mapped to H37Rv Rv1119c
YP_001287088.1	Mapped to H37Rv Rv1120c
YP_001287089.1	catalyzes the formation of D-glucono-1,5-lactone 6-phosphate from D-glucose 6-phosphate
YP_001287090.1	similar to full-length Gnd, these proteins seems to have a truncated C-terminal 6PGD domainin; in Methylobacillus flagellatus this gene is essential for NAD+-dependent oxidation of 6-phosphogluconate
YP_001287091.1	Mapped to H37Rv Rv1123c
YP_001287092.1	Mapped to H37Rv Rv1124
YP_001287093.1	Mapped to H37Rv Rv1125
YP_001287094.1	Mapped to H37Rv Rv1126c
YP_001287095.1	catalyzes the formation of phosphoenolpyruvate from pyruvate
YP_001287096.1	Mapped to H37Rv Rv1128c
YP_001287097.1	Mapped to H37Rv Rv1129c
YP_001287098.1	Mapped to H37Rv Rv1130
YP_001287099.1	catalyzes the formation of citrate from acetyl-CoA and oxaloacetate
YP_001287100.1	Mapped to H37Rv Rv1132
YP_001287101.1	catalyzes the transfer of a methyl group from 5-methyltetrahydrofolate to homocysteine to form methionine
YP_001287102.1	Mapped to H37Rv Rv1135c
YP_001287103.1	Mapped to H37Rv Rv1135A
YP_001287104.1	Mapped to H37Rv Rv1136
YP_001287106.1	Mapped to H37Rv Rv1138c
YP_001287107.1	Mapped to H37Rv Rv1139c
YP_001287108.1	Mapped to H37Rv Rv1140
YP_001287109.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001287110.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001287111.1	Mapped to H37Rv Rv1143
YP_001287112.1	Mapped to H37Rv Rv1144
YP_001287113.1	Mapped to H37Rv Rv1144
YP_001287114.1	Mapped to H37Rv Rv1145
YP_001287115.1	Mapped to H37Rv Rv1146
YP_001287116.1	Mapped to H37Rv Rv1147
YP_001287117.1	Mapped to H37Rv Rv1147
YP_001287118.1	Mapped to H37Rv Rv1148c
YP_001287119.1	Mapped to H37Rv Rv1148c
YP_001287120.1	Modulates the activities of several enzymes which are inactive in their acetylated form
YP_001287121.1	Mapped to H37Rv Rv1152
YP_001287122.1	Mapped to H37Rv Rv1153c
YP_001287123.1	Mapped to H37Rv Rv1154c
YP_001287124.1	Mapped to H37Rv Rv1155
YP_001287125.1	Mapped to H37Rv Rv1156
YP_001287126.1	Mapped to H37Rv Rv1157c
YP_001287127.1	Mapped to H37Rv Rv1158c
YP_001287128.1	involved in the fifth mannose transfer of phosphatidylinositol mannoside synthesis
YP_001287129.1	4-alpha-hydroxytetrahydrobiopterin dehydratase activity; catalyzes the formation of (6R)-6-(L-erythro-1,2-dihydroxypropyl)-7, 8-dihydro-6H-pterin from (6R)-6-(L-erythro-1,2-dihydroxypropyl)-5,6,7, 8-tetrahydro-4a-hydroxypterin; functions in recycling tetrahydrobiopterin (BH4) in phenylalanine hydroxylase reaction
YP_001287130.1	Mapped to H37Rv Rv1160
YP_001287131.1	Mapped to H37Rv Rv1161
YP_001287132.1	Mapped to H37Rv Rv1162
YP_001287133.1	Mapped to H37Rv Rv1163
YP_001287134.1	Mapped to H37Rv Rv1164
YP_001287135.1	Mapped to H37Rv Rv1165
YP_001287136.1	Mapped to H37Rv Rv1166
YP_001287137.1	Mapped to H37Rv Rv1167c
YP_001287138.1	Mapped to H37Rv Rv1168c
YP_001287139.1	Mapped to H37Rv Rv1169c
YP_001287140.1	Mapped to H37Rv Rv1170
YP_001287141.1	Mapped to H37Rv Rv1171
YP_001287142.1	Mapped to H37Rv Rv1172c
YP_001287143.1	7,8-didemethyl-8-hydroxy-5-deazariboflavin synthase; catalyzes radical-mediated transfer of hydroxybenzyl group from 4-hydroxyphenylpyruvate (HPP) to 5-amino-6-ribitylamino-2,4(1H,3H)-pyrimidinedione to form 7,8-didemethyl-8-hydroxy-5-deazariboflavin (FO); functions in F420 biosynthesis
YP_001287144.1	Mapped to H37Rv Rv1174c
YP_001287145.1	Mapped to H37Rv Rv1175c
YP_001287146.1	Mapped to H37Rv Rv1176c
YP_001287147.1	Mapped to H37Rv Rv1177
YP_001287148.1	catalyzes the formation of N-succinyl-LL-2,6-diaminopimelate from N-succinyl-L-2-amino-6-oxopimelate in lysine biosynthesis
YP_001287149.1	Mapped to H37Rv Rv1179c
YP_001287150.1	Mapped to H37Rv Rv1180
YP_001287151.1	Mapped to H37Rv Rv1182
YP_001287152.1	Mapped to H37Rv Rv1183
YP_001287153.1	Mapped to H37Rv Rv1184c
YP_001287154.1	activates fatty acids by binding to coenzyme A
YP_001287155.1	Mapped to H37Rv Rv1186c
YP_001287156.1	Mapped to H37Rv Rv1187
YP_001287157.1	Mapped to H37Rv Rv1188
YP_001287158.1	member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription
YP_001287159.1	Mapped to H37Rv Rv1190
YP_001287160.1	Mapped to H37Rv Rv1191
YP_001287161.1	Mapped to H37Rv Rv1192
YP_001287162.1	activates fatty acids by binding to coenzyme A
YP_001287163.1	Mapped to H37Rv Rv1194c
YP_001287164.1	Mapped to H37Rv Rv1195
YP_001287165.1	Mapped to H37Rv Rv1196
YP_001287166.1	Mapped to H37Rv Rv1197
YP_001287167.1	Mapped to H37Rv Rv1198
YP_001287168.1	Mapped to H37Rv Rv1199c
YP_001287169.1	Mapped to H37Rv Rv1200
YP_001287170.1	Mapped to H37Rv Rv1201c
YP_001287171.1	catalyzes the formation of succinate and diaminoheptanedioate from succinyldiaminoheptanedioate
YP_001287172.1	Mapped to H37Rv Rv1203c
YP_001287173.1	Mapped to H37Rv Rv1204c
YP_001287174.1	Mapped to H37Rv Rv1205
YP_001287175.1	activates fatty acids by binding to coenzyme A; may be involved in acyclic terpene utilization
YP_001287176.1	Mapped to H37Rv Rv1207
YP_001287177.1	Mapped to H37Rv Rv1208
YP_001287178.1	Mapped to H37Rv Rv1209
YP_001287179.1	Mapped to H37Rv Rv1210
YP_001287180.1	Mapped to H37Rv Rv1211
YP_001287181.1	Mapped to H37Rv Rv1212c
YP_001287182.1	catalyzes the formation of ADP-glucose and diphosphate from ATP and alpha-D-glucose 1-phosphate
YP_001287183.1	Mapped to H37Rv Rv1214c
YP_001287184.1	Mapped to H37Rv Rv1215c
YP_001287185.1	Mapped to H37Rv Rv1216c
YP_001287186.1	Mapped to H37Rv Rv1217c
YP_001287187.1	Mapped to H37Rv Rv1218c
YP_001287188.1	Mapped to H37Rv Rv1219c
YP_001287189.1	Mapped to H37Rv Rv1220c
YP_001287190.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription; in M. tuberculosis this protein is involved in heat shock, oxidative stress and virulence
YP_001287191.1	Mapped to H37Rv Rv1222
YP_001287192.1	Mapped to H37Rv Rv1223
YP_001287193.1	mediates the export of protein precursors bearing twin-arginine signal peptides
YP_001287194.1	Mapped to H37Rv Rv1225c
YP_001287195.1	Mapped to H37Rv Rv1226c
YP_001287196.1	Mapped to H37Rv Rv1227c
YP_001287197.1	Mapped to H37Rv Rv1228
YP_001287199.1	Mapped to H37Rv Rv1229c
YP_001287200.1	Mapped to H37Rv Rv1230c
YP_001287201.1	Mapped to H37Rv Rv1231c
YP_001287202.1	Mapped to H37Rv Rv1232c
YP_001287203.1	Mapped to H37Rv Rv1233c
YP_001287204.1	Mapped to H37Rv Rv1234
YP_001287205.1	Mapped to H37Rv Rv1235
YP_001287206.1	Mapped to H37Rv Rv1236
YP_001287207.1	Mapped to H37Rv Rv1237
YP_001287208.1	Mapped to H37Rv Rv1238
YP_001287209.1	Mapped to H37Rv Rv1239c
YP_001287210.1	catalyzes the oxidation of malate to oxaloacetate
YP_001287211.1	Mapped to H37Rv Rv1241
YP_001287212.1	Mapped to H37Rv Rv1242
YP_001287213.1	Mapped to H37Rv Rv1243c
YP_001287214.1	Mapped to H37Rv Rv1243c
YP_001287215.1	Mapped to H37Rv Rv1244
YP_001287216.1	Mapped to H37Rv Rv1245c
YP_001287217.1	Mapped to H37Rv Rv1246c
YP_001287218.1	Mapped to H37Rv Rv1247c
YP_001287219.1	kgd; produces succinic semialdehyde; part of alternative pathway from alpha-ketoglutarate to succinate; essential for normal growth
YP_001287220.1	Mapped to H37Rv Rv1249c
YP_001287221.1	Mapped to H37Rv Rv1250
YP_001287222.1	Mapped to H37Rv Rv1251c
YP_001287223.1	Mapped to H37Rv Rv1252c
YP_001287224.1	Mapped to H37Rv Rv1253
YP_001287225.1	Mapped to H37Rv Rv1254
YP_001287226.1	Mapped to H37Rv Rv1255c
YP_001287227.1	Mapped to H37Rv Rv1256c
YP_001287228.1	Mapped to H37Rv Rv1257c
YP_001287229.1	Mapped to H37Rv Rv1258c
YP_001287230.1	Mapped to H37Rv Rv1259
YP_001287231.1	Mapped to H37Rv Rv1260
YP_001287232.1	Mapped to H37Rv Rv1261c
YP_001287233.1	Mapped to H37Rv Rv1262c
YP_001287234.1	catalyzes the hydrolysis of a monocarboxylic acid amid to form a monocarboxylate and ammonia
YP_001287235.1	Mapped to H37Rv Rv1264
YP_001287236.1	Mapped to H37Rv Rv1265
YP_001287237.1	Mapped to H37Rv Rv1266c
YP_001287238.1	Mapped to H37Rv Rv1267c
YP_001287239.1	Mapped to H37Rv Rv1268c
YP_001287240.1	Mapped to H37Rv Rv1269c
YP_001287241.1	Mapped to H37Rv Rv1270c
YP_001287242.1	Mapped to H37Rv Rv1271c
YP_001287243.1	Mapped to H37Rv Rv1272c
YP_001287244.1	Mapped to H37Rv Rv1273c
YP_001287245.1	Mapped to H37Rv Rv1274
YP_001287246.1	Mapped to H37Rv Rv1275
YP_001287247.1	Mapped to H37Rv Rv1276c
YP_001287248.1	Mapped to H37Rv Rv1277
YP_001287249.1	Mapped to H37Rv Rv1278
YP_001287250.1	Mapped to H37Rv Rv1279
YP_001287251.1	Mapped to H37Rv Rv1280c
YP_001287252.1	Mapped to H37Rv Rv1281c
YP_001287253.1	Mapped to H37Rv Rv1282c
YP_001287254.1	Mapped to H37Rv Rv1283c
YP_001287255.1	Mapped to H37Rv Rv1284
YP_001287256.1	with CysN catalyzes the formation of adenylylsulfate from sulfate and ATP
YP_001287257.1	in Rhizobium meliloti this protein is involved in the synthesis of nodulation factors that are active on the roots of alfalfa; catalyzes formation of activated sulfate intermediate; converts ATP and sulfate to diphosphate and adenylylsulfate and then ATP and adenylyl sulfate to ADP and 3'-phosphoadenylyl sulfate; the activated intermediate is transferred to the nodulation factors by NodH; may interact with NodP and NodQ; similar to the CysD and CysN proteins from EScherichia coli involved in cysteine biosynthesis
YP_001287258.1	Mapped to H37Rv Rv1287
YP_001287259.1	Mapped to H37Rv Rv1288
YP_001287260.1	Mapped to H37Rv Rv1289
YP_001287261.1	Mapped to H37Rv Rv1290c
YP_001287262.1	Mapped to H37Rv Rv1290A
YP_001287263.1	Mapped to H37Rv Rv1291c
YP_001287264.1	catalyzes a two-step reaction, first charging an arginine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; class-I aminoacyl-tRNA synthetase
YP_001287265.1	Mapped to H37Rv Rv1293
YP_001287266.1	catalyzes the formation of L-aspartate 4-semialdehyde from L-homoserine
YP_001287267.1	catalyzes the formation of L-threonine from O-phospho-L-homoserine
YP_001287268.1	catalyzes the formation of O-phospho-L-homoserine from L-homoserine in threonine biosynthesis from asparate
YP_001287269.1	An RNA-DNA helicase that actively releases nascent mRNAs from paused transcription complexes
YP_001287270.1	RpmE; there appears to be two types of ribosomal proteins L31 in bacterial genomes; some contain a CxxC motif while others do not; Bacillus subtilis has both types; the proteins in this cluster have the CXXC motif; RpmE is found in exponentially growing Bacilli while YtiA was found after exponential growth; expression of ytiA is controlled by a zinc-specific transcriptional repressor; RpmE contains one zinc ion and a CxxC motif is responsible for this binding; forms an RNP particle along with proteins L5, L18, and L25 and 5S rRNA; found crosslinked to L2 and L25 and EF-G; may be near the peptidyltransferase site of the 50S ribosome
YP_001287271.1	recognizes the termination signals UAG and UAA during protein translation a specificity which is dependent on amino acid residues residing in loops of the L-shaped tRNA-like molecule of RF1; this protein is similar to release factor 2
YP_001287272.1	Mapped to H37Rv Rv1300
YP_001287273.1	Mapped to H37Rv Rv1301
YP_001287274.1	Mapped to H37Rv Rv1302
YP_001287275.1	Mapped to H37Rv Rv1303
YP_001287276.1	Produces ATP from ADP in the presence of a proton gradient across the membrane. Subunit A is part of the membrane proton channel F0
YP_001287277.1	Produces ATP from ADP in the presence of a proton gradient across the membrane. Subunit C is part of the membrane proton channel F0
YP_001287278.1	Produces ATP from ADP in the presence of a proton gradient across the membrane. Subunit B is part of the membrane proton channel.
YP_001287279.1	produces ATP from ADP in the presence of a proton gradient across the membrane; the delta subunit is part of the catalytic core of the ATP synthase complex
YP_001287280.1	produces ATP from ADP in the presence of a proton gradient across the membrane; the alpha chain is a catalytic subunit
YP_001287281.1	Produces ATP from ADP in the presence of a proton gradient across the membrane. The gamma chain is a regulatory subunit
YP_001287282.1	Produces ATP from ADP in the presence of a proton gradient across the membrane. The beta chain is a regulatory subunit
YP_001287283.1	part of catalytic core of ATP synthase; alpha(3)beta(3)gamma(1)delta(1)epsilon(1); involved in producing ATP from ADP in the presence of the proton motive force across the membrane
YP_001287284.1	Mapped to H37Rv Rv1312
YP_001287285.1	Mapped to H37Rv Rv1313c
YP_001287286.1	Mapped to H37Rv Rv1314c
YP_001287287.1	adds enolpyruvyl to UDP-N-acetylglucosamine as a component of cell wall formation; gram-positive bacteria have 2 copies of MurA which are active
YP_001287288.1	Mapped to H37Rv Rv1316c
YP_001287289.1	Mapped to H37Rv Rv1317c
YP_001287290.1	Mapped to H37Rv Rv1318c
YP_001287291.1	Mapped to H37Rv Rv1319c
YP_001287294.1	Mapped to H37Rv Rv1319c
YP_001287295.1	Mapped to H37Rv Rv1319c
YP_001287296.1	Mapped to H37Rv Rv1320c
YP_001287297.1	Mapped to H37Rv Rv1321
YP_001287298.1	Mapped to H37Rv Rv1322
YP_001287299.1	Mapped to H37Rv Rv1322A
YP_001287300.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation; in Rhizobia and Ralstonia is involved in PHB biosynthesis
YP_001287301.1	Mapped to H37Rv Rv1324
YP_001287302.1	Mapped to H37Rv Rv1325c
YP_001287303.1	catalyzes the transfer of a segment of a 1,4-alpha-D-glucan chain to a primary hydroxy group in a similar glucan chain
YP_001287304.1	Mapped to H37Rv Rv1327c
YP_001287305.1	Mapped to H37Rv Rv1328
YP_001287306.1	Mapped to H37Rv Rv1329c
YP_001287307.1	catalyzes the formation of 5-phospho-alpha-D-ribose 1-diphosphate and nicotinate from nicotinate D-ribonucleotide and diphosphate
YP_001287308.1	involved in the modulation of the specificity of the ClpAP-mediated ATP-dependent protein degradation; binds to the N-terminal domain of the chaperone ClpA
YP_001287309.1	Mapped to H37Rv Rv1332
YP_001287310.1	Mapped to H37Rv Rv1333
YP_001287311.1	Mapped to H37Rv Rv1336
YP_001287312.1	Mapped to H37Rv Rv1337
YP_001287313.1	converts L-glutamate to D-glutamate, a component of peptidoglycan
YP_001287314.1	Mapped to H37Rv Rv1339
YP_001287315.1	RNase PH; tRNA nucleotidyltransferase; forms hexamers in Bacillus subtilis; phosphoroltic 3'-5' exoribonuclease; involved in maturation of tRNA precursors and removes terminal nucleotides near CCA acceptor arms of mature tRNAs
YP_001287316.1	HAM1-like protein; Rec-dependent growth; RgdB; yggV; it is suspected that this protein functions to remove misincorporated bases such as xanthine or hypoxanthine
YP_001287317.1	Mapped to H37Rv Rv1342c
YP_001287318.1	Mapped to H37Rv Rv1343c
YP_001287319.1	carries the fatty acid chain in fatty acid biosynthesis
YP_001287320.1	converts medium- to long-chain aliphatic fatty acids into acyl adenylate; involved in mycobactin synthesis
YP_001287321.1	Mapped to H37Rv Rv1346
YP_001287322.1	Mapped to H37Rv Rv1347c
YP_001287323.1	Mapped to H37Rv Rv1348
YP_001287324.1	Mapped to H37Rv Rv1349
YP_001287325.1	Catalyzes the first of the two reduction steps in the elongation cycle of fatty acid synthesis
YP_001287326.1	Mapped to H37Rv Rv1351
YP_001287327.1	Mapped to H37Rv Rv1352
YP_001287328.1	Mapped to H37Rv Rv1353c
YP_001287329.1	Mapped to H37Rv Rv1354c
YP_001287330.1	Mapped to H37Rv Rv1355c
YP_001287331.1	Mapped to H37Rv Rv1356c
YP_001287332.1	Mapped to H37Rv Rv1357c
YP_001287333.1	Mapped to H37Rv Rv1358
YP_001287334.1	Mapped to H37Rv Rv1358
YP_001287335.1	Mapped to H37Rv Rv1359
YP_001287336.1	Mapped to H37Rv Rv1360
YP_001287337.1	Mapped to H37Rv Rv1361c
YP_001287338.1	Mapped to H37Rv Rv1362c
YP_001287339.1	Mapped to H37Rv Rv1363c
YP_001287340.1	Mapped to H37Rv Rv1364c
YP_001287341.1	Mapped to H37Rv Rv1365c
YP_001287342.1	Mapped to H37Rv Rv1366
YP_001287343.1	Mapped to H37Rv Rv1367c
YP_001287344.1	Mapped to H37Rv Rv1368
YP_001287345.1	Mapped to H37Rv Rv1371
YP_001287346.1	Mapped to H37Rv Rv1372
YP_001287347.1	Mapped to H37Rv Rv1373
YP_001287348.1	Mapped to H37Rv Rv1374c
YP_001287349.1	Mapped to H37Rv Rv1375
YP_001287350.1	Mapped to H37Rv Rv1376
YP_001287351.1	Mapped to H37Rv Rv1377c
YP_001287352.1	Mapped to H37Rv Rv1378c
YP_001287353.1	regulates pyrimidine biosynthesis by binding to the mRNA of the pyr genes, also has been shown to have uracil phosphoribosyltransferase activity
YP_001287354.1	catalyzes the transfer of the carbamoyl moiety from carbamoyl phosphate to L- aspartate in pyrimidine biosynthesis
YP_001287355.1	catalyzes the formation of N-carbamoyl-L-aspartate from (S)-dihydroorotate in pyrimidine biosynthesis
YP_001287356.1	Mapped to H37Rv Rv1382
YP_001287357.1	catalyzes production of carbamoyl phosphate from bicarbonate and glutamine in pyrimidine and arginine biosynthesis pathways; forms an octamer composed of four CarAB dimers
YP_001287358.1	four CarB-CarA dimers form the carbamoyl phosphate synthetase holoenzyme that catalyzes the production of carbamoyl phosphate; CarB is responsible for the amidotransferase activity
YP_001287359.1	type 2 subfamily; involved in last step of pyrimidine biosynthesis; converts orotidine 5'-phosphate to UMP and carbon dioxide; OMP decarboxylase; OMPDCase; OMPdecase
YP_001287360.1	Mapped to H37Rv Rv1386
YP_001287361.1	Mapped to H37Rv Rv1387
YP_001287362.1	Mapped to H37Rv Rv1388
YP_001287363.1	Essential for recycling GMP and indirectly, cGMP
YP_001287364.1	Promotes RNA polymerase assembly. Latches the N- and C-terminal regions of the beta' subunit thereby facilitating its interaction with the beta and alpha subunits
YP_001287365.1	catalyzes the conjugation of cysteine to 4'-phosphopantothenate to form 4-phosphopantothenoylcysteine, which is then decarboxylated to form 4'-phosphopantotheine
YP_001287366.1	catalyzes the formation of S-adenosylmethionine from methionine and ATP; methionine adenosyltransferase
YP_001287367.1	Mapped to H37Rv Rv1393c
YP_001287368.1	Mapped to H37Rv Rv1394c
YP_001287369.1	Mapped to H37Rv Rv1395
YP_001287370.1	Mapped to H37Rv Rv1396c
YP_001287371.1	Mapped to H37Rv Rv1397c
YP_001287372.1	Mapped to H37Rv Rv1398c
YP_001287373.1	Mapped to H37Rv Rv1399c
YP_001287374.1	Mapped to H37Rv Rv1400c
YP_001287375.1	Mapped to H37Rv Rv1401
YP_001287376.1	binding of PriA to forked DNA starts the assembly of the primosome, also possesses 3'-5' helicase activity
YP_001287377.1	Mapped to H37Rv Rv1403c
YP_001287378.1	Mapped to H37Rv Rv1404
YP_001287379.1	Mapped to H37Rv Rv1405c
YP_001287380.1	modifies the free amino group of the aminoacyl moiety of methionyl-tRNA(fMet) which is important in translation initiation; inactivation of this gene in Escherichia coli severely impairs growth
YP_001287381.1	Mapped to H37Rv Rv1407
YP_001287382.1	catalyzes the interconversion of D-ribulose 5-phosphate to xylulose 5-phosphate
YP_001287383.1	Mapped to H37Rv Rv1409
YP_001287384.1	Mapped to H37Rv Rv1410c
YP_001287385.1	Mapped to H37Rv Rv1411c
YP_001287386.1	catalyzes the formation of riboflavin from 6,7-dimethyl-8-(1-D-ribityl)lumazine
YP_001287387.1	Mapped to H37Rv Rv1413
YP_001287388.1	Mapped to H37Rv Rv1414
YP_001287389.1	bifunctional enzyme DHBP synthase/GTP cyclohydrolase II; functions in riboflavin synthesis; converts GTP to 2,5-diamino-6-hydroxy-4-(5-phosphoribosylamino)pyrimidine; converts ribulose 5-phopshate to 3,4-dihydroxy-2-butanone 4-phosphate
YP_001287390.1	RibE; 6,7-diimethyl-8-ribityllumazine synthase; DMRL synthase; lumazine synthase; beta subunit of riboflavin synthase; condenses 5-amino-6-(1'-D)-ribityl-amino-2,4(1H,3H)-pyrimidinedione with L-3,4-dihydrohy-2-butanone-4-phosphate to generate 6,6-dimethyl-8-lumazine (DMRL); riboflavin synthase then uses 2 molecules of DMRL to produce riboflavin (vitamin B12); involved in the last steps of riboflavin biosynthesis; forms a 60mer (icosahedral shell) in both Bacillus subtilis and Escherichia coli; in Bacillus subtilis this 60mer is associated with the riboflavin synthase subunit (alpha) while in Escherichia coli it is not
YP_001287391.1	Mapped to H37Rv Rv1417
YP_001287392.1	Mapped to H37Rv Rv1418
YP_001287393.1	Mapped to H37Rv Rv1419
YP_001287394.1	The UvrABC repair system catalyzes the recognition and processing of DNA lesions. UvrC both incises the 5' and 3' sides of the lesion. The N-terminal half is responsible for the 3' incision and the C-terminal half is responsible for the 5' incision
YP_001287395.1	Mapped to H37Rv Rv1421
YP_001287396.1	Mapped to H37Rv Rv1422
YP_001287397.1	Mapped to H37Rv Rv1423
YP_001287398.1	Mapped to H37Rv Rv1424c
YP_001287399.1	Mapped to H37Rv Rv1425
YP_001287400.1	Mapped to H37Rv Rv1426c
YP_001287401.1	activates fatty acids by binding to coenzyme A
YP_001287402.1	Mapped to H37Rv Rv1428c
YP_001287403.1	Mapped to H37Rv Rv1429
YP_001287404.1	Mapped to H37Rv Rv1430
YP_001287405.1	Mapped to H37Rv Rv1431
YP_001287406.1	Mapped to H37Rv Rv1432
YP_001287407.1	Mapped to H37Rv Rv1433
YP_001287408.1	Mapped to H37Rv Rv1435c
YP_001287409.1	Mapped to H37Rv Rv1436
YP_001287410.1	Converts 3-phospho-D-glycerate to 3-phospho-D-glyceroyl phosphate during the glycolysis pathway
YP_001287411.1	Reversibly isomerizes the ketone sugar dihydroxyacetone phosphate to the aldehyde sugar glyceraldehyde-3-phosphate
YP_001287412.1	Mapped to H37Rv Rv1439c
YP_001287413.1	Mapped to H37Rv Rv1440
YP_001287414.1	Mapped to H37Rv Rv1441c
YP_001287415.1	Mapped to H37Rv Rv1441c
YP_001287416.1	Mapped to H37Rv Rv1441c
YP_001287417.1	Mapped to H37Rv Rv1441c
YP_001287418.1	Mapped to H37Rv Rv1441c
YP_001287419.1	Mapped to H37Rv Rv1441c
YP_001287420.1	catalyzes the formation of D-glucono-1,5-lactone 6-phosphate from D-glucose 6-phosphate
YP_001287421.1	catalyzes the reversible formation of D-erythrose 4-phosphate and D-fructose 6-phosphate from sedoheptulose 7-phosphate and D-glyceraldehyde 3-phosphate
YP_001287422.1	catalyzes the formation of ribose 5-phosphate and xylulose 5-phosphate from sedoheptulose 7-phosphate and glyceraldehyde 3-phosphate; can transfer ketol groups between several groups; in Escherichia coli there are two tkt genes, tktA expressed during exponential growth and the tktB during stationary phase
YP_001287423.1	Mapped to H37Rv Rv1450c
YP_001287424.1	converts protoheme IX and farnesyl diphosphate to heme O
YP_001287425.1	Mapped to H37Rv Rv1452c
YP_001287426.1	Mapped to H37Rv Rv1453
YP_001287427.1	Mapped to H37Rv Rv1454c
YP_001287428.1	Mapped to H37Rv Rv1455
YP_001287429.1	Mapped to H37Rv Rv1456c
YP_001287430.1	Mapped to H37Rv Rv1457c
YP_001287431.1	Mapped to H37Rv Rv1458c
YP_001287432.1	Mapped to H37Rv Rv1459c
YP_001287433.1	Mapped to H37Rv Rv1460
YP_001287434.1	Mapped to H37Rv Rv1461
YP_001287435.1	Mapped to H37Rv Rv1462
YP_001287436.1	Mapped to H37Rv Rv1463
YP_001287437.1	Mapped to H37Rv Rv1464
YP_001287438.1	Mapped to H37Rv Rv1465
YP_001287439.1	Mapped to H37Rv Rv1466
YP_001287440.1	Mapped to H37Rv Rv1467c
YP_001287441.1	Mapped to H37Rv Rv1468c
YP_001287442.1	Mapped to H37Rv Rv1469
YP_001287443.1	Mapped to H37Rv Rv1470
YP_001287444.1	Mapped to H37Rv Rv1471
YP_001287445.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001287446.1	Mapped to H37Rv Rv1473
YP_001287447.1	Mapped to H37Rv Rv1473A
YP_001287448.1	Mapped to H37Rv Rv1474c
YP_001287449.1	Catalyzes the conversion of citrate to isocitrate
YP_001287450.1	Mapped to H37Rv Rv1476
YP_001287451.1	Mapped to H37Rv Rv1477
YP_001287452.1	Mapped to H37Rv Rv1478
YP_001287453.1	Mapped to H37Rv Rv1479
YP_001287454.1	Mapped to H37Rv Rv1480
YP_001287455.1	Mapped to H37Rv Rv1481
YP_001287456.1	Mapped to H37Rv Rv1482c
YP_001287457.1	Mapped to H37Rv Rv1483
YP_001287458.1	Catalyzes a key regulatory step in fatty acid biosynthesis
YP_001287459.1	protoheme ferro-lyase; catalyzes the insertion of a ferrous ion into protoporphyrin IX to form protoheme; involved in protoheme biosynthesis; in some organisms this protein is membrane-associated while in others it is cytosolic
YP_001287460.1	Mapped to H37Rv Rv1486c
YP_001287461.1	Mapped to H37Rv Rv1487
YP_001287462.1	Mapped to H37Rv Rv1488
YP_001287463.1	Mapped to H37Rv Rv1489
YP_001287464.1	Mapped to H37Rv Rv1489A
YP_001287465.1	Mapped to H37Rv Rv1490
YP_001287466.1	Mapped to H37Rv Rv1491c
YP_001287467.1	Mapped to H37Rv Rv1492
YP_001287468.1	MDM; functions in conversion of succinate to propionate
YP_001287469.1	Mapped to H37Rv Rv1494
YP_001287470.1	Mapped to H37Rv Rv1495
YP_001287471.1	functions in transport of arginine/ornithine; inner membrane ATPase that cleaves ATP and phosphorylates two periplasmic proteins that function as two distinct transport systems, the AO (arginine and ornithine) and LAO (lysine, arginine, and ornithine) periplasmic binding proteins
YP_001287472.1	Mapped to H37Rv Rv1497
YP_001287473.1	Mapped to H37Rv Rv1498c
YP_001287474.1	Mapped to H37Rv Rv1498A
YP_001287475.1	Mapped to H37Rv Rv1499
YP_001287476.1	Mapped to H37Rv Rv1500
YP_001287477.1	Mapped to H37Rv Rv1501
YP_001287478.1	Mapped to H37Rv Rv1502
YP_001287479.1	Mapped to H37Rv Rv1503c
YP_001287480.1	Mapped to H37Rv Rv1504c
YP_001287481.1	Mapped to H37Rv Rv1505c
YP_001287482.1	Mapped to H37Rv Rv1506c
YP_001287483.1	Mapped to H37Rv Rv1507c
YP_001287484.1	Mapped to H37Rv Rv1507A
YP_001287485.1	Mapped to H37Rv Rv1508c
YP_001287486.1	Mapped to H37Rv Rv1508A
YP_001287487.1	Mapped to H37Rv Rv1509
YP_001287488.1	Mapped to H37Rv Rv1510
YP_001287490.1	Mapped to H37Rv Rv1511
YP_001287491.1	Mapped to H37Rv Rv1512
YP_001287492.1	Mapped to H37Rv Rv1513
YP_001287493.1	Mapped to H37Rv Rv1514c
YP_001287494.1	Mapped to H37Rv Rv1515c
YP_001287495.1	Mapped to H37Rv Rv1516c
YP_001287496.1	Mapped to H37Rv Rv1517
YP_001287497.1	Mapped to H37Rv Rv1518
YP_001287498.1	Mapped to H37Rv Rv1520
YP_001287499.1	activates fatty acids by binding to coenzyme A
YP_001287500.1	Mapped to H37Rv Rv1522c
YP_001287501.1	Mapped to H37Rv Rv1523
YP_001287502.1	Mapped to H37Rv Rv1524
YP_001287503.1	Mapped to H37Rv Rv1525
YP_001287504.1	Mapped to H37Rv Rv1526c
YP_001287505.1	Mapped to H37Rv Rv1527c
YP_001287506.1	Mapped to H37Rv Rv1528c
YP_001287507.1	activates fatty acids by binding to coenzyme A
YP_001287508.1	Mapped to H37Rv Rv1530
YP_001287509.1	Mapped to H37Rv Rv1531
YP_001287510.1	Mapped to H37Rv Rv1532c
YP_001287511.1	Mapped to H37Rv Rv1533
YP_001287512.1	Mapped to H37Rv Rv1534
YP_001287513.1	Mapped to H37Rv Rv1535
YP_001287514.1	IleRS; catalyzes the formation of isoleucyl-tRNA(Ile) from isoleucine and tRNA(Ile); since isoleucine and other amino acids such as valine are similar, there are additional editing function in this enzyme; one is involved in hydrolysis of activated valine-AMP and the other is involved in deacylation of mischarged Val-tRNA(Ile); there are two active sites, one for aminoacylation and one for editing; class-I aminoacyl-tRNA synthetase family type 2 subfamily; some organisms carry two different copies of this enzyme; in some organisms, the type 2 subfamily is associated with resistance to the antibiotic pseudomonic acid (mupirocin)
YP_001287515.1	involved in translesion DNA polymerization with beta clamp of polymerase III; belongs to Y family of polymerases; does not contain proofreading function
YP_001287516.1	Mapped to H37Rv Rv1538c
YP_001287517.1	lipoprotein signal peptidase; integral membrane protein that removes signal peptides from prolipoproteins during lipoprotein biosynthesis
YP_001287518.1	Mapped to H37Rv Rv1540
YP_001287519.1	Mapped to H37Rv Rv1541c
YP_001287520.1	Mapped to H37Rv Rv1542c
YP_001287521.1	Mapped to H37Rv Rv1543
YP_001287522.1	Mapped to H37Rv Rv1544
YP_001287523.1	Mapped to H37Rv Rv1545
YP_001287524.1	Mapped to H37Rv Rv1546
YP_001287525.1	catalyzes DNA-template-directed extension of the 3'- end of a DNA strand by one nucleotide at a time; main replicative polymerase
YP_001287526.1	Mapped to H37Rv Rv1548c
YP_001287527.1	Mapped to H37Rv Rv1550
YP_001287528.1	PlsB; catalyzes the formation of 1-acyl-sn-glycerol 3-phosphate by transfering the acyl moiety from acyl-CoA
YP_001287529.1	part of four member fumarate reductase enzyme complex FrdABCD which catalyzes the reduction of fumarate to succinate during anaerobic respiration; FrdAB are the catalytic subcomplex consisting of a flavoprotein subunit and an iron-sulfur subunit, respectively; FrdCD are the membrane components which interact with quinone and are involved in electron transfer; the catalytic subunits are similar to succinate dehydrogenase SdhAB
YP_001287530.1	Mapped to H37Rv Rv1553
YP_001287531.1	part of four member fumarate reductase enzyme complex FrdABCD which catalyzes the reduction of fumarate to succinate during anaerobic respiration; FrdCD are the membrane components which interact with quinone and are involved in electron transfer; FrdAB are the catalytic subcomplex consisting of a flavoprotein subunit and an iron-sulfur subunit, respectively; the catalytic subunits are similar to succinate dehydrogenase SdhAB
YP_001287532.1	in conjunction with FrdC acts to anchor the catalytic components of the fumarate reductase to the cytoplasmic membrane
YP_001287533.1	Mapped to H37Rv Rv1556
YP_001287534.1	Mapped to H37Rv Rv1557
YP_001287535.1	Mapped to H37Rv Rv1558
YP_001287536.1	catalyzes the formation of 2-oxobutanoate from L-threonine; biosynthetic
YP_001287537.1	Mapped to H37Rv Rv1560
YP_001287538.1	Mapped to H37Rv Rv1561
YP_001287539.1	Mapped to H37Rv Rv1562c
YP_001287540.1	Mapped to H37Rv Rv1563c
YP_001287541.1	Mapped to H37Rv Rv1564c
YP_001287542.1	Mapped to H37Rv Rv1565c
YP_001287543.1	Mapped to H37Rv Rv1566c
YP_001287544.1	Mapped to H37Rv Rv1567c
YP_001287545.1	catalyzes the formation of S-adenosyl-4-methylthionine-2-oxobutanoate and 7,8-diaminononanoate from S-adenosyl-L-methionine and 8-amino-7-oxononanoate
YP_001287546.1	catalyzes the formation of 8-amino-7-oxononanoate from 6-carboxyhexanoyl-CoA and L-alanine
YP_001287547.1	DTB synthetase; dethiobiotin synthase; involved in production of dethiobiotin from ATP and 7,8-diaminononanoate and carbon dioxide; contains magnesium
YP_001287548.1	Mapped to H37Rv Rv1571
YP_001287549.1	Mapped to H37Rv Rv1587c
YP_001287550.1	Mapped to H37Rv Rv1588c
YP_001287551.1	catalyzes the formation of biotin from dethiobiotin and sulfur 2 S-adenosyl-L-methionine
YP_001287552.1	Mapped to H37Rv Rv1591
YP_001287553.1	Mapped to H37Rv Rv1592c
YP_001287554.1	Mapped to H37Rv Rv1593c
YP_001287555.1	3 different subfamilies; catalyzes the formation of quinolinate from iminoaspartate and dihydroxyacetone phosphate
YP_001287556.1	catalyzes the formation of oxaloacetate from L-aspartate
YP_001287557.1	catalyzes the formation of pyridine-2,3-dicarboxylate and 5-phospho-alpha-D-ribose 1-diphosphate from nictinate D-ribonucleotide
YP_001287558.1	Mapped to H37Rv Rv1597
YP_001287559.1	Mapped to H37Rv Rv1598c
YP_001287560.1	catalyzes the oxidation of L-histidinol to L-histidinaldehyde and then to L-histidine in histidine biosynthesis; functions as a dimer
YP_001287561.1	catalyzes the formation of L-histidinol phosphate from imidazole-acetol phosphate and glutamate in histidine biosynthesis
YP_001287562.1	catalyzes the dehydration of D-erythro-1-(imidazol-4-yl)glycerol 3-phosphate to 3-(imidazol-4-yl)-2-oxopropyl phosphate in histidine biosynthesis
YP_001287563.1	with HisF IGPS catalyzes the conversion of phosphoribulosyl-formimino-5-aminoimidazole-4-carboxamide ribonucleotide phosphate and glutamine to imidazole-glycerol phosphate, 5-aminoimidazol-4-carboxamide ribonucleotide, and glutamate in histidine biosynthesis; the HisH subunit provides the glutamine amidotransferase activity that produces the ammonia necessary to HisF for the synthesis of imidazole-glycerol phosphate and 5-aminoimidazol-4-carboxamide ribonucleotide
YP_001287564.1	catalyzes the formation of 5-(5-phospho-1-deoxyribulos-1-ylamino)methylideneamino-l- (5-phosphoribosyl)imidazole-4-carboxamide from 1-(5-phosphoribosyl)-5-[(5- phosphoribosylamino)methylideneamino] imidazole-4-carboxamide and the formation of 1-(2-carboxyphenylamino)-1-deoxy-D-ribulose 5-phosphate from N-(5-phospho-beta-D-ribosyl)anthranilate; involved in histidine and tryptophan biosynthesis
YP_001287565.1	Mapped to H37Rv Rv1604
YP_001287566.1	catalyzes the conversion of 5-[(5-phospho-1-deoxyribulos-1-ylamino)methylideneamino]- 1-(5-phosphoribosyl)imidazole-4-carboxamideand glutamine to imidazole-glycerol phosphate, 5-aminoimidazol-4-carboxamideribonucleotide and glutamate; the HisF subunit acts as a cyclase
YP_001287567.1	PR-AMP cyclohydrolase; functions in histidine biosynthesis from PRPP; converts 1-(5-phosphoribosyl)-AMP to 1-(5-phosphoribosyl)-5-[(5- phosphoribosylamino)methylideneamino]imidazole-4- carboxyamide during the histidine biosynthesis pathway; binds zinc and magnesium; forms homodimers
YP_001287568.1	Mapped to H37Rv Rv1607
YP_001287569.1	Mapped to H37Rv Rv1608c
YP_001287570.1	with component II, the glutamine amidotransferase, catalyzes the formation of anthranilate from chorismate and glutamine
YP_001287571.1	Mapped to H37Rv Rv1610
YP_001287572.1	involved in tryptophan biosynthesis; amino acid biosynthesis; converts 1-(2-carboxyphenylamino)-1-deoxy-D-ribulose 5-phosphate to C(1)-(3-indolyl)-glycerol 3-phosphate and carbon dioxide and water
YP_001287573.1	catalyzes the formation of L-tryptophan from L-serine and 1-(indol-3-yl)glycerol 3-phosphate
YP_001287574.1	catalyzes the formation of indole and glyceraldehyde 3-phosphate from indoleglycerol phosphate in tryptophan biosynthesis
YP_001287575.1	transfers the N-acyl diglyceride moiety to the prospective N-terminal cysteine in prolipoprotein
YP_001287576.1	Mapped to H37Rv Rv1615
YP_001287577.1	Mapped to H37Rv Rv1616
YP_001287578.1	catalyzes the formation of phosphoenolpyruvate from pyruvate
YP_001287579.1	Mapped to H37Rv Rv1618
YP_001287580.1	Mapped to H37Rv Rv1619
YP_001287581.1	Mapped to H37Rv Rv1620c
YP_001287582.1	Mapped to H37Rv Rv1621c
YP_001287583.1	Mapped to H37Rv Rv1622c
YP_001287584.1	Mapped to H37Rv Rv1623c
YP_001287585.1	Mapped to H37Rv Rv1624c
YP_001287586.1	Mapped to H37Rv Rv1625c
YP_001287587.1	Mapped to H37Rv Rv1626
YP_001287588.1	Mapped to H37Rv Rv1627c
YP_001287589.1	Mapped to H37Rv Rv1628c
YP_001287590.1	has 3'-5' exonuclease, 5'-3' exonuclease and 5'-3'polymerase activities, primarily functions to fill gaps during DNA replication and repair
YP_001287591.1	in Escherichia coli this protein is involved in binding to the leader sequence of mRNAs and is itself bound to the 30S subunit; autoregulates expression via a C-terminal domain; in most gram negative organisms this protein is composed of 6 repeats of the S1 domain while in gram positive there are 4 repeats; the S1 nucleic acid-binding domain is found associated with other proteins
YP_001287592.1	catalyzes the phosphorylation of the 3'-hydroxyl group of dephosphocoenzyme A to form coenzyme A; involved in coenzyme A biosynthesis; in Mycobacterium tuberculosis the C-terminal UPF0157 domain appears to be necessary for proper folding of the N-terminal domain
YP_001287593.1	Mapped to H37Rv Rv1632c
YP_001287594.1	The UvrABC repair system catalyzes the recognition and processing of DNA lesions. The beta-hairpin of the Uvr-B subunit is inserted between the strands, where it probes for the presence of a lesion
YP_001287595.1	Mapped to H37Rv Rv1634
YP_001287596.1	Mapped to H37Rv Rv1635c
YP_001287597.1	Mapped to H37Rv Rv1636
YP_001287598.1	Mapped to H37Rv Rv1637c
YP_001287599.1	The UvrABC repair system catalyzes the recognition and processing of DNA lesions. UvrA is an ATPase and a DNA-binding protein. A damage recognition complex composed of 2 uvrA and 2 uvrB subunits scans DNA for abnormalities. When the presence of a lesion has been verified by uvrB, the uvrA molecules dissociate
YP_001287600.1	Mapped to H37Rv Rv1638A
YP_001287601.1	Mapped to H37Rv Rv1639c
YP_001287602.1	catalyzes a two-step reaction, first charging a lysine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA
YP_001287603.1	IF-3 has several functions that are required and promote translation initiation including; preventing association of 70S by binding to 30S; monitoring codon-anticodon interactions by promoting disassociation of fMet-tRNA(fMet) from initiation complexes formed on leaderless mRNAs or incorrectly bound noninitiatior tRNAs and complexes with noncanonical start sites; stimulates codon-anticodon interactions at P-site; involved in moving mRNA to the P-site; and in recycling subunits
YP_001287604.1	Mapped to H37Rv Rv1642
YP_001287605.1	binds directly to 23S ribosomal RNA prior to in vitro assembly of the 50S ribosomal subunit
YP_001287606.1	Mapped to H37Rv Rv1644
YP_001287607.1	Mapped to H37Rv Rv1645c
YP_001287608.1	Mapped to H37Rv Rv1646
YP_001287609.1	Mapped to H37Rv Rv1647
YP_001287610.1	Mapped to H37Rv Rv1648
YP_001287611.1	catalyzes a two-step reaction, first charging a phenylalanine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; forms a heterotetramer of alpha(2)beta(2); binds two magnesium ions per tetramer; type 1 subfamily
YP_001287612.1	catalyzes a two-step reaction, first charging a phenylalanine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; forms a tetramer of alpha(2)beta(2); binds two magnesium ions per tetramer; type 2 subfamily
YP_001287613.1	Mapped to H37Rv Rv1651c
YP_001287614.1	Mapped to H37Rv Rv1651c
YP_001287615.1	catalyzes the reduction of N-acetyl-5-glutamyl phosphate to N-acetyl-L-glutamate 5-semialdehyde in arginine biosynthesis and the reduction of N-acetyl-gamma-aminoadipyl-phosphate to N-acetyl-L-aminoadipate-semialdehyde in lysine biosynthesis; involved in both the arginine and lysine biosynthetic pathways; lysine is produced via the AAA pathway, lysine from alpha-aminoadipate
YP_001287616.1	bifunctional arginine biosynthesis protein ArgJ; functions at the 1st and 5th steps in arginine biosynthesis; involved in synthesis of acetylglutamate from glutamate and acetyl-CoA and ornithine by transacetylation between acetylornithine and glutmate
YP_001287617.1	catalyzes the phosphorylation of N-acetyl-L-glutamate to form N-acetyl-L-glutamate 5-phosphate
YP_001287618.1	catalyzes the formation of N-acetyl-l-glutamate 5-semialdehyde from 2-oxoglutarate and N(2)-acetyl-L-ornithine
YP_001287619.1	catalyzes the formation of L-citrulline from carbamoyl phosphate and L-ornithine in arginine biosynthesis and degradation
YP_001287620.1	regulates arginine biosynthesis when complexed with arginine by binding at site that overlap the promotors of the arginine biosynthesis genes
YP_001287621.1	catalyzes the formation of 2-N(omega)-(L-arginino)succinate from L-citrulline and L-aspartate in arginine biosynthesis, AMP-forming
YP_001287622.1	catalyzes the formation of arginine from (N-L-arginino)succinate
YP_001287623.1	Mapped to H37Rv Rv1660
YP_001287624.1	Mapped to H37Rv Rv1661
YP_001287625.1	Mapped to H37Rv Rv1662
YP_001287626.1	Mapped to H37Rv Rv1663
YP_001287627.1	Mapped to H37Rv Rv1664
YP_001287628.1	Mapped to H37Rv Rv1665
YP_001287629.1	Mapped to H37Rv Rv1666c
YP_001287630.1	Mapped to H37Rv Rv1666c
YP_001287631.1	Mapped to H37Rv Rv1669
YP_001287632.1	Mapped to H37Rv Rv1670
YP_001287633.1	Mapped to H37Rv Rv1671
YP_001287634.1	Mapped to H37Rv Rv1672c
YP_001287635.1	Mapped to H37Rv Rv1673c
YP_001287636.1	Mapped to H37Rv Rv1674c
YP_001287637.1	Mapped to H37Rv Rv1675c
YP_001287638.1	Mapped to H37Rv Rv1676
YP_001287639.1	Mapped to H37Rv Rv1677
YP_001287640.1	Mapped to H37Rv Rv1678
YP_001287641.1	Mapped to H37Rv Rv1679
YP_001287642.1	Mapped to H37Rv Rv1680
YP_001287643.1	Mapped to H37Rv Rv1681
YP_001287644.1	Mapped to H37Rv Rv1682
YP_001287645.1	activates fatty acids by binding to coenzyme A
YP_001287646.1	Mapped to H37Rv Rv1685c
YP_001287647.1	Mapped to H37Rv Rv1686c
YP_001287648.1	Mapped to H37Rv Rv1687c
YP_001287649.1	responsible for recognizing base lesions in the genome and initiating base excision DNA repair
YP_001287650.1	catalyzes the formation of tyrosyl-tRNA(Tyr) from tyrosine and tRNA(Tyr)
YP_001287651.1	Mapped to H37Rv Rv1690
YP_001287652.1	Mapped to H37Rv Rv1691
YP_001287653.1	Mapped to H37Rv Rv1692
YP_001287654.1	Mapped to H37Rv Rv1694
YP_001287655.1	catalyzes the phosphorylation of NAD to NADP
YP_001287656.1	Mapped to H37Rv Rv1696
YP_001287657.1	Mapped to H37Rv Rv1697
YP_001287658.1	Mapped to H37Rv Rv1698
YP_001287659.1	CTP synthase; cytidine triphosphate synthetase; catalyzes the ATP-dependent amination of UTP to CTP with either L-glutamine or ammonia as the source of nitrogen; in Escherichia coli this enzyme forms a homotetramer
YP_001287660.1	Mapped to H37Rv Rv1700
YP_001287661.1	site-specific tyrosine recombinase which cuts and rejoins DNA molecules; binds cooperatively to specific DNA consensus sites; forms a heterotetrameric complex with XerC; XerCD exhibit similar sequences; essential to convert chromosome dimers to monomers during cell division and functions during plasmid segregation; XerD specifically exchanges the bottom strands; cell division protein FtsK may regulate the XerCD complex; enzyme from Streptococcus group has unusual active site motifs
YP_001287662.1	Mapped to H37Rv Rv1702c
YP_001287663.1	Mapped to H37Rv Rv1703c
YP_001287664.1	Mapped to H37Rv Rv1704c
YP_001287665.1	Mapped to H37Rv Rv1705c
YP_001287666.1	Mapped to H37Rv Rv1706c
YP_001287667.1	Mapped to H37Rv Rv1707
YP_001287668.1	Mapped to H37Rv Rv1708
YP_001287669.1	Mapped to H37Rv Rv1709
YP_001287670.1	Mapped to H37Rv Rv1710
YP_001287671.1	Mapped to H37Rv Rv1711
YP_001287672.1	Catalyzes the formation of (d)CDP from ATP and (d)CMP
YP_001287673.1	synchronizes cellular events by interacting with multiple targets with tandem G-domains; overexpression in Escherichia coli suppresses rrmJ mutation; structural analysis of the Thermotoga maritima ortholog shows different nucleotide binding affinities in the two binding domains
YP_001287674.1	Mapped to H37Rv Rv1714
YP_001287675.1	Mapped to H37Rv Rv1715
YP_001287676.1	Mapped to H37Rv Rv1716
YP_001287677.1	Mapped to H37Rv Rv1717
YP_001287678.1	Mapped to H37Rv Rv1718
YP_001287679.1	Mapped to H37Rv Rv1719
YP_001287680.1	Mapped to H37Rv Rv1720c
YP_001287681.1	an AccC homodimer forms the biotin carboxylase subunit of the acetyl CoA carboxylase, an enzyme that catalyzes the formation of malonyl-CoA, which in turn controls the rate of fatty acid metabolism
YP_001287682.1	Mapped to H37Rv Rv1723
YP_001287685.1	Mapped to H37Rv Rv1725c
YP_001287686.1	Mapped to H37Rv Rv1726
YP_001287687.1	Mapped to H37Rv Rv1727
YP_001287688.1	Mapped to H37Rv Rv1728c
YP_001287689.1	Mapped to H37Rv Rv1729c
YP_001287690.1	Mapped to H37Rv Rv1730c
YP_001287691.1	NADP-dependent semialdehyde dehydrogenase; part of alternative pathway from alpha-ketoglutarate to succinate
YP_001287692.1	Mapped to H37Rv Rv1732c
YP_001287693.1	Mapped to H37Rv Rv1733c
YP_001287694.1	Mapped to H37Rv Rv1734c
YP_001287695.1	Mapped to H37Rv Rv1735c
YP_001287696.1	Mapped to H37Rv Rv1735c
YP_001287697.1	Mapped to H37Rv Rv1736c
YP_001287698.1	Mapped to H37Rv Rv1737c
YP_001287699.1	Mapped to H37Rv Rv1738
YP_001287700.1	Mapped to H37Rv Rv1739c
YP_001287701.1	Mapped to H37Rv Rv1740
YP_001287702.1	Mapped to H37Rv Rv1741
YP_001287703.1	Mapped to H37Rv Rv1742
YP_001287704.1	Mapped to H37Rv Rv1743
YP_001287705.1	Mapped to H37Rv Rv1744c
YP_001287706.1	catalyzes the rearrangement of isopentenyl diphosphate to dimethylallyl phosphate
YP_001287707.1	Mapped to H37Rv Rv1746
YP_001287708.1	Mapped to H37Rv Rv1747
YP_001287709.1	Mapped to H37Rv Rv1748
YP_001287710.1	Mapped to H37Rv Rv1749c
YP_001287711.1	activates fatty acids by binding to coenzyme A
YP_001287712.1	Mapped to H37Rv Rv1751
YP_001287713.1	Mapped to H37Rv Rv1752
YP_001287714.1	Mapped to H37Rv Rv1753c
YP_001287715.1	Mapped to H37Rv Rv1754c
YP_001287716.1	Mapped to H37Rv Rv1756c
YP_001287717.1	Mapped to H37Rv Rv1757c
YP_001287718.1	Mapped to H37Rv Rv1757c
YP_001287719.1	Mapped to H37Rv Rv1757c
YP_001287720.1	Mapped to H37Rv Rv1758
YP_001287721.1	Mapped to H37Rv Rv1758
YP_001287724.1	Mapped to H37Rv Rv1759c
YP_001287726.1	Mapped to H37Rv Rv1759c
YP_001287727.1	Mapped to H37Rv Rv1760
YP_001287728.1	Mapped to H37Rv Rv1761c
YP_001287729.1	Mapped to H37Rv Rv1762c
YP_001287730.1	Mapped to H37Rv Rv1762c
YP_001287731.1	Mapped to H37Rv Rv1762c
YP_001287732.1	Mapped to H37Rv Rv1763
YP_001287733.1	Mapped to H37Rv Rv1764
YP_001287734.1	Mapped to H37Rv Rv1765A
YP_001287735.1	Mapped to H37Rv Rv1766
YP_001287736.1	Mapped to H37Rv Rv1767
YP_001287737.1	Mapped to H37Rv Rv1768
YP_001287738.1	Mapped to H37Rv Rv1769
YP_001287739.1	Mapped to H37Rv Rv1770
YP_001287740.1	Mapped to H37Rv Rv1771
YP_001287741.1	Mapped to H37Rv Rv1772
YP_001287742.1	Mapped to H37Rv Rv1773c
YP_001287743.1	Mapped to H37Rv Rv1774
YP_001287744.1	Mapped to H37Rv Rv1775
YP_001287745.1	Mapped to H37Rv Rv1776c
YP_001287748.1	Mapped to H37Rv Rv1778c
YP_001287749.1	Mapped to H37Rv Rv1779c
YP_001287750.1	Mapped to H37Rv Rv1780
YP_001287751.1	Mapped to H37Rv Rv1781c
YP_001287752.1	Mapped to H37Rv Rv1782
YP_001287753.1	Mapped to H37Rv Rv1782
YP_001287754.1	Mapped to H37Rv Rv1785c
YP_001287755.1	Mapped to H37Rv Rv1786
YP_001287756.1	Mapped to H37Rv Rv1787
YP_001287757.1	Mapped to H37Rv Rv1788
YP_001287758.1	Mapped to H37Rv Rv1789
YP_001287759.1	Mapped to H37Rv Rv1790
YP_001287760.1	Mapped to H37Rv Rv1791
YP_001287761.1	Mapped to H37Rv Rv1793
YP_001287762.1	Mapped to H37Rv Rv1794
YP_001287763.1	Mapped to H37Rv Rv1795
YP_001287764.1	Mapped to H37Rv Rv1796
YP_001287765.1	Mapped to H37Rv Rv1797
YP_001287766.1	Mapped to H37Rv Rv1798
YP_001287767.1	Mapped to H37Rv Rv1799
YP_001287768.1	Mapped to H37Rv Rv1800
YP_001287769.1	Mapped to H37Rv Rv1801
YP_001287770.1	Mapped to H37Rv Rv1802
YP_001287771.1	Mapped to H37Rv Rv1803c
YP_001287772.1	Mapped to H37Rv Rv1804c
YP_001287773.1	Mapped to H37Rv Rv1806
YP_001287774.1	Mapped to H37Rv Rv1807
YP_001287775.1	Mapped to H37Rv Rv1808
YP_001287776.1	Mapped to H37Rv Rv1809
YP_001287777.1	Mapped to H37Rv Rv1810
YP_001287778.1	Mapped to H37Rv Rv1811
YP_001287779.1	Mapped to H37Rv Rv1812c
YP_001287780.1	Mapped to H37Rv Rv1813c
YP_001287781.1	Mapped to H37Rv Rv1814
YP_001287782.1	Mapped to H37Rv Rv1815
YP_001287783.1	Mapped to H37Rv Rv1816
YP_001287784.1	Mapped to H37Rv Rv1817
YP_001287785.1	Mapped to H37Rv Rv1818c
YP_001287786.1	Mapped to H37Rv Rv1819c
YP_001287787.1	Mapped to H37Rv Rv1820
YP_001287788.1	SecA2; functions in protein export; can interact with acidic membrane phospholipids and the SecYEG protein complex; binds to preproteins; binds to ATP and undergoes a conformational change to promote membrane insertion of SecA/bound preprotein; ATP hydrolysis appears to drive release of the preprotein from SecA and deinsertion of SecA from the membrane; additional proteins SecD/F/YajC aid SecA recycling; exists in an equilibrium between monomers and dimers; may possibly form higher order oligomers; proteins in this cluster correspond to SecA2; which is non-essential and seems to play a role in secretion of a subset of proteins
YP_001287789.1	Mapped to H37Rv Rv1822
YP_001287790.1	Mapped to H37Rv Rv1823
YP_001287791.1	Mapped to H37Rv Rv1824
YP_001287792.1	Mapped to H37Rv Rv1825
YP_001287793.1	part of multienzyme complex composed of H, L, P, and T proteins which catalyzes oxidation of glycine to yield carbon dioxide, ammonia, 5,10-CH2-H4folate and a reduced pyridine nucleotide; protein H is involved in transfer of methylamine group from the P to T protein; covalently bound to a lipoyl cofactor
YP_001287794.1	Mapped to H37Rv Rv1827
YP_001287795.1	Mapped to H37Rv Rv1828
YP_001287796.1	Mapped to H37Rv Rv1829
YP_001287797.1	Mapped to H37Rv Rv1830
YP_001287798.1	acts in conjunction with GvcH to form H-protein-S-aminomethyldihydrolipoyllysine from glycine
YP_001287799.1	Mapped to H37Rv Rv1833c
YP_001287800.1	Mapped to H37Rv Rv1834
YP_001287801.1	Mapped to H37Rv Rv1835c
YP_001287802.1	Mapped to H37Rv Rv1836c
YP_001287803.1	catalyzes the formation of malate from glyoxylate and acetyl-CoA
YP_001287804.1	Mapped to H37Rv Rv1838c
YP_001287805.1	Mapped to H37Rv Rv1840c
YP_001287806.1	Mapped to H37Rv Rv1841c
YP_001287807.1	Mapped to H37Rv Rv1842c
YP_001287808.1	catalyzes the synthesis of xanthosine monophosphate by the NAD+ dependent oxidation of inosine monophosphate
YP_001287809.1	catalyzes the formation of D-ribulose 5-phosphate from 6-phospho-D-gluconate
YP_001287810.1	Mapped to H37Rv Rv1845c
YP_001287811.1	Mapped to H37Rv Rv1846c
YP_001287812.1	Mapped to H37Rv Rv1847
YP_001287813.1	UreA, with UreB and UreC catalyzes the hydrolysis of urea into ammonia and carbon dioxide; nickel metalloenzyme; accessory proteins UreD, UreE, UreF, and UreG are necessary for assembly of the metallocenter
YP_001287814.1	ureases catalyze the hydrolysis of urea into ammonia and carbon dioxide; in Helicobacter pylori and Yersinia enterocolitica the ammonia released plays a key role in bacterial survival by neutralizing acids when colonizing the gastric mucosa; the holoenzyme is composed of 3 UreC (alpha) and 3 UreAB (gamma/beta)
YP_001287815.1	ureases catalyze the hydrolysis of urea into ammonia and carbon dioxide; in Helicobacter pylori the ammonia released plays a key role in bacterial survival by neutralizing acids when colonizing the gastric mucosa; the holoenzyme is composed of 3 ureC (alpha) and 3 ureAB (gamma/beta) subunits
YP_001287816.1	Mapped to H37Rv Rv1851
YP_001287817.1	Mapped to H37Rv Rv1852
YP_001287818.1	Mapped to H37Rv Rv1853
YP_001287819.1	Mapped to H37Rv Rv1854c
YP_001287820.1	Mapped to H37Rv Rv1855c
YP_001287821.1	Mapped to H37Rv Rv1856c
YP_001287822.1	Mapped to H37Rv Rv1857
YP_001287823.1	Mapped to H37Rv Rv1858
YP_001287824.1	Mapped to H37Rv Rv1859
YP_001287825.1	Mapped to H37Rv Rv1860
YP_001287826.1	Mapped to H37Rv Rv1861
YP_001287827.1	Mapped to H37Rv Rv1862
YP_001287828.1	Mapped to H37Rv Rv1863c
YP_001287829.1	Mapped to H37Rv Rv1864c
YP_001287830.1	Mapped to H37Rv Rv1865c
YP_001287831.1	Mapped to H37Rv Rv1866
YP_001287832.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001287833.1	Mapped to H37Rv Rv1868
YP_001287834.1	Mapped to H37Rv Rv1869c
YP_001287835.1	Mapped to H37Rv Rv1870c
YP_001287836.1	Mapped to H37Rv Rv1871c
YP_001287837.1	Mapped to H37Rv Rv1872c
YP_001287838.1	Mapped to H37Rv Rv1873
YP_001287839.1	Mapped to H37Rv Rv1874
YP_001287840.1	Mapped to H37Rv Rv1875
YP_001287841.1	Mapped to H37Rv Rv1876
YP_001287842.1	Mapped to H37Rv Rv1877
YP_001287843.1	Mapped to H37Rv Rv1878
YP_001287844.1	Mapped to H37Rv Rv1879
YP_001287845.1	Mapped to H37Rv Rv1880c
YP_001287846.1	Mapped to H37Rv Rv1881c
YP_001287847.1	Mapped to H37Rv Rv1882c
YP_001287848.1	Mapped to H37Rv Rv1883c
YP_001287849.1	Mapped to H37Rv Rv1884c
YP_001287850.1	catalyzes the interconversion of chorismate to prephenate
YP_001287851.1	Mapped to H37Rv Rv1886c
YP_001287852.1	Mapped to H37Rv Rv1887
YP_001287853.1	Mapped to H37Rv Rv1888c
YP_001287854.1	Mapped to H37Rv Rv1889c
YP_001287855.1	Mapped to H37Rv Rv1890c
YP_001287856.1	Mapped to H37Rv Rv1891
YP_001287857.1	Mapped to H37Rv Rv1892
YP_001287858.1	Mapped to H37Rv Rv1893
YP_001287859.1	Mapped to H37Rv Rv1894c
YP_001287861.1	Mapped to H37Rv Rv1895
YP_001287862.1	Mapped to H37Rv Rv1896c
YP_001287863.1	hydrolyzes D-tyrosyl-tRNA(Tyr) into D-tyrosine and free tRNA(Tyr); possible defense mechanism against a harmful effect of D-tyrosine
YP_001287864.1	Mapped to H37Rv Rv1898
YP_001287865.1	Mapped to H37Rv Rv1899c
YP_001287866.1	Mapped to H37Rv Rv1900c
YP_001287867.1	Mapped to H37Rv Rv1901
YP_001287868.1	Mapped to H37Rv Rv1902c
YP_001287869.1	Mapped to H37Rv Rv1903
YP_001287870.1	Mapped to H37Rv Rv1904
YP_001287871.1	Mapped to H37Rv Rv1905c
YP_001287872.1	Mapped to H37Rv Rv1906c
YP_001287873.1	Mapped to H37Rv Rv1907c
YP_001287874.1	Mapped to H37Rv Rv1908c
YP_001287875.1	Mapped to H37Rv Rv1909c
YP_001287876.1	Mapped to H37Rv Rv1910c
YP_001287877.1	Mapped to H37Rv Rv1911c
YP_001287878.1	Mapped to H37Rv Rv1912c
YP_001287879.1	Mapped to H37Rv Rv1913
YP_001287880.1	Mapped to H37Rv Rv1914c
YP_001287881.1	Mapped to H37Rv Rv1915
YP_001287882.1	Mapped to H37Rv Rv1916
YP_001287883.1	Mapped to H37Rv Rv1917c
YP_001287884.1	Mapped to H37Rv Rv1918c
YP_001287885.1	Mapped to H37Rv Rv1919c
YP_001287886.1	Mapped to H37Rv Rv1920
YP_001287887.1	Mapped to H37Rv Rv1921c
YP_001287888.1	Mapped to H37Rv Rv1922
YP_001287889.1	Mapped to H37Rv Rv1923
YP_001287890.1	Mapped to H37Rv Rv1924c
YP_001287891.1	activates fatty acids by binding to coenzyme A
YP_001287892.1	Mapped to H37Rv Rv1926c
YP_001287893.1	Mapped to H37Rv Rv1927
YP_001287894.1	Mapped to H37Rv Rv1928c
YP_001287895.1	Mapped to H37Rv Rv1929c
YP_001287896.1	Mapped to H37Rv Rv1930c
YP_001287897.1	Mapped to H37Rv Rv1931c
YP_001287898.1	antioxidant activity; thioredoxin-dependent thiol peroxidase; forms homodimers in solution; shows substrate specificity to alkyl hydroperoxides; periplasmic protein
YP_001287899.1	Mapped to H37Rv Rv1933c
YP_001287900.1	Mapped to H37Rv Rv1934c
YP_001287901.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001287902.1	Mapped to H37Rv Rv1936
YP_001287903.1	Mapped to H37Rv Rv1937
YP_001287904.1	Mapped to H37Rv Rv1938
YP_001287905.1	Mapped to H37Rv Rv1939
YP_001287906.1	Mapped to H37Rv Rv1940
YP_001287907.1	Mapped to H37Rv Rv1941
YP_001287908.1	Mapped to H37Rv Rv1942c
YP_001287909.1	Mapped to H37Rv Rv1943c
YP_001287910.1	Mapped to H37Rv Rv1944c
YP_001287911.1	Mapped to H37Rv Rv1945
YP_001287912.1	Mapped to H37Rv Rv1946c
YP_001287913.1	Mapped to H37Rv Rv1947
YP_001287914.1	Mapped to H37Rv Rv1948c
YP_001287915.1	Mapped to H37Rv Rv1949c
YP_001287916.1	Mapped to H37Rv Rv1950c
YP_001287917.1	Mapped to H37Rv Rv1951c
YP_001287918.1	Mapped to H37Rv Rv1952
YP_001287919.1	Mapped to H37Rv Rv1953
YP_001287920.1	Mapped to H37Rv Rv1955
YP_001287921.1	Mapped to H37Rv Rv1956
YP_001287922.1	Mapped to H37Rv Rv1957
YP_001287923.1	Mapped to H37Rv Rv1958c
YP_001287924.1	Mapped to H37Rv Rv1959c
YP_001287925.1	Mapped to H37Rv Rv1960c
YP_001287926.1	Mapped to H37Rv Rv1961
YP_001287927.1	Mapped to H37Rv Rv1962c
YP_001287928.1	Mapped to H37Rv Rv1962c
YP_001287929.1	Mapped to H37Rv Rv1963c
YP_001287931.1	Mapped to H37Rv Rv1964
YP_001287932.1	Mapped to H37Rv Rv1964
YP_001287933.1	Mapped to H37Rv Rv1965
YP_001287934.1	Mapped to H37Rv Rv1966
YP_001287935.1	Mapped to H37Rv Rv1967
YP_001287936.1	Mapped to H37Rv Rv1968
YP_001287937.1	Mapped to H37Rv Rv1969
YP_001287938.1	Mapped to H37Rv Rv1970
YP_001287939.1	Mapped to H37Rv Rv1971
YP_001287940.1	Mapped to H37Rv Rv1972
YP_001287941.1	Mapped to H37Rv Rv1973
YP_001287942.1	Mapped to H37Rv Rv1974
YP_001287943.1	Mapped to H37Rv Rv1975
YP_001287944.1	Mapped to H37Rv Rv1976c
YP_001287945.1	Mapped to H37Rv Rv1977
YP_001287946.1	Mapped to H37Rv Rv1978
YP_001287947.1	Mapped to H37Rv Rv1979c
YP_001287948.1	Mapped to H37Rv Rv1980c
YP_001287949.1	B2 or R2 protein; type 1b enzyme; catalyzes the rate-limiting step in dNTP synthesis; converts nucleotides to deoxynucleotides; forms a homodimer and then a multimeric complex with NrdE
YP_001287950.1	Mapped to H37Rv Rv1982c
YP_001287951.1	Mapped to H37Rv Rv1983
YP_001287952.1	Mapped to H37Rv Rv1984c
YP_001287953.1	specific inhibitor of chromosomal initiation of replication in vitro; binds the three 13-mers in the origin (oriC) to block initiation of replication; also controls genes involved in arginine transport
YP_001287954.1	Mapped to H37Rv Rv1986
YP_001287955.1	Mapped to H37Rv Rv1987
YP_001287956.1	Mapped to H37Rv Rv1988
YP_001287957.1	Mapped to H37Rv Rv1989c
YP_001287958.1	Mapped to H37Rv Rv1990c
YP_001287959.1	Mapped to H37Rv Rv1990A
YP_001287960.1	Mapped to H37Rv Rv1991c
YP_001287961.1	Mapped to H37Rv Rv1992c
YP_001287962.1	Mapped to H37Rv Rv1993c
YP_001287963.1	Mapped to H37Rv Rv1994c
YP_001287964.1	Mapped to H37Rv Rv1995
YP_001287965.1	Mapped to H37Rv Rv1996
YP_001287966.1	Mapped to H37Rv Rv1997
YP_001287967.1	Mapped to H37Rv Rv1998c
YP_001287968.1	Mapped to H37Rv Rv1999c
YP_001287969.1	Mapped to H37Rv Rv2000
YP_001287970.1	Mapped to H37Rv Rv2001
YP_001287971.1	Mapped to H37Rv Rv2002
YP_001287972.1	Mapped to H37Rv Rv2003c
YP_001287973.1	Mapped to H37Rv Rv2004c
YP_001287974.1	Mapped to H37Rv Rv2005c
YP_001287975.1	Mapped to H37Rv Rv2006
YP_001287976.1	Mapped to H37Rv Rv2007c
YP_001287977.1	Mapped to H37Rv Rv2008c
YP_001287978.1	Mapped to H37Rv Rv2009
YP_001287979.1	Mapped to H37Rv Rv2010
YP_001287980.1	Mapped to H37Rv Rv2011c
YP_001287981.1	Mapped to H37Rv Rv2012
YP_001287982.1	Mapped to H37Rv Rv2013
YP_001287983.1	Mapped to H37Rv Rv2014
YP_001287986.1	Mapped to H37Rv Rv2016
YP_001287987.1	Mapped to H37Rv Rv2017
YP_001287988.1	Mapped to H37Rv Rv2018
YP_001287989.1	Mapped to H37Rv Rv2019
YP_001287995.1	Mapped to H37Rv Rv2025c
YP_001287996.1	Mapped to H37Rv Rv2026c
YP_001287997.1	Mapped to H37Rv Rv2027c
YP_001287998.1	Mapped to H37Rv Rv2028c
YP_001287999.1	Mapped to H37Rv Rv2029c
YP_001288000.1	Mapped to H37Rv Rv2030c
YP_001288001.1	Mapped to H37Rv Rv2031c
YP_001288002.1	Mapped to H37Rv Rv2032
YP_001288003.1	Mapped to H37Rv Rv2033c
YP_001288004.1	Mapped to H37Rv Rv2034
YP_001288005.1	Mapped to H37Rv Rv2035
YP_001288006.1	Mapped to H37Rv Rv2036
YP_001288007.1	Mapped to H37Rv Rv2037c
YP_001288008.1	Mapped to H37Rv Rv2038c
YP_001288009.1	Mapped to H37Rv Rv2039c
YP_001288010.1	Mapped to H37Rv Rv2040c
YP_001288011.1	Mapped to H37Rv Rv2041c
YP_001288012.1	Mapped to H37Rv Rv2042c
YP_001288013.1	Mapped to H37Rv Rv2043c
YP_001288014.1	Mapped to H37Rv Rv2044c
YP_001288015.1	Mapped to H37Rv Rv2045c
YP_001288016.1	Mapped to H37Rv Rv2046
YP_001288017.1	Mapped to H37Rv Rv2047c
YP_001288018.1	Mapped to H37Rv Rv2048c
YP_001288019.1	Mapped to H37Rv Rv2049c
YP_001288020.1	Mapped to H37Rv Rv2050
YP_001288021.1	Mapped to H37Rv Rv2051c
YP_001288022.1	Mapped to H37Rv Rv2052c
YP_001288023.1	F exclusion of bacteriophage T7; overproduction of this protein in Escherichia coli inhibits the F plasmid-mediated exclusion of bacteriophage T7; interacts with the F plasmid-encoded PifA protein; inner membrane protein
YP_001288024.1	Mapped to H37Rv Rv2054
YP_001288025.1	binds as a heterodimer with protein S6 to the central domain of the 16S rRNA; helps stabilize the platform of the 30S subunit
YP_001288026.1	located in the peptidyl transferase center and involved in assembly of 30S ribosome subunit; similar to what is observed with proteins L31 and L33, some proteins in this family contain CXXC motifs that are involved in zinc binding; if two copies are present in a genome, then the duplicated copy appears to have lost the zinc-binding motif and is instead regulated by zinc; the proteins in this group do not appear to have the zinc-binding motif
YP_001288027.1	in Escherichia coli BM108, a mutation that results in lack of L33 synthesis had no effect on ribosome synthesis or function; there are paralogous genes in several bacterial genomes, and a CXXC motif for zinc binding and an upstream regulation region of the paralog lacking this motif that are regulated by zinc similar to other ribosomal proteins like L31; the proteins in this group lack the CXXC motif
YP_001288028.1	required for 70S ribosome assembly
YP_001288029.1	Mapped to H37Rv Rv2059
YP_001288030.1	Mapped to H37Rv Rv2061c
YP_001288031.1	with CobST catalyzes the formation of cobyrinic acid a,c-diamide from hydrogenobyrinic acid a,c-diamide in an ATP-dependent manner; involved in porphyrin and chlorophyll metabolism; vitamin B12 metabolism
YP_001288032.1	Mapped to H37Rv Rv2063
YP_001288033.1	Mapped to H37Rv Rv2064
YP_001288034.1	catalyzes the interconversion of precorrin-8X and hydrogenobyrinate
YP_001288035.1	Mapped to H37Rv Rv2066
YP_001288036.1	Mapped to H37Rv Rv2067c
YP_001288037.1	Mapped to H37Rv Rv2068c
YP_001288038.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription
YP_001288039.1	CobK/CbiJ; there are 2 pathways for cobalamin (vitamin B12) production, one aerobic (ex. P. denitrificans), the other anaerobic (ex. S. typhimurium); the CobK/CbiJ perform similar reactions in both; the anaerobic pathway includes the use of a chelated cobalt ion in order for ring contraction to occur; CobK thus converts precorrin 6 into dihydro-precorrin 6 while CbiJ converts cobalt-precorrin 6 into cobalt-deihydro-precorrin 6
YP_001288040.1	Mapped to H37Rv Rv2071c
YP_001288041.1	Mapped to H37Rv Rv2072c
YP_001288042.1	Mapped to H37Rv Rv2073c
YP_001288043.1	Mapped to H37Rv Rv2074
YP_001288044.1	Mapped to H37Rv Rv2075c
YP_001288045.1	Mapped to H37Rv Rv2077c
YP_001288047.1	Mapped to H37Rv Rv2077c
YP_001288049.1	Mapped to H37Rv Rv2079
YP_001288050.1	Mapped to H37Rv Rv2080
YP_001288051.1	Mapped to H37Rv Rv2081c
YP_001288052.1	Mapped to H37Rv Rv2082
YP_001288053.1	Mapped to H37Rv Rv2083
YP_001288054.1	Mapped to H37Rv Rv2084
YP_001288055.1	Mapped to H37Rv Rv2086
YP_001288056.1	Mapped to H37Rv Rv2088
YP_001288057.1	Mapped to H37Rv Rv2089c
YP_001288058.1	Mapped to H37Rv Rv2090
YP_001288059.1	Mapped to H37Rv Rv2091c
YP_001288060.1	Mapped to H37Rv Rv2092c
YP_001288061.1	Mapped to H37Rv Rv2093c
YP_001288062.1	TatA; similar to TatE that is found in some proteobacteria; part of system that translocates proteins with a conserved twin arginine motif across the inner membrane; capable of translocating folded substrates typically those with bound cofactors; similar to a protein import system in thylakoid membranes
YP_001288063.1	Mapped to H37Rv Rv2095c
YP_001288064.1	Mapped to H37Rv Rv2096c
YP_001288065.1	Mapped to H37Rv Rv2097c
YP_001288066.1	Mapped to H37Rv Rv2098c
YP_001288067.1	Mapped to H37Rv Rv2100
YP_001288068.1	Mapped to H37Rv Rv2101
YP_001288069.1	Mapped to H37Rv Rv2102
YP_001288070.1	Mapped to H37Rv Rv2103c
YP_001288071.1	Mapped to H37Rv Rv2104c
YP_001288072.1	Mapped to H37Rv Rv2104c
YP_001288073.1	Mapped to H37Rv Rv2108
YP_001288074.1	Mapped to H37Rv Rv2109c
YP_001288075.1	Mapped to H37Rv Rv2110c
YP_001288076.1	Mapped to H37Rv Rv2111c
YP_001288077.1	Mapped to H37Rv Rv2112c
YP_001288078.1	Mapped to H37Rv Rv2113
YP_001288079.1	Mapped to H37Rv Rv2114
YP_001288080.1	Mapped to H37Rv Rv2115c
YP_001288081.1	Mapped to H37Rv Rv2116
YP_001288082.1	Mapped to H37Rv Rv2117
YP_001288083.1	Mapped to H37Rv Rv2118c
YP_001288084.1	Mapped to H37Rv Rv2119
YP_001288085.1	Mapped to H37Rv Rv2120c
YP_001288086.1	long form of enzyme; catalyzes the formation of N'-5'-phosphoribosyl-ATP from phosphoribosyl pyrophosphate; crucial role in histidine biosynthesis; forms active dimers and inactive hexamers which is dependent on concentration of substrates and inhibitors
YP_001288087.1	catalyzes the formation of 1-(5-phosphoribosyl)-AMP from 1-(5-phosphoribolsyl)-ATP in histidine biosynthesis
YP_001288088.1	Mapped to H37Rv Rv2123
YP_001288089.1	Mapped to H37Rv Rv2124c
YP_001288090.1	Mapped to H37Rv Rv2125
YP_001288091.1	Mapped to H37Rv Rv2126c
YP_001288092.1	Mapped to H37Rv Rv2127
YP_001288093.1	Mapped to H37Rv Rv2129c
YP_001288094.1	catalyzes a two-step reaction; charges a cysteine by linking its carboxyl group to the alpha-phosphate of ATP then transfers the aminoacyl-adenylate to its tRNA
YP_001288095.1	Mapped to H37Rv Rv2131c
YP_001288096.1	Mapped to H37Rv Rv2133c
YP_001288097.1	Mapped to H37Rv Rv2134c
YP_001288098.1	Mapped to H37Rv Rv2135c
YP_001288099.1	BacA; phosphatase activity in Escherichia coli not kinase; involved in bacitracin resistance as bacitracin supposedly sequesters undecaprenyl disphosphate which reduces the pool of lipid carrier available to the cell
YP_001288100.1	Mapped to H37Rv Rv2137c
YP_001288101.1	Mapped to H37Rv Rv2138
YP_001288102.1	catalyzes the conversion of dihydroorotate to orotate in the pyrimidine biosynthesis pathway; uses a flavin nucleotide as an essential cofactor; class 2 enzymes are monomeric and compared to the class 1 class 2 possess an extended N terminus, which plays a role in the membrane association of the enzyme and provides the binding site for the respiratory quinones that serve as physiological electron acceptors
YP_001288103.1	Mapped to H37Rv Rv2140c
YP_001288104.1	Mapped to H37Rv Rv2141c
YP_001288105.1	Mapped to H37Rv Rv2142c
YP_001288106.1	Mapped to H37Rv Rv2143
YP_001288107.1	Mapped to H37Rv Rv2144c
YP_001288108.1	Mapped to H37Rv Rv2145c
YP_001288109.1	Mapped to H37Rv Rv2146c
YP_001288110.1	Mapped to H37Rv Rv2147c
YP_001288111.1	Mapped to H37Rv Rv2148c
YP_001288112.1	Mapped to H37Rv Rv2149c
YP_001288113.1	GTPase; similar structure to tubulin; forms ring-shaped polymers at the site of cell division; other proteins such as FtsA, ZipA, and ZapA, interact with and regulate FtsZ function
YP_001288114.1	Mapped to H37Rv Rv2151c
YP_001288115.1	Catalyzes the formation of UDP-N-acetylmuramoyl-L-alanine from UDP-N-acetylmuramate and L-alanine in peptidoglycan synthesis
YP_001288116.1	UDP-N-acetylglucosamine--N-acetylmuramyl- (pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase; involved in cell wall formation; inner membrane-associated; last step of peptidoglycan synthesis
YP_001288117.1	Mapped to H37Rv Rv2154c
YP_001288118.1	UDP-N-acetylmuramoylalanine--D-glutamate ligase; involved in peptidoglycan biosynthesis; cytoplasmic; catalyzes the addition of glutamate to the nucleotide precursor UDP-N-acetylmuramoyl-L-alanine during cell wall formation
YP_001288119.1	First step of the lipid cycle reactions in the biosynthesis of the cell wall peptidoglycan
YP_001288120.1	Mapped to H37Rv Rv2157c
YP_001288121.1	involved in cell wall formation; peptidoglycan synthesis; cytoplasmic enzyme; catalyzes the addition of meso-diaminopimelic acid to the nucleotide precursor UDP-N-aceylmuramoyl-l-alanyl-d-glutamate
YP_001288122.1	Mapped to H37Rv Rv2159c
YP_001288123.1	Mapped to H37Rv Rv2160A
YP_001288124.1	Mapped to H37Rv Rv2161c
YP_001288125.1	Mapped to H37Rv Rv2162c
YP_001288126.1	Mapped to H37Rv Rv2163c
YP_001288127.1	Mapped to H37Rv Rv2164c
YP_001288128.1	Mapped to H37Rv Rv2165c
YP_001288129.1	MraZ; UPF0040; crystal structure shows similarity to AbrB
YP_001288130.1	Mapped to H37Rv Rv2169c
YP_001288131.1	Mapped to H37Rv Rv2170
YP_001288132.1	Mapped to H37Rv Rv2171
YP_001288133.1	Mapped to H37Rv Rv2172c
YP_001288134.1	Mapped to H37Rv Rv2173
YP_001288135.1	Mapped to H37Rv Rv2174
YP_001288136.1	Mapped to H37Rv Rv2175c
YP_001288137.1	Mapped to H37Rv Rv2176
YP_001288138.1	Mapped to H37Rv Rv2177c
YP_001288139.1	Mapped to H37Rv Rv2178c
YP_001288140.1	Mapped to H37Rv Rv2179c
YP_001288141.1	Mapped to H37Rv Rv2180c
YP_001288142.1	Mapped to H37Rv Rv2181
YP_001288143.1	Mapped to H37Rv Rv2182c
YP_001288144.1	Mapped to H37Rv Rv2183c
YP_001288145.1	Mapped to H37Rv Rv2184c
YP_001288146.1	Mapped to H37Rv Rv2185c
YP_001288147.1	Mapped to H37Rv Rv2186c
YP_001288148.1	Mapped to H37Rv Rv2187
YP_001288149.1	Mapped to H37Rv Rv2188c
YP_001288150.1	Mapped to H37Rv Rv2189c
YP_001288151.1	Mapped to H37Rv Rv2190c
YP_001288152.1	contains 3'-5'exonuclease domain
YP_001288153.1	Catalyzes the conversion of N-(5-phospho-D-ribosyl)-anthranilate and diphosphate to anthranilate and 5-phospho-alpha-D-ribose 1-diphosphate
YP_001288154.1	Mapped to H37Rv Rv2193
YP_001288155.1	Mapped to H37Rv Rv2194
YP_001288156.1	Mapped to H37Rv Rv2195
YP_001288157.1	Mapped to H37Rv Rv2196
YP_001288158.1	Mapped to H37Rv Rv2197c
YP_001288159.1	Mapped to H37Rv Rv2198c
YP_001288160.1	Mapped to H37Rv Rv2199c
YP_001288161.1	Mapped to H37Rv Rv2200c
YP_001288162.1	Mapped to H37Rv Rv2201
YP_001288163.1	Mapped to H37Rv Rv2202c
YP_001288164.1	Mapped to H37Rv Rv2203
YP_001288165.1	Mapped to H37Rv Rv2204c
YP_001288166.1	Mapped to H37Rv Rv2205c
YP_001288167.1	Mapped to H37Rv Rv2206
YP_001288168.1	catalyzes the synthesis of alpha-ribazole-5'-phosphate from nicotinate mononucleotide and 5,6-dimethylbenzimidazole
YP_001288169.1	catalyzes the formation of adenosylcobalamin from Ado-cobinamide-GDP and alpha-ribazole
YP_001288170.1	Mapped to H37Rv Rv2209
YP_001288171.1	catalyzes the transamination of the branched-chain amino acids to their respective alpha-keto acids
YP_001288172.1	catalyzes the transfer of a methylene carbon from the methylamine-loaded GcvH protein to tetrahydrofolate, causing the release of ammonia and the generation of reduced GcvH protein
YP_001288173.1	Mapped to H37Rv Rv2212
YP_001288174.1	catalyzes the removal of N-terminal amino acids preferably leucine from various peptides
YP_001288175.1	Mapped to H37Rv Rv2214c
YP_001288176.1	Mapped to H37Rv Rv2215
YP_001288177.1	Mapped to H37Rv Rv2216
YP_001288178.1	lipoyl/octanoyltransferase; catalyzes the transfer of the lipoyl/octanoyl moiety of lipoyl/octanoyl-ACP onto lipoate-dependent enzymes like pyruvate dehydrogenase and the glycine cleavage system H protein
YP_001288179.1	catalyzes the radical-mediated insertion of two sulfur atoms into an acyl carrier protein (ACP) bound to an octanoyl group to produce a lipoyl group
YP_001288180.1	Mapped to H37Rv Rv2219
YP_001288181.1	Mapped to H37Rv Rv2219A
YP_001288182.1	Mapped to H37Rv Rv2220
YP_001288183.1	catalyzes the ATP-dependent addition of AMP to a subunit of glutamine synthetase; also catalyzes the reverse reaction - deadenylation; adenylation/deadenylation of glutamine synthetase subunits is important for the regulation of this enzyme
YP_001288184.1	Mapped to H37Rv Rv2222c
YP_001288185.1	Mapped to H37Rv Rv2223c
YP_001288186.1	Mapped to H37Rv Rv2224c
YP_001288187.1	catalyzes the formation of tetrahydrofolate and 2-dehydropantoate from 5,10-methylenetetrahydrofolate and 3-methyl-2-oxobutanoate
YP_001288188.1	Mapped to H37Rv Rv2226
YP_001288189.1	Mapped to H37Rv Rv2227
YP_001288190.1	Mapped to H37Rv Rv2228c
YP_001288191.1	Mapped to H37Rv Rv2229c
YP_001288192.1	Mapped to H37Rv Rv2230c
YP_001288193.1	Mapped to H37Rv Rv2231c
YP_001288195.1	Mapped to H37Rv Rv2232
YP_001288196.1	Mapped to H37Rv Rv2234
YP_001288197.1	Mapped to H37Rv Rv2235
YP_001288198.1	CobD; CbiD in Salmonella; converts cobyric acid to cobinamide by the addition of aminopropanol on the F carboxylic group
YP_001288199.1	Mapped to H37Rv Rv2237
YP_001288200.1	Mapped to H37Rv Rv2238c
YP_001288201.1	Mapped to H37Rv Rv2239c
YP_001288202.1	Mapped to H37Rv Rv2240c
YP_001288203.1	E1 component; part of pyruvate dehydrogenase; forms a complex with DlaT and LpdC
YP_001288204.1	Mapped to H37Rv Rv2242
YP_001288205.1	Mapped to H37Rv Rv2243
YP_001288206.1	carries the fatty acid chain in fatty acid biosynthesis
YP_001288207.1	FabF; beta-ketoacyl-ACP synthase II, KASII; catalyzes a condensation reaction in fatty acid biosynthesis: addition of an acyl acceptor of two carbons from malonyl-ACP; required for the elongation of short-chain unsaturated acyl-ACP
YP_001288208.1	FabF; beta-ketoacyl-ACP synthase II, KASII; catalyzes a condensation reaction in fatty acid biosynthesis: addition of an acyl acceptor of two carbons from malonyl-ACP; required for the elongation of short-chain unsaturated acyl-ACP
YP_001288209.1	Mapped to H37Rv Rv2247
YP_001288210.1	Mapped to H37Rv Rv2248
YP_001288211.1	Mapped to H37Rv Rv2249c
YP_001288212.1	Mapped to H37Rv Rv2250c
YP_001288213.1	Mapped to H37Rv Rv2250A
YP_001288214.1	involved in the biosynthesis of phosphatidylinositol mannosides (PIMs); the enzyme from Mycobacterium tuberculosis can phosphorylate a variety of amphipathic lipids
YP_001288215.1	Mapped to H37Rv Rv2253
YP_001288216.1	Mapped to H37Rv Rv2254c
YP_001288217.1	Mapped to H37Rv Rv2256c
YP_001288218.1	Mapped to H37Rv Rv2257c
YP_001288219.1	Mapped to H37Rv Rv2258c
YP_001288220.1	Mapped to H37Rv Rv2259
YP_001288221.1	Mapped to H37Rv Rv2260
YP_001288222.1	Mapped to H37Rv Rv2263
YP_001288223.1	Mapped to H37Rv Rv2263
YP_001288224.1	Mapped to H37Rv Rv2264c
YP_001288225.1	Mapped to H37Rv Rv2265
YP_001288226.1	Mapped to H37Rv Rv2266
YP_001288227.1	Mapped to H37Rv Rv2267c
YP_001288228.1	Mapped to H37Rv Rv2268c
YP_001288229.1	Mapped to H37Rv Rv2270
YP_001288230.1	Mapped to H37Rv Rv2271
YP_001288231.1	Mapped to H37Rv Rv2272
YP_001288232.1	Mapped to H37Rv Rv2273
YP_001288233.1	Mapped to H37Rv Rv2275
YP_001288234.1	Mapped to H37Rv Rv2276
YP_001288235.1	Mapped to H37Rv Rv2277c
YP_001288236.1	Mapped to H37Rv Rv2280
YP_001288237.1	Mapped to H37Rv Rv2281
YP_001288238.1	Mapped to H37Rv Rv2282c
YP_001288239.1	Mapped to H37Rv Rv2284
YP_001288240.1	Mapped to H37Rv Rv2285
YP_001288241.1	Mapped to H37Rv Rv2286c
YP_001288242.1	Mapped to H37Rv Rv2287
YP_001288243.1	Mapped to H37Rv Rv2288
YP_001288244.1	Mapped to H37Rv Rv2290
YP_001288245.1	Mapped to H37Rv Rv2291
YP_001288246.1	Mapped to H37Rv Rv2292c
YP_001288247.1	Mapped to H37Rv Rv2293c
YP_001288248.1	Mapped to H37Rv Rv2294
YP_001288249.1	Mapped to H37Rv Rv2295
YP_001288250.1	Mapped to H37Rv Rv2296
YP_001288251.1	Mapped to H37Rv Rv2297
YP_001288252.1	Mapped to H37Rv Rv2298
YP_001288253.1	molecular chaperone
YP_001288254.1	Mapped to H37Rv Rv2300c
YP_001288255.1	Mapped to H37Rv Rv2301
YP_001288256.1	Mapped to H37Rv Rv2302
YP_001288257.1	Mapped to H37Rv Rv2303c
YP_001288258.1	Mapped to H37Rv Rv2305
YP_001288259.1	Mapped to H37Rv Rv2305
YP_001288260.1	Mapped to H37Rv Rv2307c
YP_001288261.1	Mapped to H37Rv Rv2307A
YP_001288262.1	Mapped to H37Rv Rv2307B
YP_001288263.1	Mapped to H37Rv Rv2308
YP_001288264.1	Mapped to H37Rv Rv2309c
YP_001288265.1	Mapped to H37Rv Rv2310
YP_001288266.1	Mapped to H37Rv Rv2311
YP_001288267.1	Mapped to H37Rv Rv2313c
YP_001288268.1	Mapped to H37Rv Rv2314c
YP_001288269.1	Mapped to H37Rv Rv2315c
YP_001288270.1	Mapped to H37Rv Rv2316
YP_001288271.1	Mapped to H37Rv Rv2317
YP_001288272.1	Mapped to H37Rv Rv2318
YP_001288273.1	Mapped to H37Rv Rv2319c
YP_001288274.1	Mapped to H37Rv Rv2320c
YP_001288275.1	Mapped to H37Rv Rv2321c
YP_001288276.1	Mapped to H37Rv Rv2322c
YP_001288277.1	Mapped to H37Rv Rv2323c
YP_001288278.1	Mapped to H37Rv Rv2324
YP_001288279.1	Mapped to H37Rv Rv2325c
YP_001288280.1	Mapped to H37Rv Rv2326c
YP_001288281.1	Mapped to H37Rv Rv2327
YP_001288282.1	Mapped to H37Rv Rv2328
YP_001288283.1	Mapped to H37Rv Rv2329c
YP_001288284.1	Mapped to H37Rv Rv2330c
YP_001288285.1	Mapped to H37Rv Rv2331
YP_001288286.1	Mapped to H37Rv Rv2331A
YP_001288287.1	malic enzyme; oxaloacetate-decarboxylating; NAD-dependent; catalyzes the formation of pyruvate form malate
YP_001288288.1	Mapped to H37Rv Rv2333c
YP_001288289.1	Mapped to H37Rv Rv2334
YP_001288290.1	Mapped to H37Rv Rv2335
YP_001288291.1	Mapped to H37Rv Rv2336
YP_001288292.1	Mapped to H37Rv Rv2337c
YP_001288293.1	Mapped to H37Rv Rv2338c
YP_001288294.1	Mapped to H37Rv Rv2339
YP_001288295.1	Mapped to H37Rv Rv2340c
YP_001288296.1	Mapped to H37Rv Rv2341
YP_001288297.1	Mapped to H37Rv Rv2342
YP_001288298.1	synthesizes RNA primers at the replication forks
YP_001288299.1	dGTPase family type 2 subfamily; presumably hydrolyzes dGTP to deoxyguanosine and triphosphate
YP_001288300.1	Mapped to H37Rv Rv2345
YP_001288301.1	Mapped to H37Rv Rv2346c
YP_001288302.1	Mapped to H37Rv Rv2347c
YP_001288303.1	Mapped to H37Rv Rv2348c
YP_001288304.1	Mapped to H37Rv Rv2349c
YP_001288305.1	Mapped to H37Rv Rv2350c
YP_001288306.1	Mapped to H37Rv Rv2351c
YP_001288307.1	Mapped to H37Rv Rv2352c
YP_001288310.1	Mapped to H37Rv Rv2353c
YP_001288311.1	Mapped to H37Rv Rv2354
YP_001288312.1	Mapped to H37Rv Rv2355
YP_001288313.1	Mapped to H37Rv Rv2356c
YP_001288314.1	Catalyzes a two-step reaction, first charging a glycine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA
YP_001288315.1	Mapped to H37Rv Rv2358
YP_001288316.1	Mapped to H37Rv Rv2359
YP_001288317.1	Mapped to H37Rv Rv2360c
YP_001288318.1	catalyzes the formation of undecaprenyl pyrophosphate from isopentenyl pyrophosphate
YP_001288319.1	involved in DNA repair and RecFOR pathway recombination; RecFOR proteins displace ssDNA-binding protein and facilitate the production of RecA-coated ssDNA
YP_001288320.1	catalyzes the hydrolysis of a monocarboxylic acid amid to form a monocarboxylate and ammonia
YP_001288321.1	Era; Escherichia coli Ras-like protein; Bex; Bacillus Era-complementing segment; essential protein in Escherichia coli that is involved in many cellular processes; GTPase; binds the cell membrane through apparent C-terminal domain; mutants are arrested during the cell cycle; Streptococcus pneumoniae Era binds to RNA and Escherichia coli Era binds 16S rRNA and 30S ribosome
YP_001288322.1	Mapped to H37Rv Rv2365c
YP_001288323.1	Mapped to H37Rv Rv2366c
YP_001288324.1	Mapped to H37Rv Rv2367c
YP_001288325.1	Mapped to H37Rv Rv2368c
YP_001288326.1	Mapped to H37Rv Rv2370c
YP_001288327.1	Mapped to H37Rv Rv2371
YP_001288328.1	in Escherichia coli RsmE methylates the N3 position of the U1498 base in 16S rRNA; cells lacking this function can grow, but are outcompeted by wild-type; SAM-dependent m(3)U1498 methyltransferase
YP_001288329.1	chaperone Hsp40; co-chaperone with DnaK; Participates actively in the response to hyperosmotic and heat shock by preventing the aggregation of stress-denatured proteins and by disaggregating proteins, also in an autonomous, dnaK-independent fashion
YP_001288330.1	Negative regulator of class I heat shock genes (grpE-dnaK-dnaJ and groELS operons). Prevents heat-shock induction of these operons
YP_001288331.1	Mapped to H37Rv Rv2375
YP_001288332.1	Mapped to H37Rv Rv2376c
YP_001288333.1	Mapped to H37Rv Rv2377c
YP_001288334.1	Mapped to H37Rv Rv2378c
YP_001288335.1	Mapped to H37Rv Rv2379c
YP_001288336.1	Mapped to H37Rv Rv2380c
YP_001288337.1	Mapped to H37Rv Rv2381c
YP_001288338.1	Mapped to H37Rv Rv2382c
YP_001288339.1	Mapped to H37Rv Rv2383c
YP_001288340.1	Mapped to H37Rv Rv2384
YP_001288341.1	Mapped to H37Rv Rv2385
YP_001288342.1	catalyzes conversion of chorismate to salicylate, in mycobactin siderophore construction; requires Mg(2+) for function
YP_001288343.1	Mapped to H37Rv Rv2387
YP_001288344.1	catalyzes the oxygen-independent formation of protoporphyrinogen-IX from coproporphyrinogen-III
YP_001288345.1	Mapped to H37Rv Rv2389c
YP_001288348.1	Mapped to H37Rv Rv2391
YP_001288349.1	catalyzes the reduction of 3'-phosphoadenylyl sulfate into sulfite
YP_001288350.1	Mapped to H37Rv Rv2393
YP_001288351.1	Mapped to H37Rv Rv2394
YP_001288352.1	Mapped to H37Rv Rv2395
YP_001288353.1	Mapped to H37Rv Rv2396
YP_001288354.1	Mapped to H37Rv Rv2397c
YP_001288355.1	Mapped to H37Rv Rv2398c
YP_001288356.1	Mapped to H37Rv Rv2399c
YP_001288357.1	Mapped to H37Rv Rv2400c
YP_001288358.1	Mapped to H37Rv Rv2401A
YP_001288359.1	Mapped to H37Rv Rv2402
YP_001288360.1	Mapped to H37Rv Rv2403c
YP_001288361.1	binds to the ribosome on the universally-conserved alpha-sarcin loop
YP_001288362.1	Mapped to H37Rv Rv2405
YP_001288363.1	Mapped to H37Rv Rv2406c
YP_001288364.1	member of metallo-beta-lactamase family; the purified enzyme from Escherichia coli forms dimeric zinc phosphodiesterase; in Bacillus subtilis this protein is a 3'-tRNA processing endoribonuclease and is essential while in Escherichia coli it is not; associates with two zinc ions
YP_001288365.1	Mapped to H37Rv Rv2408
YP_001288366.1	Mapped to H37Rv Rv2409c
YP_001288367.1	Mapped to H37Rv Rv2410c
YP_001288368.1	Mapped to H37Rv Rv2411c
YP_001288369.1	binds directly to the 16S rRNA and is involved in post-translational inhibition of arginine and ornithine decarboxylase
YP_001288370.1	Mapped to H37Rv Rv2413c
YP_001288371.1	Mapped to H37Rv Rv2414c
YP_001288372.1	Mapped to H37Rv Rv2415c
YP_001288373.1	Mapped to H37Rv Rv2416c
YP_001288374.1	Mapped to H37Rv Rv2417c
YP_001288375.1	Mapped to H37Rv Rv2418c
YP_001288376.1	Mapped to H37Rv Rv2419c
YP_001288377.1	Mapped to H37Rv Rv2420c
YP_001288378.1	transfers an adenyl group from ATP to NaMN to form nicotinic acid adenine dinucleotide (NaAD) which is then converted to the ubiquitous compound NAD by NAD synthetase; essential enzyme in bacteria
YP_001288379.1	Mapped to H37Rv Rv2422
YP_001288380.1	Mapped to H37Rv Rv2423
YP_001288381.1	Mapped to H37Rv Rv2424c
YP_001288382.1	Mapped to H37Rv Rv2425c
YP_001288383.1	Mapped to H37Rv Rv2426c
YP_001288384.1	Catalyzes the phosphorylation of L-glutamate during the proline biosynthesis pathway
YP_001288385.1	Mapped to H37Rv Rv2428
YP_001288386.1	Mapped to H37Rv Rv2429
YP_001288387.1	Mapped to H37Rv Rv2430c
YP_001288388.1	Mapped to H37Rv Rv2431c
YP_001288389.1	Mapped to H37Rv Rv2432c
YP_001288390.1	Mapped to H37Rv Rv2434c
YP_001288391.1	Mapped to H37Rv Rv2435c
YP_001288392.1	Mapped to H37Rv Rv2436
YP_001288393.1	Mapped to H37Rv Rv2437
YP_001288394.1	catalyzes the formation of nicotinamide adenine dinucleotide (NAD) from nicotinic acid adenine dinucleotide (NAAD) using either ammonia or glutamine as the amide donor and ATP; ammonia-utilizing enzymes include the ones from Bacillus and Escherichia coli while glutamine-utilizing enzymes include the Mycobacterial one; forms homodimers
YP_001288395.1	catalyzes the formation of glutamate 5-phosphate from glutamate in proline biosynthesis
YP_001288396.1	essential GTPase; exhibits high exchange rate for GTP/GDP; associates with 50S ribosomal subunit; involved in regulation of chromosomal replication
YP_001288397.1	involved in the peptidyltransferase reaction during translation
YP_001288398.1	Mapped to H37Rv Rv2442c
YP_001288399.1	Mapped to H37Rv Rv2443
YP_001288400.1	Mapped to H37Rv Rv2444c
YP_001288401.1	catalyzes the formation of nucleoside triphosphate from ATP and nucleoside diphosphate
YP_001288402.1	Mapped to H37Rv Rv2447c
YP_001288403.1	valine--tRNA ligase; ValRS; converts valine ATP and tRNA(Val) to AMP PPi and valyl-tRNA(Val); class-I aminoacyl-tRNA synthetase type 1 subfamily; has a posttransfer editing process to hydrolyze mischarged Thr-tRNA(Val) which is done by the editing domain
YP_001288404.1	Mapped to H37Rv Rv2449c
YP_001288405.1	Mapped to H37Rv Rv2450c
YP_001288406.1	Mapped to H37Rv Rv2451
YP_001288407.1	MobA; links a guanosine 5'-phosphate to molydopterin to form molybdopterin guanine dinucleotide; involved in molybdenum cofactor biosynthesis
YP_001288408.1	catalyzes the coenzyme A dependent formation of succinyl-CoA from 2-oxoglutarate and ferredoxin
YP_001288409.1	Mapped to H37Rv Rv2455c
YP_001288410.1	Mapped to H37Rv Rv2456c
YP_001288411.1	binds and unfolds substrates as part of the ClpXP protease
YP_001288412.1	converts homocysteine and S-adenosyl-methionine to methionine and S-adenosyl-homocysteine or S-methyl-methionine and homocysteine to two methionines
YP_001288413.1	Mapped to H37Rv Rv2459
YP_001288414.1	hydrolyzes proteins to small peptides; with the ATPase subunits ClpA or ClpX, ClpP degrades specific substrates
YP_001288415.1	hydrolyzes proteins to small peptides; with the ATPase subunits ClpA or ClpX, ClpP degrades specific substrates
YP_001288416.1	Tig; RopA; peptidyl-prolyl cis/trans isomerase; promotes folding of newly synthesized proteins; binds ribosomal 50S subunit; forms a homodimer
YP_001288417.1	Mapped to H37Rv Rv2463
YP_001288418.1	Mapped to H37Rv Rv2464c
YP_001288419.1	catalyzes the interconversion of ribose 5-phosphate to ribulose 5-phosphate; enzyme from E. coli shows allose 6-phosphate isomerase activity
YP_001288420.1	Mapped to H37Rv Rv2466c
YP_001288421.1	Mapped to H37Rv Rv2467
YP_001288422.1	Mapped to H37Rv Rv2468c
YP_001288423.1	Mapped to H37Rv Rv2469c
YP_001288424.1	Mapped to H37Rv Rv2470
YP_001288425.1	Mapped to H37Rv Rv2471
YP_001288426.1	Mapped to H37Rv Rv2473
YP_001288427.1	Mapped to H37Rv Rv2474c
YP_001288428.1	Mapped to H37Rv Rv2475c
YP_001288429.1	Mapped to H37Rv Rv2476c
YP_001288430.1	ChvD; in Agrobacterium tumefaciens, mutations in both Walker boxes were found to affect virulence
YP_001288431.1	Mapped to H37Rv Rv2478c
YP_001288432.1	PlsB; catalyzes the formation of 1-acyl-sn-glycerol 3-phosphate by transfering the acyl moiety from acyl-CoA
YP_001288433.1	Mapped to H37Rv Rv2483c
YP_001288434.1	Mapped to H37Rv Rv2484c
YP_001288435.1	Mapped to H37Rv Rv2485c
YP_001288436.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001288437.1	Mapped to H37Rv Rv2487c
YP_001288438.1	Mapped to H37Rv Rv2487c
YP_001288439.1	Mapped to H37Rv Rv2488c
YP_001288440.1	Mapped to H37Rv Rv2489c
YP_001288441.1	Mapped to H37Rv Rv2490c
YP_001288442.1	Mapped to H37Rv Rv2490c
YP_001288443.1	Mapped to H37Rv Rv2491
YP_001288444.1	Mapped to H37Rv Rv2492
YP_001288445.1	Mapped to H37Rv Rv2494
YP_001288446.1	Mapped to H37Rv Rv2495c
YP_001288447.1	Mapped to H37Rv Rv2496c
YP_001288448.1	Mapped to H37Rv Rv2497c
YP_001288449.1	Mapped to H37Rv Rv2498c
YP_001288450.1	Mapped to H37Rv Rv2499c
YP_001288451.1	Mapped to H37Rv Rv2500c
YP_001288452.1	Mapped to H37Rv Rv2501c
YP_001288453.1	Mapped to H37Rv Rv2502c
YP_001288454.1	Mapped to H37Rv Rv2503c
YP_001288455.1	Mapped to H37Rv Rv2504c
YP_001288456.1	activates fatty acids by binding to coenzyme A
YP_001288457.1	Mapped to H37Rv Rv2506
YP_001288458.1	Mapped to H37Rv Rv2507
YP_001288459.1	Mapped to H37Rv Rv2508c
YP_001288460.1	Mapped to H37Rv Rv2509
YP_001288461.1	Mapped to H37Rv Rv2510c
YP_001288462.1	3'-5' exoribonuclease specific for small oligoribonuclotides
YP_001288463.1	Mapped to H37Rv Rv2512c
YP_001288464.1	Mapped to H37Rv Rv2513
YP_001288465.1	Mapped to H37Rv Rv2514c
YP_001288466.1	Mapped to H37Rv Rv2515c
YP_001288467.1	Mapped to H37Rv Rv2516c
YP_001288468.1	Mapped to H37Rv Rv2518c
YP_001288469.1	Mapped to H37Rv Rv2519
YP_001288470.1	Mapped to H37Rv Rv2520c
YP_001288471.1	Mapped to H37Rv Rv2521
YP_001288472.1	Mapped to H37Rv Rv2522c
YP_001288473.1	Catalyzes the formation of holo-ACP, which mediates the essential transfer of acyl fatty acid intermediates during the biosynthesis of fatty acids and lipids
YP_001288474.1	Mapped to H37Rv Rv2524c
YP_001288475.1	Mapped to H37Rv Rv2525c
YP_001288476.1	Mapped to H37Rv Rv2527
YP_001288477.1	Mapped to H37Rv Rv2528c
YP_001288478.1	Mapped to H37Rv Rv2529
YP_001288479.1	Mapped to H37Rv Rv2530c
YP_001288480.1	Mapped to H37Rv Rv2531c
YP_001288481.1	Mapped to H37Rv Rv2532c
YP_001288482.1	Regulates rRNA biosynthesis by transcriptional antitermination
YP_001288483.1	Involved in peptide bond synthesis; alters the affinity of the ribosome for aminoacyl-tRNA
YP_001288484.1	Mapped to H37Rv Rv2535c
YP_001288485.1	Mapped to H37Rv Rv2536
YP_001288486.1	catalyzes the formation of 3-dehydroshikimate from 3-dehydroquinate in chorismate biosynthesis
YP_001288487.1	catalyzes the formation of 3-dehydroquinate from 3-deoxy-arabino-heptulonate 7-phosphate; functions in aromatic amino acid biosynthesis
YP_001288488.1	catalyzes the formation of shikimate 3-phosphate from shikimate in aromatic amino acid biosynthesis
YP_001288489.1	catalyzes the formation of chorismate from 5-O-(1-carboxyvinyl)-3-phosphoshikimate in aromatic amino acid biosynthesis
YP_001288490.1	Mapped to H37Rv Rv2541
YP_001288491.1	Mapped to H37Rv Rv2542
YP_001288492.1	Mapped to H37Rv Rv2543
YP_001288493.1	Mapped to H37Rv Rv2544
YP_001288494.1	Mapped to H37Rv Rv2545
YP_001288495.1	Mapped to H37Rv Rv2546
YP_001288496.1	Mapped to H37Rv Rv2547
YP_001288497.1	Mapped to H37Rv Rv2548
YP_001288498.1	Mapped to H37Rv Rv2548
YP_001288499.1	Mapped to H37Rv Rv2549c
YP_001288500.1	Mapped to H37Rv Rv2550c
YP_001288501.1	Mapped to H37Rv Rv2551c
YP_001288502.1	AroE; catalyzes the conversion of shikimate to 3-dehydroshikimate
YP_001288503.1	Mapped to H37Rv Rv2553c
YP_001288504.1	similar to RuvC resolvase with substantial differences; NMR structural information suggests this protein is monomeric; unknown cellular function
YP_001288505.1	Catalyzes a two-step reaction, first charging an alanyl molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA
YP_001288506.1	Mapped to H37Rv Rv2556c
YP_001288507.1	Mapped to H37Rv Rv2557
YP_001288508.1	Mapped to H37Rv Rv2558
YP_001288509.1	Mapped to H37Rv Rv2559c
YP_001288510.1	Mapped to H37Rv Rv2560
YP_001288511.1	Mapped to H37Rv Rv2560
YP_001288512.1	Mapped to H37Rv Rv2563
YP_001288513.1	Mapped to H37Rv Rv2564
YP_001288514.1	Mapped to H37Rv Rv2565
YP_001288515.1	Mapped to H37Rv Rv2566
YP_001288516.1	Mapped to H37Rv Rv2567
YP_001288517.1	Mapped to H37Rv Rv2568c
YP_001288518.1	Mapped to H37Rv Rv2569c
YP_001288519.1	Mapped to H37Rv Rv2570
YP_001288520.1	Mapped to H37Rv Rv2571c
YP_001288521.1	catalyzes a two-step reaction, first charging an aspartate molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; contains discriminating and non-discriminating subtypes
YP_001288522.1	ketopantoate reductase; catalyzes the NADPH reduction of ketopantoate to pantoate; functions in pantothenate (vitamin B5) biosynthesis
YP_001288523.1	Mapped to H37Rv Rv2574
YP_001288524.1	Mapped to H37Rv Rv2575
YP_001288525.1	Mapped to H37Rv Rv2576c
YP_001288526.1	Mapped to H37Rv Rv2577
YP_001288527.1	Mapped to H37Rv Rv2578c
YP_001288528.1	catalyzes the cleavage of carbon-halogen bonds in aliphatic compounds forming a primary alcohol and a halide
YP_001288529.1	catalyzes a two-step reaction, first charging a histidine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; class II aminoacyl-tRNA synthetase; forms homodimers; some organisms have a paralogous gene, hisZ, that is similar to hisS and produces a protein that performs the first step in histidine biosynthesis along with HisG
YP_001288530.1	Mapped to H37Rv Rv2581c
YP_001288531.1	Mapped to H37Rv Rv2582
YP_001288532.1	Mapped to H37Rv Rv2583c
YP_001288533.1	catalyzes a salvage reaction resulting in the formation of AMP which is metabolically less costly than a de novo synthesis
YP_001288534.1	Mapped to H37Rv Rv2585c
YP_001288535.1	forms a complex with SecD and YajC; SecDFyajC stimulates the proton motive force-driven protein translocation; seems to modulate the cycling of SecA by stabilizing its membrane-inserted state and appears to be required for the release of mature proteins from the extracytoplasmic side of the membrane; in some organisms, such as Bacillus subtilis, SecD is fused to SecF
YP_001288536.1	part of the preprotein secretory system; when complexed with proteins SecF and YajC, SecDFyajC stimulates the proton motive force-driven protein translocation, and appears to be required for the release of mature proteins from the extracytoplasmic side of the membrane
YP_001288537.1	member of preprotein translocase; forms a heterotrimer with SecD and SecF; links the SecD/SecF/YajC/YidC complex with the SecY/SecE/SecG complex
YP_001288538.1	catalyzes the formation of succinate semialdehyde and glutamate from 4-aminobutanoate and 2-oxoglutarate
YP_001288539.1	Mapped to H37Rv Rv2590
YP_001288540.1	Mapped to H37Rv Rv2591
YP_001288541.1	promotes strand exchange during homologous recombination; RuvAB complex promotes branch migration; RuvABC complex scans the DNA during branch migration and resolves Holliday junctions at consensus sequences; forms hexameric rings around opposite DNA arms; requires ATP for branch migration and orientation of RuvAB complex determines direction of migration
YP_001288542.1	plays an essential role in ATP-dependent branch migration of the Holliday junction
YP_001288543.1	endonuclease; resolves Holliday structures; forms a complex of RuvABC; the junction binding protein RuvA forms a hexameric ring along with the RuvB helicase and catalyzes branch migration; RuvC then interacts with RuvAB to resolve the Holliday junction by nicking DNA strands of like polarity
YP_001288544.1	Mapped to H37Rv Rv2596
YP_001288545.1	Mapped to H37Rv Rv2597
YP_001288546.1	Mapped to H37Rv Rv2598
YP_001288547.1	Mapped to H37Rv Rv2599
YP_001288548.1	Mapped to H37Rv Rv2600
YP_001288549.1	catalyzes the formation of spermidine from putrescine and S-adenosylmethioninamine
YP_001288550.1	Mapped to H37Rv Rv2602
YP_001288551.1	Mapped to H37Rv Rv2603c
YP_001288552.1	with PdxST is involved in the biosynthesis of pyridoxal 5'-phosphate; PdxT catalyzes the hydrolysis of glutamine to glutamate and ammonia; PdxS utilizes the ammonia to synthesize pyridoxal 5'-phosphate
YP_001288553.1	Mapped to H37Rv Rv2605c
YP_001288554.1	with PdxT forms pyridoxal 5'-phosphate from glutamine, either ribose 5-phosphate or ribulose 5-phosphate, and either glyceraldehyde 3-phosphate or dihydroxyacetone phosphate
YP_001288555.1	catalyzes the formation of pyridoxal 5'-phosphate from pyridoxamine 5'-phosphate
YP_001288556.1	Mapped to H37Rv Rv2608
YP_001288557.1	Mapped to H37Rv Rv2609c
YP_001288558.1	Mapped to H37Rv Rv2610c
YP_001288559.1	Acylates the intermediate (KDO)2-lipid IVA to form (KDO)2-(lauroyl)-lipid IVA
YP_001288560.1	Mapped to H37Rv Rv2612c
YP_001288561.1	Mapped to H37Rv Rv2613c
YP_001288562.1	catalyzes a two-step reaction, first charging a threonine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; catalyzes the formation of threonyl-tRNA(Thr) from threonine and tRNA(Thr)
YP_001288563.1	Mapped to H37Rv Rv2615c
YP_001288564.1	Mapped to H37Rv Rv2616
YP_001288565.1	Mapped to H37Rv Rv2617c
YP_001288566.1	Mapped to H37Rv Rv2618
YP_001288567.1	Mapped to H37Rv Rv2619c
YP_001288568.1	Mapped to H37Rv Rv2620c
YP_001288569.1	Mapped to H37Rv Rv2621c
YP_001288570.1	Mapped to H37Rv Rv2622
YP_001288571.1	Mapped to H37Rv Rv2623
YP_001288572.1	Mapped to H37Rv Rv2624c
YP_001288573.1	Mapped to H37Rv Rv2625c
YP_001288574.1	Mapped to H37Rv Rv2626c
YP_001288575.1	Mapped to H37Rv Rv2627c
YP_001288576.1	Mapped to H37Rv Rv2628
YP_001288577.1	Mapped to H37Rv Rv2629
YP_001288578.1	Mapped to H37Rv Rv2630
YP_001288579.1	Mapped to H37Rv Rv2631
YP_001288580.1	Mapped to H37Rv Rv2632c
YP_001288581.1	Mapped to H37Rv Rv2633c
YP_001288582.1	Mapped to H37Rv Rv2634c
YP_001288583.1	Mapped to H37Rv Rv2636
YP_001288584.1	Mapped to H37Rv Rv2637
YP_001288585.1	Mapped to H37Rv Rv2638
YP_001288586.1	Mapped to H37Rv Rv2639c
YP_001288587.1	Mapped to H37Rv Rv2640c
YP_001288588.1	Mapped to H37Rv Rv2641
YP_001288589.1	Mapped to H37Rv Rv2642
YP_001288590.1	Mapped to H37Rv Rv2643
YP_001288591.1	Mapped to H37Rv Rv2643
YP_001288592.1	Mapped to H37Rv Rv2645
YP_001288593.1	Mapped to H37Rv Rv2646
YP_001288594.1	Mapped to H37Rv Rv2647
YP_001288595.1	Mapped to H37Rv Rv2650c
YP_001288596.1	Mapped to H37Rv Rv2651c
YP_001288597.1	Mapped to H37Rv Rv2652c
YP_001288598.1	Mapped to H37Rv Rv2653c
YP_001288599.1	Mapped to H37Rv Rv2654c
YP_001288600.1	Mapped to H37Rv Rv2655c
YP_001288601.1	Mapped to H37Rv Rv2656c
YP_001288602.1	Mapped to H37Rv Rv2657c
YP_001288603.1	Mapped to H37Rv Rv2658c
YP_001288604.1	Mapped to H37Rv Rv2659c
YP_001288605.1	Mapped to H37Rv Rv2660c
YP_001288606.1	Mapped to H37Rv Rv2661c
YP_001288607.1	Mapped to H37Rv Rv2663
YP_001288608.1	Mapped to H37Rv Rv2664
YP_001288609.1	Mapped to H37Rv Rv2665
YP_001288610.1	Mapped to H37Rv Rv2666
YP_001288611.1	Mapped to H37Rv Rv2667
YP_001288612.1	Mapped to H37Rv Rv2668
YP_001288613.1	Mapped to H37Rv Rv2669
YP_001288614.1	Mapped to H37Rv Rv2670c
YP_001288615.1	Mapped to H37Rv Rv2671
YP_001288616.1	Mapped to H37Rv Rv2672
YP_001288617.1	Mapped to H37Rv Rv2673
YP_001288618.1	Mapped to H37Rv Rv2674
YP_001288619.1	Mapped to H37Rv Rv2675c
YP_001288620.1	Mapped to H37Rv Rv2676c
YP_001288621.1	catalyzes the formation of protoporphyrin IX from protoporphyrinogen IX
YP_001288622.1	catalyzes the formation of coproporphyrinogen from uroporphyrinogen III
YP_001288623.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001288624.1	Mapped to H37Rv Rv2680
YP_001288625.1	Mapped to H37Rv Rv2681
YP_001288626.1	catalyzes the formation of 1-deoxy-D-xylulose 5-phosphate from pyruvate and D-glyceraldehyde 3-phosphate
YP_001288627.1	Mapped to H37Rv Rv2683
YP_001288628.1	Mapped to H37Rv Rv2684
YP_001288629.1	Mapped to H37Rv Rv2685
YP_001288630.1	Mapped to H37Rv Rv2686c
YP_001288631.1	Mapped to H37Rv Rv2687c
YP_001288632.1	Mapped to H37Rv Rv2688c
YP_001288633.1	Mapped to H37Rv Rv2689c
YP_001288634.1	Mapped to H37Rv Rv2690c
YP_001288635.1	Mapped to H37Rv Rv2691
YP_001288636.1	Mapped to H37Rv Rv2692
YP_001288637.1	Mapped to H37Rv Rv2693c
YP_001288638.1	Mapped to H37Rv Rv2694c
YP_001288639.1	Mapped to H37Rv Rv2695
YP_001288640.1	Mapped to H37Rv Rv2696c
YP_001288641.1	catalyzes the formation of dUMP from dUTP
YP_001288642.1	Mapped to H37Rv Rv2698
YP_001288643.1	Mapped to H37Rv Rv2699c
YP_001288644.1	Mapped to H37Rv Rv2700
YP_001288645.1	Mapped to H37Rv Rv2701c
YP_001288646.1	Mapped to H37Rv Rv2702
YP_001288647.1	sigma factors are initiation factors that promote the attachment of RNA polymerase to specific initiation sites and are then released
YP_001288648.1	Mapped to H37Rv Rv2704
YP_001288649.1	Mapped to H37Rv Rv2705c
YP_001288650.1	Mapped to H37Rv Rv2707
YP_001288651.1	Mapped to H37Rv Rv2708c
YP_001288652.1	Mapped to H37Rv Rv2709
YP_001288653.1	sigma factors are initiation factors that promote the attachment of RNA polymerase to specific initiation sites and are then released; sigma factors in this cluster are active during stationary phase
YP_001288654.1	Mapped to H37Rv Rv2711
YP_001288655.1	Mapped to H37Rv Rv2712c
YP_001288656.1	catalyzes the conversion of NADPH to NADH
YP_001288657.1	Mapped to H37Rv Rv2714
YP_001288658.1	Mapped to H37Rv Rv2715
YP_001288659.1	Mapped to H37Rv Rv2716
YP_001288660.1	Mapped to H37Rv Rv2717c
YP_001288661.1	Mapped to H37Rv Rv2718c
YP_001288662.1	Mapped to H37Rv Rv2719c
YP_001288663.1	Represses a number of genes involved in the response to DNA damage
YP_001288664.1	Mapped to H37Rv Rv2721c
YP_001288665.1	Mapped to H37Rv Rv2723
YP_001288666.1	Mapped to H37Rv Rv2724c
YP_001288667.1	Mapped to H37Rv Rv2725c
YP_001288668.1	involved in lysine biosynthesis; DAP epimerase; produces DL-diaminopimelate from LL-diaminopimelate
YP_001288669.1	IPP transferase; isopentenyltransferase; involved in tRNA modification; in Escherichia coli this enzyme catalyzes the addition of a delta2-isopentenyl group from dimethylallyl diphosphate to the N6-nitrogen of adenosine adjacent to the anticodon of tRNA species that read codons starting with uracil; further tRNA modifications may occur; mutations in miaA result in defects in translation efficiency and fidelity
YP_001288670.1	Mapped to H37Rv Rv2728c
YP_001288671.1	Mapped to H37Rv Rv2729c
YP_001288672.1	Mapped to H37Rv Rv2730
YP_001288673.1	Mapped to H37Rv Rv2731
YP_001288674.1	Mapped to H37Rv Rv2732c
YP_001288675.1	catalyzes the formation of 2-methylthio-N6-(dimethylallyl)adenosine (ms(2)i(6)A) at position 37 in tRNAs that read codons beginning with uridine from N6-(dimethylallyl)adenosine (i(6)A)
YP_001288676.1	Mapped to H37Rv Rv2734
YP_001288677.1	Mapped to H37Rv Rv2735c
YP_001288678.1	binds RecA and inhibits RecA-mediated DNA strand exchange and ATP hydrolysis and coprotease activities
YP_001288679.1	these RecA proteins contain inteins; catalyzes the hydrolysis of ATP in the presence of single-stranded DNA, the ATP-dependent uptake of single-stranded DNA by duplex DNA, and the ATP-dependent hybridization of homologous single-stranded DNAs
YP_001288680.1	Mapped to H37Rv Rv2737A
YP_001288681.1	Mapped to H37Rv Rv2739c
YP_001288682.1	Mapped to H37Rv Rv2740
YP_001288683.1	Mapped to H37Rv Rv2741
YP_001288684.1	Mapped to H37Rv Rv2742c
YP_001288685.1	Mapped to H37Rv Rv2743c
YP_001288686.1	Mapped to H37Rv Rv2744c
YP_001288687.1	Mapped to H37Rv Rv2745c
YP_001288688.1	Mapped to H37Rv Rv2746c
YP_001288689.1	catalyzes the conversion of l-glutamate to a-N-acetyl-l-glutamate in arginine biosynthesis
YP_001288690.1	Mapped to H37Rv Rv2748c
YP_001288691.1	Mapped to H37Rv Rv2749
YP_001288692.1	Catalyzes the first of the two reduction steps in the elongation cycle of fatty acid synthesis
YP_001288693.1	Mapped to H37Rv Rv2751
YP_001288694.1	Mapped to H37Rv Rv2752c
YP_001288695.1	catalyzes the formation of dihydrodipicolinate from L-aspartate 4-semialdehyde and pyruvate in lysine and diaminopimelate biosynthesis
YP_001288696.1	flavin dependent thymidylate synthase; ThyX; thymidylate synthase complementing protein; catalyzes the formation of dTMP and tetrahydrofolate from dUMP and methylenetetrahydrofolate; the enzyme from Mycobacterium tuberculosis forms homotetramers; uses FAD as a cofactor
YP_001288697.1	Mapped to H37Rv Rv2755c
YP_001288698.1	Mapped to H37Rv Rv2756c
YP_001288699.1	Mapped to H37Rv Rv2757c
YP_001288700.1	Mapped to H37Rv Rv2758c
YP_001288701.1	Mapped to H37Rv Rv2759c
YP_001288702.1	Mapped to H37Rv Rv2760c
YP_001288703.1	Mapped to H37Rv Rv2761c
YP_001288704.1	Mapped to H37Rv Rv2762c
YP_001288705.1	Mapped to H37Rv Rv2763c
YP_001288706.1	ThyA; catalyzes formation of dTMP and 7,8-dihydrofolate from 5,10-methylenetetrahydrofolate and dUMP; involved in deoxyribonucleotide biosynthesis; there are 2 copies in some Bacilli, one of which appears to be phage-derived
YP_001288707.1	Mapped to H37Rv Rv2765
YP_001288708.1	Catalyzes the first of the two reduction steps in the elongation cycle of fatty acid synthesis
YP_001288709.1	Mapped to H37Rv Rv2767c
YP_001288710.1	Mapped to H37Rv Rv2768c
YP_001288711.1	Mapped to H37Rv Rv2769c
YP_001288712.1	Mapped to H37Rv Rv2770c
YP_001288713.1	Mapped to H37Rv Rv2771c
YP_001288714.1	Mapped to H37Rv Rv2772c
YP_001288715.1	catalyzes the reduction of 2,3-dihydrodipicolinate to 2,3,4,5-tetrahydrodipicolinate in lysine and diaminopimelate biosynthesis
YP_001288716.1	Mapped to H37Rv Rv2774c
YP_001288717.1	Mapped to H37Rv Rv2775
YP_001288718.1	Mapped to H37Rv Rv2776c
YP_001288719.1	Mapped to H37Rv Rv2777c
YP_001288720.1	Mapped to H37Rv Rv2778c
YP_001288721.1	Mapped to H37Rv Rv2779c
YP_001288722.1	Mapped to H37Rv Rv2780
YP_001288723.1	Mapped to H37Rv Rv2781c
YP_001288724.1	Mapped to H37Rv Rv2782c
YP_001288725.1	Mapped to H37Rv Rv2783c
YP_001288726.1	Mapped to H37Rv Rv2784c
YP_001288727.1	primary rRNA binding protein; helps nucleate assembly of 30S; binds directly to the 16S rRNA and an intersubunit bridge to the 23S rRNA; autoregulates translation through interactions with the mRNA leader sequence
YP_001288728.1	catalyzes the formation of FMN from riboflavin and the formation of FAD from FMN; in Bacillus the ribC gene has both flavokinase and FAD synthetase activities
YP_001288729.1	Mapped to H37Rv Rv2787
YP_001288730.1	Mapped to H37Rv Rv2788
YP_001288731.1	Mapped to H37Rv Rv2789c
YP_001288732.1	Mapped to H37Rv Rv2790c
YP_001288733.1	Mapped to H37Rv Rv2791c
YP_001288734.1	Mapped to H37Rv Rv2792c
YP_001288735.1	catalyzes isomerization of specific uridines in RNA to pseudouridine; responsible for residues in T loops of many tRNAs
YP_001288736.1	Mapped to H37Rv Rv2794c
YP_001288737.1	Mapped to H37Rv Rv2795c
YP_001288738.1	Mapped to H37Rv Rv2796c
YP_001288739.1	Mapped to H37Rv Rv2797c
YP_001288740.1	Mapped to H37Rv Rv2798c
YP_001288741.1	Mapped to H37Rv Rv2799
YP_001288742.1	Mapped to H37Rv Rv2800
YP_001288743.1	Mapped to H37Rv Rv2801c
YP_001288745.1	Mapped to H37Rv Rv2802c
YP_001288746.1	Mapped to H37Rv Rv2803
YP_001288748.1	Mapped to H37Rv Rv2805
YP_001288749.1	Mapped to H37Rv Rv2806
YP_001288750.1	Mapped to H37Rv Rv2807
YP_001288751.1	Mapped to H37Rv Rv2808
YP_001288752.1	Mapped to H37Rv Rv2809
YP_001288753.1	Mapped to H37Rv Rv2810c
YP_001288754.1	Mapped to H37Rv Rv2811
YP_001288755.1	Mapped to H37Rv Rv2812
YP_001288756.1	Mapped to H37Rv Rv2813
YP_001288757.1	Mapped to H37Rv Rv2814c
YP_001288758.1	Mapped to H37Rv Rv2815c
YP_001288759.1	Mapped to H37Rv Rv2816c
YP_001288760.1	Mapped to H37Rv Rv2817c
YP_001288761.1	Mapped to H37Rv Rv2818c
YP_001288762.1	Mapped to H37Rv Rv2819c
YP_001288763.1	Mapped to H37Rv Rv2820c
YP_001288764.1	Mapped to H37Rv Rv2821c
YP_001288765.1	Mapped to H37Rv Rv2822c
YP_001288766.1	Mapped to H37Rv Rv2823c
YP_001288767.1	Mapped to H37Rv Rv2824c
YP_001288768.1	Mapped to H37Rv Rv2825c
YP_001288769.1	Mapped to H37Rv Rv2826c
YP_001288770.1	Mapped to H37Rv Rv2827c
YP_001288771.1	Mapped to H37Rv Rv2828c
YP_001288772.1	Mapped to H37Rv Rv2828c
YP_001288773.1	Mapped to H37Rv Rv2829c
YP_001288774.1	Mapped to H37Rv Rv2830c
YP_001288775.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001288776.1	Mapped to H37Rv Rv2832c
YP_001288777.1	Mapped to H37Rv Rv2833c
YP_001288778.1	Mapped to H37Rv Rv2834c
YP_001288779.1	Mapped to H37Rv Rv2835c
YP_001288780.1	Mapped to H37Rv Rv2836c
YP_001288781.1	Mapped to H37Rv Rv2837c
YP_001288782.1	associates with free 30S ribosomal subunits; essential for efficient processing of 16S rRNA; in Escherichia coli rbfA is induced by cold shock
YP_001288783.1	Protects formylmethionyl-tRNA from spontaneous hydrolysis and promotes its binding to the 30S ribosomal subunits during initiation of protein synthesis. Also involved in the hydrolysis of GTP during the formation of the 70S ribosomal complex
YP_001288784.1	Mapped to H37Rv Rv2840c
YP_001288785.1	modifies transcription through interactions with RNA polymerase affecting elongation, readthrough, termination, and antitermination
YP_001288786.1	in Streptococcus pneumoniae this gene was found to be essential; structure determination of the Streptococcus protein shows that it is similar to a number of other proteins
YP_001288787.1	Mapped to H37Rv Rv2843
YP_001288788.1	Mapped to H37Rv Rv2844
YP_001288789.1	catalyzes the formation of prolyl-tRNA(Pro) from proline and tRNA(Pro)
YP_001288790.1	Mapped to H37Rv Rv2846c
YP_001288791.1	Mapped to H37Rv Rv2847c
YP_001288792.1	responsible for the amidation of carboxylic groups at position A and C of cobyrinic acid or hydrogenobrynic acid
YP_001288793.1	catalyzes the formation of adenosylcob(III)yrinic acid a,c-diamide from cob(I)yrinic acid a,c-diamide
YP_001288794.1	Mapped to H37Rv Rv2850c
YP_001288795.1	Mapped to H37Rv Rv2851c
YP_001288796.1	malate dehydrogenase; catalyzes the oxidation of malate to oxaloacetate
YP_001288797.1	Mapped to H37Rv Rv2853
YP_001288798.1	Mapped to H37Rv Rv2854
YP_001288799.1	catalyzes the reduction of mycothione or glutathione to mycothione or glutathione disulfide
YP_001288800.1	Mapped to H37Rv Rv2856
YP_001288801.1	Mapped to H37Rv Rv2856
YP_001288802.1	Mapped to H37Rv Rv2857c
YP_001288803.1	Mapped to H37Rv Rv2858c
YP_001288804.1	Mapped to H37Rv Rv2859c
YP_001288805.1	Mapped to H37Rv Rv2860c
YP_001288806.1	catalyzes the removal of N-terminal amino acids from peptides and arylamides; generally Co(II) however activity has been shown for some methionine aminopeptidases with Zn, Fe, or Mnin Bacillus subtilis the protein in this cluster is considered non-essential
YP_001288807.1	Mapped to H37Rv Rv2862c
YP_001288808.1	Mapped to H37Rv Rv2863
YP_001288809.1	Mapped to H37Rv Rv2864c
YP_001288810.1	Mapped to H37Rv Rv2865
YP_001288811.1	Mapped to H37Rv Rv2866
YP_001288812.1	Mapped to H37Rv Rv2867c
YP_001288813.1	catalyzes the conversion of 2C-methyl-D-erythritol 2,4-cyclodiphosphate into 4-hydroxy-3-methyl-2-en-1-yl diphosphate; involved in isoprenoid synthesis
YP_001288814.1	Mapped to H37Rv Rv2869c
YP_001288815.1	catalyzes the NADP-dependent rearrangement and reduction of 1-deoxy-D-xylulose-5-phosphate (DXP) to 2-C-methyl-D-erythritol 4-phosphate
YP_001288816.1	Mapped to H37Rv Rv2872
YP_001288817.1	Mapped to H37Rv Rv2873
YP_001288818.1	Mapped to H37Rv Rv2874
YP_001288819.1	Mapped to H37Rv Rv2875
YP_001288820.1	Mapped to H37Rv Rv2876
YP_001288821.1	Mapped to H37Rv Rv2877c
YP_001288822.1	Mapped to H37Rv Rv2878c
YP_001288823.1	23S rRNA m2A2503 methyltransferase; methylates the C2 position of the A2530 nucleotide in 23S rRNA; may be involved in antibiotic resistance
YP_001288824.1	Mapped to H37Rv Rv2881c
YP_001288825.1	Rrf; Frr; ribosome-recycling factor; release factor 4; RF4; recycles ribosomes upon translation termination along with release factor RF-3 and elongation factor EF-G; A GTPase-dependent process results in release of 50S from 70S; inhibited by release factor RF-1; essential for viability; structurally similar to tRNAs
YP_001288826.1	Catalyzes the phosphorylation of UMP to UDP
YP_001288827.1	Mapped to H37Rv Rv2884
YP_001288828.1	Mapped to H37Rv Rv2885c
YP_001288829.1	Mapped to H37Rv Rv2886c
YP_001288830.1	Mapped to H37Rv Rv2887
YP_001288831.1	catalyzes the hydrolysis of a monocarboxylic acid amid to form a monocarboxylate and ammonia
YP_001288832.1	EF-Ts; functions during elongation stage of protein translation; forms a dimer; associates with EF-Tu-GDP complex and promotes exchange of GDP to GTP resulting in regeneration of the active form of EF-Tu
YP_001288833.1	one of the last subunits in the assembly of the 30S subunit; absence of S2 does not inhibit assembly but results in an inactive subunit
YP_001288834.1	Mapped to H37Rv Rv2891
YP_001288835.1	Mapped to H37Rv Rv2892c
YP_001288836.1	Mapped to H37Rv Rv2893
YP_001288837.1	site-specific tyrosine recombinase which cuts and rejoins DNA molecules; binds cooperatively to specific DNA consensus sites; forms a heterotetrameric complex with XerC; XerCD exhibit similar sequences; essential to convert chromosome dimers to monomers during cell division and functions during plasmid segregation; cell division protein FtsK may regulate the XerCD complex; enzyme from Streptococcus group has unusual active site motifs
YP_001288838.1	Mapped to H37Rv Rv2895c
YP_001288839.1	Mapped to H37Rv Rv2896c
YP_001288840.1	Mapped to H37Rv Rv2897c
YP_001288841.1	Mapped to H37Rv Rv2898c
YP_001288842.1	involved in the production or activity of formate dehydrogenase-H which is active when nitrate is not present during anaerobic growth
YP_001288843.1	Mapped to H37Rv Rv2900c
YP_001288844.1	Mapped to H37Rv Rv2901c
YP_001288845.1	RNH2; RNase HII; binds manganese; endonuclease which specifically degrades the RNA of RNA-DNA hybrids
YP_001288846.1	Mapped to H37Rv Rv2903c
YP_001288847.1	this protein is located at the 30S-50S ribosomal subunit interface and may play a role in the structure and function of the aminoacyl-tRNA binding site
YP_001288848.1	Mapped to H37Rv Rv2905
YP_001288849.1	methylates guanosine-37 in various tRNAs; uses S-adenosyl-L-methionine to transfer methyl group to tRNA
YP_001288850.1	Essential for efficient processing of 16S rRNA
YP_001288851.1	Mapped to H37Rv Rv2908c
YP_001288852.1	binds to lower part of 30S body where it stabilizes two domains; required for efficient assembly of 30S; in Escherichia coli this protein has nuclease activity
YP_001288853.1	Mapped to H37Rv Rv2910c
YP_001288854.1	Mapped to H37Rv Rv2911
YP_001288855.1	Mapped to H37Rv Rv2912c
YP_001288856.1	Mapped to H37Rv Rv2913c
YP_001288857.1	Mapped to H37Rv Rv2914c
YP_001288858.1	Mapped to H37Rv Rv2915c
YP_001288859.1	Mapped to H37Rv Rv2916c
YP_001288860.1	Mapped to H37Rv Rv2917
YP_001288861.1	catalyzes the uridylylation or deuridylylation of the PII nitrogen regulatory protein; also involved in adenylylating and deadelnylyating GlnK
YP_001288862.1	Mapped to H37Rv Rv2919c
YP_001288863.1	Mapped to H37Rv Rv2920c
YP_001288864.1	Mapped to H37Rv Rv2921c
YP_001288865.1	Mapped to H37Rv Rv2922c
YP_001288866.1	catalyzes the hydrolysis of acylphosphate
YP_001288867.1	Mapped to H37Rv Rv2923c
YP_001288868.1	Involved in base excision repair of DNA damaged by oxidation or by mutagenic agents. Acts as DNA glycosylase that recognizes and removes damaged bases
YP_001288869.1	cytoplasmic enzyme involved in processing rRNA and some mRNAs; substrates typically have dsRNA regions; forms a homodimer; have N-terminal nuclease and C-terminal RNA-binding domains; requires magnesium as preferred ion for activity
YP_001288870.1	Mapped to H37Rv Rv2926c
YP_001288871.1	Mapped to H37Rv Rv2927c
YP_001288872.1	Mapped to H37Rv Rv2928
YP_001288873.1	activates fatty acids by binding to coenzyme A
YP_001288874.1	Mapped to H37Rv Rv2931
YP_001288875.1	Mapped to H37Rv Rv2932
YP_001288876.1	Mapped to H37Rv Rv2933
YP_001288877.1	Mapped to H37Rv Rv2934
YP_001288878.1	Mapped to H37Rv Rv2935
YP_001288879.1	Mapped to H37Rv Rv2936
YP_001288880.1	Mapped to H37Rv Rv2937
YP_001288881.1	Mapped to H37Rv Rv2938
YP_001288882.1	required for PDIM synthesis; phthiocerol and phthiodiolone dimycocerosate esters are scaffolds used for virulence-enhancing lipids; proposed to catalyze diesterification of phthiocerol and phthiodolone with mycocerosate; functions in polyketide synthesis
YP_001288883.1	Mapped to H37Rv Rv2940c
YP_001288884.1	activates fatty acids by binding to coenzyme A
YP_001288885.1	Mapped to H37Rv Rv2942
YP_001288886.1	Mapped to H37Rv Rv2943
YP_001288887.1	Mapped to H37Rv Rv2944
YP_001288888.1	Mapped to H37Rv Rv2945c
YP_001288889.1	Mapped to H37Rv Rv2946c
YP_001288890.1	Mapped to H37Rv Rv2947c
YP_001288891.1	activates fatty acids by binding to coenzyme A
YP_001288892.1	Mapped to H37Rv Rv2949c
YP_001288893.1	activates fatty acids by binding to coenzyme A
YP_001288894.1	Mapped to H37Rv Rv2951c
YP_001288895.1	Mapped to H37Rv Rv2952
YP_001288896.1	Mapped to H37Rv Rv2953
YP_001288897.1	Mapped to H37Rv Rv2954c
YP_001288898.1	Mapped to H37Rv Rv2955c
YP_001288899.1	Mapped to H37Rv Rv2956
YP_001288900.1	Mapped to H37Rv Rv2957
YP_001288901.1	Mapped to H37Rv Rv2958c
YP_001288902.1	Mapped to H37Rv Rv2959c
YP_001288903.1	Mapped to H37Rv Rv2960c
YP_001288904.1	Mapped to H37Rv Rv2961
YP_001288905.1	Mapped to H37Rv Rv2962c
YP_001288906.1	Mapped to H37Rv Rv2963
YP_001288907.1	produces formate from formyl-tetrahydrofolate which is the major source of formate for PurT in de novo purine nucleotide biosynthesis; has a role in one-carbon metabolism; forms a homohexamer; activated by methionine and inhibited by glycine
YP_001288909.1	Catalyzes the conversion of ATP and pantetheine 4'-phosphate to diphosphate and 3'-dephospho-coA
YP_001288910.1	Mapped to H37Rv Rv2966c
YP_001288911.1	biotin-containing enzyme that catalyzes a two step carboxylation of pyruvate to oxaloacetate
YP_001288912.1	Mapped to H37Rv Rv2968c
YP_001288913.1	Mapped to H37Rv Rv2969c
YP_001288914.1	Mapped to H37Rv Rv2970c
YP_001288915.1	Mapped to H37Rv Rv2971
YP_001288916.1	Mapped to H37Rv Rv2972c
YP_001288917.1	catalyzes branch migration in Holliday junction intermediates
YP_001288918.1	Mapped to H37Rv Rv2974c
YP_001288919.1	required for 70S ribosome assembly
YP_001288920.1	Excises uracil residues from the DNA which can arise as a result of misincorporation of dUMP residues by DNA polymerase or due to deamination of cytosine
YP_001288921.1	catalyzes the formation of thiamine diphosphate from thiamine phosphate ant ATP
YP_001288922.1	Mapped to H37Rv Rv2978c
YP_001288923.1	Mapped to H37Rv Rv2979c
YP_001288924.1	Mapped to H37Rv Rv2980
YP_001288925.1	D-alanine--D-alanine ligase; DdlA; DdlB; cytoplasmic; catalyzes the formation of D-alanyl-D-alanine from two D-alanines in peptidoglycan synthesis; there are two forms of this enzyme in Escherichia coli
YP_001288926.1	catalyzes the NAD(P)H-dependent reduction of glycerol 3-phosphate to glycerone phosphate
YP_001288927.1	Mapped to H37Rv Rv2983
YP_001288928.1	catalyzes the reversible transfer of the terminal phosphate of ATP to form a long chain polyphosphate
YP_001288929.1	Mapped to H37Rv Rv2985
YP_001288930.1	Mapped to H37Rv Rv2986c
YP_001288931.1	catalyzes the isomerization between 2-isopropylmalate and 3-isopropylmalate in leucine biosynthesis; forms a heterodimer of LeuC/D
YP_001288932.1	dehydratase component, catalyzes the isomerization between 2-isopropylmalate and 3-isopropylmalate
YP_001288933.1	Mapped to H37Rv Rv2989
YP_001288934.1	Mapped to H37Rv Rv2990c
YP_001288935.1	Mapped to H37Rv Rv2991
YP_001288936.1	Charges one glutamine molecule and pairs it to its corresponding RNA trinucleotide during protein translation
YP_001288937.1	Mapped to H37Rv Rv2993c
YP_001288938.1	Mapped to H37Rv Rv2994
YP_001288939.1	catalyzes the oxidation of 3-isopropylmalate to 3-carboxy-4-methyl-2-oxopentanoate in leucine biosynthesis
YP_001288940.1	catalyzes the formation of 3-phosphonooxypyruvate from 3-phospho-D-glycerate in serine biosynthesis; can also reduce alpha ketoglutarate to form 2-hydroxyglutarate
YP_001288941.1	Mapped to H37Rv Rv2997
YP_001288942.1	Mapped to H37Rv Rv2998
YP_001288943.1	Mapped to H37Rv Rv2999
YP_001288944.1	Mapped to H37Rv Rv3000
YP_001288945.1	catalyzes the formation of (R)-2,3-dihydroxy-3-methylbutanoate from (S)-2-hydroxy-2-methyl-3-oxobutanoate in valine and isoleucine biosynthesis
YP_001288946.1	with IlvI catalyzes the formation of 2-acetolactate from pyruvate, the small subunit is required for full activity and valine sensitivity; E.coli produces 3 isoenzymes of acetolactate synthase which differ in specificity to substrates, valine sensitivity and affinity for cofactors; also known as acetolactate synthase 3 small subunit
YP_001288947.1	acetolactate synthase large subunit; catalyzes the formation of 2-acetolactate from pyruvate
YP_001288948.1	Mapped to H37Rv Rv3004
YP_001288949.1	Mapped to H37Rv Rv3005c
YP_001288950.1	Mapped to H37Rv Rv3006
YP_001288951.1	Mapped to H37Rv Rv3007c
YP_001288952.1	Mapped to H37Rv Rv3008
YP_001288953.1	allows the formation of correctly charged Asn-tRNA(Asn) or Gln-tRNA(Gln) through the transamidation of misacylated Asp-tRNA(Asn) or Glu-tRNA(Gln) in organisms which lack either or both of asparaginyl-tRNA or glutaminyl-tRNA synthetases; reaction takes place in the presence of glutamine and ATP through an activated phospho-Asp-tRNA(Asn) or phospho-Glu-tRNA
YP_001288954.1	catalyzes the formation of D-fructose 1,6-bisphosphate from D-fructose 6-phosphate in glycolysis
YP_001288955.1	allows the formation of correctly charged Asn-tRNA(Asn) or Gln-tRNA(Gln) through the transamidation of misacylated Asp-tRNA(Asn) or Glu-tRNA(Gln) in organisms which lack either or both of asparaginyl-tRNA or glutaminyl-tRNA synthetases; reaction takes place in the presence of glutamine and ATP through an activated phospho-Asp-tRNA(Asn) or phospho-Glu-tRNA
YP_001288956.1	allows the formation of correctly charged Asn-tRNA(Asn) or Gln-tRNA(Gln) through the transamidation of misacylated Asp-tRNA(Asn) or Glu-tRNA(Gln) in organisms which lack either or both of asparaginyl-tRNA or glutaminyl-tRNA synthetases; reaction takes place in the presence of glutamine and ATP through an activated phospho-Asp-tRNA(Asn) or phospho-Glu-tRNA; some Mycoplasma proteins contain an N-terminal fusion to an unknown domain
YP_001288957.1	Mapped to H37Rv Rv3013
YP_001288958.1	this protein catalyzes the formation of phosphodiester linkages between 5'-phosphoryl and 3'-hydroxyl groups in double-stranded DNA using NAD as a coenzyme and as the energy source for the reaction; essential for DNA replication and repair of damaged DNA; similar to ligase LigB
YP_001288959.1	Mapped to H37Rv Rv3015c
YP_001288960.1	Mapped to H37Rv Rv3016
YP_001288961.1	Mapped to H37Rv Rv3017c
YP_001288962.1	Mapped to H37Rv Rv3018c
YP_001288963.1	Mapped to H37Rv Rv3018A
YP_001288964.1	Mapped to H37Rv Rv3019c
YP_001288965.1	Mapped to H37Rv Rv3020c
YP_001288966.1	Mapped to H37Rv Rv3022c
YP_001288967.1	Mapped to H37Rv Rv3022A
YP_001288968.1	Mapped to H37Rv Rv3023c
YP_001288969.1	catalyzes a sulfuration reaction to synthesize 2-thiouridine at the U34 position of tRNAs
YP_001288970.1	Mapped to H37Rv Rv3025c
YP_001288971.1	Mapped to H37Rv Rv3026c
YP_001288972.1	Mapped to H37Rv Rv3027c
YP_001288973.1	Mapped to H37Rv Rv3028c
YP_001288974.1	Mapped to H37Rv Rv3029c
YP_001288975.1	Mapped to H37Rv Rv3030
YP_001288976.1	Mapped to H37Rv Rv3031
YP_001288977.1	Mapped to H37Rv Rv3032
YP_001288978.1	Mapped to H37Rv Rv3033
YP_001288979.1	Mapped to H37Rv Rv3034c
YP_001288980.1	Mapped to H37Rv Rv3035
YP_001288981.1	Mapped to H37Rv Rv3036c
YP_001288982.1	Mapped to H37Rv Rv3037c
YP_001288983.1	Mapped to H37Rv Rv3038c
YP_001288984.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001288985.1	Mapped to H37Rv Rv3040c
YP_001288986.1	Mapped to H37Rv Rv3041c
YP_001288987.1	Mapped to H37Rv Rv3042c
YP_001288988.1	Mapped to H37Rv Rv3043c
YP_001288989.1	Mapped to H37Rv Rv3044
YP_001288990.1	Mapped to H37Rv Rv3045
YP_001288991.1	Mapped to H37Rv Rv3046c
YP_001288992.1	Mapped to H37Rv Rv3047c
YP_001288993.1	B2 or R2 protein; type 1b enzyme; catalyzes the rate-limiting step in dNTP synthesis; converts nucleotides to deoxynucleotides; forms a homodimer and then a multimeric complex with NrdE
YP_001288994.1	Mapped to H37Rv Rv3049c
YP_001288995.1	Mapped to H37Rv Rv3050c
YP_001288996.1	Catalyzes the rate-limiting step in dNTP synthesis
YP_001288997.1	in Salmonella NrdI has a stimulatory effect on the ribonucleotide reductase activity of NrdH with NrdEF
YP_001288998.1	Mapped to H37Rv Rv3053c
YP_001289000.1	Mapped to H37Rv Rv3054c
YP_001289001.1	Mapped to H37Rv Rv3055
YP_001289002.1	involved in translesion DNA polymerization with beta clamp of polymerase III; belongs to Y family of polymerases; does not contain proofreading function
YP_001289003.1	Mapped to H37Rv Rv3057c
YP_001289004.1	Mapped to H37Rv Rv3058c
YP_001289005.1	Mapped to H37Rv Rv3059
YP_001289006.1	Mapped to H37Rv Rv3060c
YP_001289007.1	Mapped to H37Rv Rv3061c
YP_001289008.1	catalyzes the ATP-dependent formation of a phosphodiester at the site of a single-strand break in duplex DNA
YP_001289009.1	Mapped to H37Rv Rv3063
YP_001289010.1	Mapped to H37Rv Rv3064c
YP_001289011.1	Mapped to H37Rv Rv3065
YP_001289012.1	Mapped to H37Rv Rv3066
YP_001289013.1	Mapped to H37Rv Rv3067
YP_001289014.1	catalyzes the interconversion of alpha-D-glucose 1-phosphate to alpha-D-glucose 6-phosphate
YP_001289015.1	may be involved in chromosome condensation; overexpression in Escherichia coli protects against decondensation by camphor; overexpressing the protein results in an increase in supercoiling
YP_001289016.1	may be involved in chromosome condensation; overexpression in Escherichia coli protects against decondensation by camphor; overexpressing the protein results in an increase in supercoiling
YP_001289017.1	Mapped to H37Rv Rv3071
YP_001289018.1	Mapped to H37Rv Rv3072c
YP_001289019.1	Mapped to H37Rv Rv3073c
YP_001289020.1	Mapped to H37Rv Rv3074
YP_001289021.1	Mapped to H37Rv Rv3075c
YP_001289022.1	Mapped to H37Rv Rv3076
YP_001289023.1	Mapped to H37Rv Rv3077
YP_001289024.1	Mapped to H37Rv Rv3078
YP_001289025.1	Mapped to H37Rv Rv3079c
YP_001289026.1	Mapped to H37Rv Rv3080c
YP_001289027.1	Mapped to H37Rv Rv3081
YP_001289028.1	Mapped to H37Rv Rv3082c
YP_001289029.1	Mapped to H37Rv Rv3083
YP_001289030.1	Mapped to H37Rv Rv3084
YP_001289031.1	Mapped to H37Rv Rv3085
YP_001289032.1	Mapped to H37Rv Rv3086
YP_001289033.1	Mapped to H37Rv Rv3087
YP_001289034.1	Mapped to H37Rv Rv3088
YP_001289035.1	Mapped to H37Rv Rv3089
YP_001289036.1	Mapped to H37Rv Rv3090
YP_001289037.1	Mapped to H37Rv Rv3091
YP_001289038.1	Mapped to H37Rv Rv3092c
YP_001289039.1	Mapped to H37Rv Rv3093c
YP_001289040.1	Mapped to H37Rv Rv3094c
YP_001289041.1	Mapped to H37Rv Rv3095
YP_001289042.1	Mapped to H37Rv Rv3096
YP_001289043.1	Mapped to H37Rv Rv3097c
YP_001289044.1	Mapped to H37Rv Rv3098c
YP_001289045.1	Mapped to H37Rv Rv3099c
YP_001289046.1	binds to ssrA RNA (tmRNA) and is required for its successful binding to ribosomes; also appears to function in the trans-translation step by promoting accommodation of tmRNA into the ribosomal A site; SmpB protects the tmRNA from RNase R degradation in Caulobacter crescentus; both the tmRNA and SmpB are regulated in cell cycle-dependent manner; functions in release of stalled ribosomes from damaged mRNAs and targeting proteins for degradation
YP_001289047.1	Mapped to H37Rv Rv3101c
YP_001289048.1	Mapped to H37Rv Rv3102c
YP_001289049.1	Mapped to H37Rv Rv3103c
YP_001289050.1	Mapped to H37Rv Rv3104c
YP_001289051.1	recognizes the termination signals UGA and UAA during protein translation a specificity which is dependent on amino acid residues residing in loops of the L-shaped tRNA-like molecule of RF2; in some organisms control of PrfB protein levels is maintained through a +1 ribosomal frameshifting mechanism; this protein is similar to release factor 1
YP_001289052.1	Mapped to H37Rv Rv3106
YP_001289053.1	Mapped to H37Rv Rv3107c
YP_001289054.1	Mapped to H37Rv Rv3108
YP_001289055.1	Mapped to H37Rv Rv3109
YP_001289056.1	Mapped to H37Rv Rv3110
YP_001289057.1	MoaC; along with MoaA is involved in conversion of a guanosine derivative into molybdopterin precursor Z; involved in molybdenum cofactor biosynthesis
YP_001289058.1	Mapped to H37Rv Rv3112
YP_001289061.1	Mapped to H37Rv Rv3114
YP_001289062.1	Mapped to H37Rv Rv3115
YP_001289063.1	Mapped to H37Rv Rv3116
YP_001289064.1	Mapped to H37Rv Rv3117
YP_001289065.1	Mapped to H37Rv Rv3118
YP_001289066.1	Mapped to H37Rv Rv3119
YP_001289067.1	Mapped to H37Rv Rv3120
YP_001289068.1	Mapped to H37Rv Rv3121
YP_001289069.1	Mapped to H37Rv Rv3122
YP_001289070.1	Mapped to H37Rv Rv3123
YP_001289071.1	Mapped to H37Rv Rv3124
YP_001289072.1	Mapped to H37Rv Rv3125c
YP_001289073.1	Mapped to H37Rv Rv3126c
YP_001289074.1	Mapped to H37Rv Rv3127
YP_001289075.1	Mapped to H37Rv Rv3128c
YP_001289076.1	Mapped to H37Rv Rv3128c
YP_001289077.1	Mapped to H37Rv Rv3129
YP_001289078.1	Mapped to H37Rv Rv3130c
YP_001289079.1	Mapped to H37Rv Rv3131
YP_001289080.1	Mapped to H37Rv Rv3132c
YP_001289081.1	Mapped to H37Rv Rv3133c
YP_001289082.1	Mapped to H37Rv Rv3134c
YP_001289083.1	Mapped to H37Rv Rv3135
YP_001289084.1	Mapped to H37Rv Rv3136
YP_001289085.1	Mapped to H37Rv Rv3137
YP_001289086.1	Mapped to H37Rv Rv3138
YP_001289087.1	Mapped to H37Rv Rv3139
YP_001289088.1	Mapped to H37Rv Rv3140
YP_001289089.1	Mapped to H37Rv Rv3141
YP_001289090.1	Mapped to H37Rv Rv3142c
YP_001289091.1	Mapped to H37Rv Rv3143
YP_001289092.1	Mapped to H37Rv Rv3144c
YP_001289093.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289094.1	The point of entry for the majority of electrons that traverse the respiratory chain eventually resulting in the reduction of oxygen
YP_001289095.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289096.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289097.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289098.1	Mapped to H37Rv Rv3150
YP_001289099.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289100.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289101.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289102.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289103.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289104.1	Catalyzes the transfer of electrons from NADH to ubiquinone
YP_001289105.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289106.1	Catalyzes the transfer of electrons from NADH to quinone
YP_001289107.1	Mapped to H37Rv Rv3159c
YP_001289108.1	Mapped to H37Rv Rv3160c
YP_001289109.1	Mapped to H37Rv Rv3161c
YP_001289110.1	Mapped to H37Rv Rv3162c
YP_001289111.1	Mapped to H37Rv Rv3163c
YP_001289112.1	Mapped to H37Rv Rv3164c
YP_001289113.1	Mapped to H37Rv Rv3165c
YP_001289114.1	Mapped to H37Rv Rv3166c
YP_001289115.1	Mapped to H37Rv Rv3167c
YP_001289116.1	Mapped to H37Rv Rv3168
YP_001289117.1	Mapped to H37Rv Rv3169
YP_001289118.1	Mapped to H37Rv Rv3170
YP_001289119.1	Mapped to H37Rv Rv3171c
YP_001289120.1	Mapped to H37Rv Rv3172c
YP_001289121.1	Mapped to H37Rv Rv3173c
YP_001289122.1	Mapped to H37Rv Rv3174
YP_001289123.1	catalyzes the hydrolysis of a monocarboxylic acid amid to form a monocarboxylate and ammonia
YP_001289124.1	Mapped to H37Rv Rv3176c
YP_001289125.1	Mapped to H37Rv Rv3177
YP_001289126.1	Mapped to H37Rv Rv3178
YP_001289128.1	Mapped to H37Rv Rv3179
YP_001289129.1	Mapped to H37Rv Rv3180c
YP_001289130.1	Mapped to H37Rv Rv3181c
YP_001289131.1	Mapped to H37Rv Rv3182
YP_001289132.1	Mapped to H37Rv Rv3183
YP_001289133.1	Mapped to H37Rv Rv3183
YP_001289135.1	Mapped to H37Rv Rv3188
YP_001289136.1	Mapped to H37Rv Rv3189
YP_001289137.1	Mapped to H37Rv Rv3190c
YP_001289138.1	Mapped to H37Rv Rv3191c
YP_001289139.1	Mapped to H37Rv Rv3192
YP_001289140.1	Mapped to H37Rv Rv3193c
YP_001289141.1	Mapped to H37Rv Rv3194c
YP_001289142.1	Mapped to H37Rv Rv3195
YP_001289143.1	Mapped to H37Rv Rv3196
YP_001289144.1	Mapped to H37Rv Rv3196A
YP_001289145.1	Mapped to H37Rv Rv3197
YP_001289146.1	Mapped to H37Rv Rv3197A
YP_001289147.1	Mapped to H37Rv Rv3198c
YP_001289148.1	Mapped to H37Rv Rv3198A
YP_001289149.1	can catalyze hydrolysis of broad range of dinucleotide pyrophosphates but prefers reduced form of NADH; requires divalent metal ions such as magnesium and manganese and produces two mononucleoside 5'-phosphates
YP_001289150.1	Mapped to H37Rv Rv3200c
YP_001289151.1	Mapped to H37Rv Rv3201c
YP_001289152.1	Mapped to H37Rv Rv3202c
YP_001289153.1	Mapped to H37Rv Rv3202c
YP_001289154.1	Mapped to H37Rv Rv3203
YP_001289155.1	Mapped to H37Rv Rv3204
YP_001289156.1	Mapped to H37Rv Rv3205c
YP_001289157.1	The proteins in this cluster have high sequence similarity to MoeB and are possibly involved in the synthesis of molybdopterin, but there has been no biochemical or physiological characterization. There is also no genetic linkage to other molybdopterin cofactor synthesis proteins. These proteins are similar to a Pseudomonas stutzeri protein which is essential to pyridine-2,6-bis(thiocarboxylic acid) synthesis that possibly activates a substrate by adenylation
YP_001289158.1	Mapped to H37Rv Rv3207c
YP_001289159.1	Mapped to H37Rv Rv3208
YP_001289160.1	Mapped to H37Rv Rv3208A
YP_001289162.1	Mapped to H37Rv Rv3209
YP_001289163.1	Mapped to H37Rv Rv3210c
YP_001289164.1	Mapped to H37Rv Rv3211
YP_001289165.1	Mapped to H37Rv Rv3212
YP_001289166.1	Mapped to H37Rv Rv3213c
YP_001289167.1	forms a homodimer in Mycobacterium tuberculosis; belongs to the dPGM superfamily
YP_001289168.1	Mapped to H37Rv Rv3215
YP_001289169.1	Mapped to H37Rv Rv3216
YP_001289170.1	Mapped to H37Rv Rv3217c
YP_001289171.1	Mapped to H37Rv Rv3218
YP_001289172.1	Mapped to H37Rv Rv3219
YP_001289173.1	Mapped to H37Rv Rv3220c
YP_001289174.1	Mapped to H37Rv Rv3221c
YP_001289175.1	Mapped to H37Rv Rv3221A
YP_001289176.1	Mapped to H37Rv Rv3222c
YP_001289177.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription; this sigma factor is involved in heat shock and oxidative stress response
YP_001289178.1	Mapped to H37Rv Rv3224
YP_001289179.1	Mapped to H37Rv Rv3224A
YP_001289180.1	Mapped to H37Rv Rv3224B
YP_001289181.1	Mapped to H37Rv Rv3225c
YP_001289182.1	Mapped to H37Rv Rv3226c
YP_001289183.1	catalyzes the formation of 5-O-(1-carboxyvinyl)-3-phosphoshikimate from phosphoenolpyruvate and 3-phosphoshikimate in tryptophan biosynthesis
YP_001289184.1	Mapped to H37Rv Rv3228
YP_001289185.1	Mapped to H37Rv Rv3229c
YP_001289186.1	Mapped to H37Rv Rv3230c
YP_001289187.1	Mapped to H37Rv Rv3231c
YP_001289188.1	Mapped to H37Rv Rv3232c
YP_001289189.1	Mapped to H37Rv Rv3233c
YP_001289190.1	Mapped to H37Rv Rv3234c
YP_001289191.1	Mapped to H37Rv Rv3235
YP_001289192.1	Mapped to H37Rv Rv3236c
YP_001289193.1	Mapped to H37Rv Rv3237c
YP_001289194.1	Mapped to H37Rv Rv3238c
YP_001289195.1	Mapped to H37Rv Rv3239c
YP_001289196.1	functions in protein export; can interact with acidic membrane phospholipids and the SecYEG protein complex; binds to preproteins; binds to ATP and undergoes a conformational change to promote membrane insertion of SecA/bound preprotein; ATP hydrolysis appears to drive release of the preprotein from SecA and deinsertion of SecA from the membrane; additional proteins SecD/F/YajC aid SecA recycling; exists in an equilibrium between monomers and dimers; may possibly form higher order oligomers; proteins in this cluster correspond SecA1; SecA2 is not essential and seems to play a role in secretion of a subset of proteins
YP_001289197.1	Mapped to H37Rv Rv3241c
YP_001289198.1	Mapped to H37Rv Rv3242c
YP_001289199.1	Mapped to H37Rv Rv3243c
YP_001289200.1	Mapped to H37Rv Rv3244c
YP_001289201.1	Mapped to H37Rv Rv3245c
YP_001289202.1	Mapped to H37Rv Rv3246c
YP_001289203.1	catalyzes the reversible phosphoryl transfer from adenosine triphosphate (ATP) to thymidine monophosphate (dTMP) to form thymidine diphosphate (dTDP)
YP_001289204.1	catalyzes the formation of L-homocysteine from S-adenosyl-L-homocysteine
YP_001289205.1	Mapped to H37Rv Rv3249c
YP_001289206.1	Mapped to H37Rv Rv3250c
YP_001289207.1	Mapped to H37Rv Rv3251c
YP_001289208.1	Mapped to H37Rv Rv3252c
YP_001289209.1	Mapped to H37Rv Rv3253c
YP_001289210.1	Mapped to H37Rv Rv3254
YP_001289211.1	Mapped to H37Rv Rv3255c
YP_001289212.1	Mapped to H37Rv Rv3256c
YP_001289213.1	converts mannose-6-phosphate to mannose-1-phosphate; the resulting product is then converted to GDP-mannose by ManC which is then used in the synthesis of mannose-containing glycoconjugates that are important for mediating entry into host cells
YP_001289214.1	Mapped to H37Rv Rv3258c
YP_001289215.1	Mapped to H37Rv Rv3259
YP_001289216.1	Mapped to H37Rv Rv3260c
YP_001289217.1	catalyzes the formation of the L-lactyl phosphodiester of 7,8-didemethyl-8-hydroxy-5-deazariboflavin (F420-0) and GMP from actyl (2) diphospho-(5')guanosine (LPPG) to 7,8-didemethyl-8-hydroxy-5-deazariboflavin (FO)
YP_001289218.1	catalyzes the addition of gamma linked glutamate to 7,8-didemethyl-8-hydroxy-5-deazariboflavin coenzyme F420-0)
YP_001289219.1	Mapped to H37Rv Rv3263
YP_001289220.1	Mapped to H37Rv Rv3264c
YP_001289221.1	Mapped to H37Rv Rv3265c
YP_001289222.1	Mapped to H37Rv Rv3266c
YP_001289223.1	Mapped to H37Rv Rv3267
YP_001289224.1	Mapped to H37Rv Rv3268
YP_001289225.1	Mapped to H37Rv Rv3269
YP_001289226.1	Mapped to H37Rv Rv3270
YP_001289227.1	Mapped to H37Rv Rv3271c
YP_001289228.1	Mapped to H37Rv Rv3272
YP_001289229.1	Mapped to H37Rv Rv3273
YP_001289230.1	Mapped to H37Rv Rv3274c
YP_001289231.1	Mapped to H37Rv Rv3275c
YP_001289232.1	With PurE catalyzes the conversion of aminoimidazole ribonucleotide to carboxyaminoimidazole ribonucleotide in the de novo purine nucleotide biosynthetic pathway
YP_001289233.1	Mapped to H37Rv Rv3277
YP_001289234.1	Mapped to H37Rv Rv3278c
YP_001289235.1	Mapped to H37Rv Rv3279c
YP_001289236.1	Mapped to H37Rv Rv3280
YP_001289237.1	Mapped to H37Rv Rv3281
YP_001289238.1	Maf; overexpression in Bacillus subtilis inhibits septation in the dividing cell
YP_001289239.1	Mapped to H37Rv Rv3283
YP_001289240.1	Mapped to H37Rv Rv3284
YP_001289241.1	Mapped to H37Rv Rv3285
YP_001289242.1	Sigma factors are initiation factors that promote the attachment of RNA polymerase to specific initiation sites and are then released; this sigma factor is a general stress response regulator; expressed in stationary phase and under nitrogen depletion and cold shock
YP_001289243.1	Mapped to H37Rv Rv3287c
YP_001289244.1	Mapped to H37Rv Rv3288c
YP_001289245.1	Mapped to H37Rv Rv3289c
YP_001289246.1	catalyzes the formation of 2-aminoadipate 6-semiladehyde and glutamate from lysine and 2-oxoglutarate
YP_001289247.1	Mapped to H37Rv Rv3291c
YP_001289248.1	Mapped to H37Rv Rv3292
YP_001289249.1	Mapped to H37Rv Rv3293
YP_001289250.1	Mapped to H37Rv Rv3294c
YP_001289251.1	Mapped to H37Rv Rv3295
YP_001289252.1	Mapped to H37Rv Rv3296
YP_001289253.1	Mapped to H37Rv Rv3297
YP_001289254.1	Mapped to H37Rv Rv3298c
YP_001289255.1	Mapped to H37Rv Rv3299c
YP_001289256.1	Mapped to H37Rv Rv3300c
YP_001289257.1	Mapped to H37Rv Rv3301c
YP_001289258.1	Mapped to H37Rv Rv3302c
YP_001289259.1	catalyzes the reduction of nonspecific electron acceptors such as 2,6-dimethyl-1,4-benzoquinone and 5-hydroxy-1,4-naphthaquinone; does not have lipoamide dehydrogenase activity
YP_001289260.1	Mapped to H37Rv Rv3304
YP_001289261.1	Mapped to H37Rv Rv3305c
YP_001289262.1	Mapped to H37Rv Rv3306c
YP_001289263.1	catalyzes the formation of a purine and ribose phosphate from a purine nucleoside; in E. coli this enzyme functions in xanthosine degradation
YP_001289264.1	Mapped to H37Rv Rv3308
YP_001289265.1	Catalyzes the formation of uracil and 5-phospho-alpha-D-ribosy 1-diphosphate from UMP and diphosphate
YP_001289266.1	Mapped to H37Rv Rv3310
YP_001289267.1	Mapped to H37Rv Rv3311
YP_001289268.1	Mapped to H37Rv Rv3312c
YP_001289269.1	Mapped to H37Rv Rv3312c
YP_001289270.1	Mapped to H37Rv Rv3312A
YP_001289271.1	catalyzes the formation of inosine from adenosine
YP_001289272.1	Catalyzes the reversible phosphorolysis of thymidine, deoxyuridine and their analogues to their respective bases and 2-deoxyribose 1-phosphate
YP_001289273.1	Reclaims exogenous and endogenous cytidine and 2'-deoxycytidine molecules for UMP synthesis
YP_001289274.1	Mapped to H37Rv Rv3316
YP_001289275.1	Mapped to H37Rv Rv3317
YP_001289276.1	part of four member succinate dehydrogenase enzyme complex that forms a trimeric complex (trimer of tetramers); SdhA/B are the catalytic subcomplex and can exhibit succinate dehydrogenase activity in the absence of SdhC/D which are the membrane components and form cytochrome b556; SdhC binds ubiquinone; oxidizes succinate to fumarate while reducing ubiquinone to ubiquinol
YP_001289277.1	part of four member succinate dehydrogenase enzyme complex that forms a trimeric complex (trimer of tetramers); SdhA/B are the catalytic subcomplex and can exhibit succinate dehydrogenase activity in the absence of SdhC/D which are the membrane components and form cytochrome b556; SdhC binds ubiquinone; oxidizes succinate to fumarate while reducing ubiquinone to ubiquinol; the catalytic subunits are similar to fumarate reductase
YP_001289278.1	Mapped to H37Rv Rv3320c
YP_001289279.1	Mapped to H37Rv Rv3321c
YP_001289280.1	Mapped to H37Rv Rv3322c
YP_001289281.1	Mapped to H37Rv Rv3323c
YP_001289282.1	MoaC; along with MoaA is involved in conversion of a guanosine derivative into molybdopterin precursor Z; involved in molybdenum cofactor biosynthesis
YP_001289283.1	Mapped to H37Rv Rv3324A
YP_001289284.1	Mapped to H37Rv Rv3324A
YP_001289286.1	Mapped to H37Rv Rv3327
YP_001289287.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription
YP_001289288.1	Mapped to H37Rv Rv3329
YP_001289289.1	Mapped to H37Rv Rv3330
YP_001289290.1	Mapped to H37Rv Rv3331
YP_001289291.1	Mapped to H37Rv Rv3332
YP_001289292.1	Mapped to H37Rv Rv3333c
YP_001289294.1	Mapped to H37Rv Rv3334
YP_001289295.1	Mapped to H37Rv Rv3335c
YP_001289296.1	catalyzes a two-step reaction, first charging a tryptophan molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA
YP_001289297.1	Mapped to H37Rv Rv3337
YP_001289298.1	Converts isocitrate to alpha ketoglutarate
YP_001289300.1	catalyzes the formation of L-methionine and acetate from O-acetyl-L-homoserine and methanethiol
YP_001289301.1	Catalyzes the conversion of acetyl-CoA and L-homoserine to CoA and O-acetyl-L-homoserine
YP_001289302.1	Mapped to H37Rv Rv3342
YP_001289303.1	Mapped to H37Rv Rv3343c
YP_001289304.1	Mapped to H37Rv Rv3344c
YP_001289305.1	Mapped to H37Rv Rv3345c
YP_001289306.1	Mapped to H37Rv Rv3346c
YP_001289307.1	Mapped to H37Rv Rv3347c
YP_001289308.1	Mapped to H37Rv Rv3347c
YP_001289310.1	Mapped to H37Rv Rv3348
YP_001289311.1	Mapped to H37Rv Rv3349c
YP_001289313.1	Mapped to H37Rv Rv3350c
YP_001289314.1	Mapped to H37Rv Rv3351c
YP_001289315.1	Mapped to H37Rv Rv3352c
YP_001289316.1	Mapped to H37Rv Rv3353c
YP_001289317.1	Mapped to H37Rv Rv3354
YP_001289318.1	Mapped to H37Rv Rv3355c
YP_001289319.1	catalyzes the formation of 5,10-methenyltetrahydrofolate from 5,10-methylenetetrahydrofolate and subsequent formation of 10-formyltetrahydrofolate from 5,10-methenyltetrahydrofolate
YP_001289320.1	Mapped to H37Rv Rv3357
YP_001289321.1	Mapped to H37Rv Rv3358
YP_001289322.1	Mapped to H37Rv Rv3359
YP_001289323.1	Mapped to H37Rv Rv3360
YP_001289324.1	Mapped to H37Rv Rv3361c
YP_001289325.1	Mapped to H37Rv Rv3362c
YP_001289326.1	Mapped to H37Rv Rv3363c
YP_001289327.1	Mapped to H37Rv Rv3364c
YP_001289328.1	Mapped to H37Rv Rv3365c
YP_001289329.1	Mapped to H37Rv Rv3366
YP_001289330.1	Mapped to H37Rv Rv3367
YP_001289331.1	Mapped to H37Rv Rv3368c
YP_001289332.1	Mapped to H37Rv Rv3369
YP_001289333.1	DNA polymerase involved in damage-induced mutagenesis and translesion synthesis. It is not the major replicative DNA polymerase.
YP_001289334.1	Mapped to H37Rv Rv3371
YP_001289335.1	Mapped to H37Rv Rv3372
YP_001289336.1	Mapped to H37Rv Rv3373
YP_001289337.1	Mapped to H37Rv Rv3374
YP_001289338.1	Mapped to H37Rv Rv3375
YP_001289339.1	Mapped to H37Rv Rv3376
YP_001289340.1	Mapped to H37Rv Rv3377c
YP_001289341.1	Mapped to H37Rv Rv3378c
YP_001289342.1	catalyzes the formation of 1-deoxy-D-xylulose 5-phosphate from pyruvate and D-glyceraldehyde 3-phosphate
YP_001289343.1	Mapped to H37Rv Rv3382c
YP_001289344.1	Mapped to H37Rv Rv3383c
YP_001289345.1	Mapped to H37Rv Rv3384c
YP_001289346.1	Mapped to H37Rv Rv3385c
YP_001289347.1	Mapped to H37Rv Rv3386
YP_001289348.1	Mapped to H37Rv Rv3387
YP_001289349.1	Mapped to H37Rv Rv3388
YP_001289350.1	Mapped to H37Rv Rv3389c
YP_001289351.1	Mapped to H37Rv Rv3390
YP_001289352.1	Mapped to H37Rv Rv3391
YP_001289353.1	Mapped to H37Rv Rv3392c
YP_001289354.1	Mapped to H37Rv Rv3393
YP_001289355.1	Mapped to H37Rv Rv3394c
YP_001289356.1	Mapped to H37Rv Rv3395c
YP_001289357.1	Mapped to H37Rv Rv3395A
YP_001289358.1	contains glutamine-hydrolyzing domain and glutamine amidotransferase; GMP-binding domain; functions to produce GMP from XMP in the IMP pathway
YP_001289359.1	Mapped to H37Rv Rv3397c
YP_001289360.1	Mapped to H37Rv Rv3398c
YP_001289361.1	Mapped to H37Rv Rv3399
YP_001289362.1	Mapped to H37Rv Rv3400
YP_001289363.1	Mapped to H37Rv Rv3401
YP_001289364.1	Mapped to H37Rv Rv3402c
YP_001289365.1	Mapped to H37Rv Rv3403c
YP_001289366.1	Mapped to H37Rv Rv3404c
YP_001289367.1	Mapped to H37Rv Rv3405c
YP_001289368.1	Mapped to H37Rv Rv3406
YP_001289369.1	Mapped to H37Rv Rv3408
YP_001289370.1	Mapped to H37Rv Rv3409c
YP_001289371.1	catalyzes the synthesis of xanthosine monophosphate by the NAD+ dependent oxidation of inosine monophosphate
YP_001289372.1	catalyzes the synthesis of xanthosine monophosphate by the NAD+ dependent oxidation of inosine monophosphate
YP_001289373.1	Mapped to H37Rv Rv3412
YP_001289374.1	Mapped to H37Rv Rv3413c
YP_001289375.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription; this protein is involved in expression of ribosome-associated gene products in stationary phase
YP_001289376.1	Mapped to H37Rv Rv3415c
YP_001289377.1	Mapped to H37Rv Rv3416
YP_001289378.1	60 kDa chaperone family; promotes refolding of misfolded polypeptides especially under stressful conditions; forms two stacked rings of heptamers to form a barrel-shaped 14mer; ends can be capped by GroES; misfolded proteins enter the barrel where they are refolded when GroES binds; many bacteria have multiple copies of the groEL gene which are active under different environmental conditions; the B.japonicum protein in this cluster is expressed constitutively; in Rhodobacter, Corynebacterium and Rhizobium this protein is not essential for growth
YP_001289379.1	10 kDa chaperonin; Cpn10; GroES; forms homoheptameric ring; binds to one or both ends of the GroEL double barrel in the presence of adenine nucleotides capping it; folding of unfolded substrates initiates in a GroEL-substrate bound and capped by GroES; release of the folded substrate is dependent on ATP binding and hydrolysis in the trans ring
YP_001289380.1	in most organisms, only the N-terminal domain is present in a single polypeptide; in some archaea this domain is fused to a kinase domain; this gene is essential for growth in Escherichia coli and Bacillus subtilis; the secreted glycoprotease from Pasteurella haemolytica showed specificity for O-sialoglycosylated proteins; the Pyrococcus structure shows DNA-binding properties, iron-binding, ATP-binding, and AP endonuclease activity
YP_001289381.1	Mapped to H37Rv Rv3420c
YP_001289382.1	Mapped to H37Rv Rv3421c
YP_001289383.1	Mapped to H37Rv Rv3422c
YP_001289384.1	converts L-alanine to D-alanine which is used in cell wall biosynthesis; binds one pyridoxal phosphate per monomer; forms a homodimer
YP_001289385.1	Mapped to H37Rv Rv3423c
YP_001289386.1	Mapped to H37Rv Rv3423c
YP_001289387.1	Mapped to H37Rv Rv3423c
YP_001289389.1	Mapped to H37Rv Rv3425
YP_001289390.1	Mapped to H37Rv Rv3425
YP_001289391.1	Mapped to H37Rv Rv3428c
YP_001289392.1	Mapped to H37Rv Rv3429
YP_001289393.1	Mapped to H37Rv Rv3430c
YP_001289395.1	Mapped to H37Rv Rv3431c
YP_001289396.1	Mapped to H37Rv Rv3432c
YP_001289397.1	Mapped to H37Rv Rv3433c
YP_001289398.1	Mapped to H37Rv Rv3434c
YP_001289399.1	Mapped to H37Rv Rv3435c
YP_001289400.1	Catalyzes the first step in hexosamine metabolism, converting fructose-6P into glucosamine-6P using glutamine as a nitrogen source
YP_001289401.1	Mapped to H37Rv Rv3437
YP_001289402.1	Mapped to H37Rv Rv3438
YP_001289403.1	Mapped to H37Rv Rv3439c
YP_001289404.1	Mapped to H37Rv Rv3440c
YP_001289405.1	catalyzes the conversion of glucosamine-6-phosphate to glucosamine-1-phosphate
YP_001289406.1	forms a direct contact with the tRNA during translation
YP_001289407.1	in Escherichia coli this protein is one of the earliest assembly proteins in the large subunit
YP_001289408.1	Mapped to H37Rv Rv3444c
YP_001289409.1	Mapped to H37Rv Rv3445c
YP_001289410.1	Mapped to H37Rv Rv3446c
YP_001289411.1	Mapped to H37Rv Rv3447c
YP_001289412.1	Mapped to H37Rv Rv3448
YP_001289413.1	Mapped to H37Rv Rv3449
YP_001289414.1	Mapped to H37Rv Rv3450c
YP_001289415.1	Mapped to H37Rv Rv3451
YP_001289416.1	Mapped to H37Rv Rv3452
YP_001289417.1	Mapped to H37Rv Rv3453
YP_001289418.1	Mapped to H37Rv Rv3454
YP_001289419.1	mediates pseudouridylation (positions 38, 39, 40) at the tRNA anticodon region which contributes to the structural stability
YP_001289420.1	is a component of the macrolide binding site in the peptidyl transferase center
YP_001289421.1	catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Dimerization of the alpha subunit is the first step in the sequential assembly of subunits to form the holoenzyme
YP_001289422.1	primary rRNA binding protein; nucleates 30S assembly; involved in translational accuracy with proteins S5 and S12; interacts with protein S5; involved in autogeneously regulating ribosomal proteins by binding to pseudoknot structures in the polycistronic mRNA; interacts with transcription complex and functions similar to protein NusA in antitermination
YP_001289423.1	located on the platform of the 30S subunit, it bridges several disparate RNA helices of the 16S rRNA; forms part of the Shine-Dalgarno cleft in the 70S ribosome; interacts with S7 and S18 and IF-3
YP_001289424.1	located at the top of the head of the 30S subunit, it contacts several helices of the 16S rRNA; makes contact with the large subunit via RNA-protein interactions and via protein-protein interactions with L5; contacts P-site tRNA
YP_001289425.1	smallest protein in the large subunit; similar to what is found with protein L31 and L33 several bacterial genomes contain paralogs which may be regulated by zinc; the protein from Thermus thermophilus has a zinc-binding motif and contains a bound zinc ion; the proteins in this group have the motif
YP_001289426.1	Mapped to H37Rv Rv3462c
YP_001289427.1	Mapped to H37Rv Rv3463
YP_001289428.1	Mapped to H37Rv Rv3464
YP_001289429.1	Mapped to H37Rv Rv3465
YP_001289430.1	Mapped to H37Rv Rv3466
YP_001289431.1	Mapped to H37Rv Rv3467
YP_001289432.1	Mapped to H37Rv Rv3468c
YP_001289433.1	catalyzes the formation of pyruvate and acetaldehyde from 4-hydroxy-2-ketovaleric acid; involved in the degradation of phenylpropionate
YP_001289434.1	Mapped to H37Rv Rv3470c
YP_001289435.1	Mapped to H37Rv Rv3471c
YP_001289436.1	Mapped to H37Rv Rv3472
YP_001289437.1	Mapped to H37Rv Rv3473c
YP_001289438.1	Mapped to H37Rv Rv3476c
YP_001289439.1	Mapped to H37Rv Rv3477
YP_001289440.1	Mapped to H37Rv Rv3478
YP_001289441.1	Mapped to H37Rv Rv3479
YP_001289442.1	Mapped to H37Rv Rv3480c
YP_001289443.1	Mapped to H37Rv Rv3481c
YP_001289444.1	Mapped to H37Rv Rv3482c
YP_001289445.1	Mapped to H37Rv Rv3483c
YP_001289446.1	Mapped to H37Rv Rv3484
YP_001289447.1	Mapped to H37Rv Rv3485c
YP_001289448.1	Mapped to H37Rv Rv3486
YP_001289449.1	Mapped to H37Rv Rv3487c
YP_001289450.1	Mapped to H37Rv Rv3488
YP_001289451.1	Mapped to H37Rv Rv3490
YP_001289452.1	Mapped to H37Rv Rv3491
YP_001289453.1	Mapped to H37Rv Rv3492c
YP_001289454.1	Mapped to H37Rv Rv3493c
YP_001289455.1	Mapped to H37Rv Rv3494c
YP_001289456.1	Mapped to H37Rv Rv3495c
YP_001289457.1	Mapped to H37Rv Rv3496c
YP_001289458.1	Mapped to H37Rv Rv3497c
YP_001289459.1	Mapped to H37Rv Rv3498c
YP_001289460.1	Mapped to H37Rv Rv3499c
YP_001289461.1	Mapped to H37Rv Rv3500c
YP_001289462.1	Mapped to H37Rv Rv3501c
YP_001289463.1	Catalyzes the first of the two reduction steps in the elongation cycle of fatty acid synthesis
YP_001289464.1	Mapped to H37Rv Rv3503c
YP_001289465.1	Mapped to H37Rv Rv3504
YP_001289466.1	Mapped to H37Rv Rv3505
YP_001289467.1	activates fatty acids by binding to coenzyme A
YP_001289468.1	Mapped to H37Rv Rv3507
YP_001289469.1	Mapped to H37Rv Rv3508
YP_001289470.1	thiamine-pyrophosphate requiring enzyme
YP_001289471.1	Mapped to H37Rv Rv3510c
YP_001289472.1	Mapped to H37Rv Rv3510c
YP_001289473.1	Mapped to H37Rv Rv3513c
YP_001289474.1	Mapped to H37Rv Rv3514
YP_001289475.1	activates fatty acids by binding to coenzyme A; in Mycobacterium may be involved in virulence
YP_001289476.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001289477.1	Mapped to H37Rv Rv3517
YP_001289478.1	Mapped to H37Rv Rv3518c
YP_001289479.1	Mapped to H37Rv Rv3519
YP_001289480.1	Mapped to H37Rv Rv3520c
YP_001289481.1	Mapped to H37Rv Rv3521
YP_001289482.1	Mapped to H37Rv Rv3522
YP_001289483.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001289484.1	Mapped to H37Rv Rv3524
YP_001289485.1	Mapped to H37Rv Rv3525c
YP_001289486.1	Mapped to H37Rv Rv3526
YP_001289487.1	Mapped to H37Rv Rv3527
YP_001289488.1	Mapped to H37Rv Rv3528c
YP_001289489.1	Mapped to H37Rv Rv3529c
YP_001289490.1	Mapped to H37Rv Rv3530c
YP_001289491.1	Mapped to H37Rv Rv3531c
YP_001289492.1	Mapped to H37Rv Rv3532
YP_001289493.1	Mapped to H37Rv Rv3533c
YP_001289494.1	catalyzes the formation of pyruvate and acetaldehyde from 4-hydroxy-2-ketovaleric acid; involved in the degradation of phenylpropionate
YP_001289495.1	catalyzes the formation of acetyl-CoA from acetalaldehyde
YP_001289496.1	Mapped to H37Rv Rv3536c
YP_001289497.1	initiates steroid ring degradation; catalyzes the transhydrogenation of 3-keto-4-ene-steroid to 3-keto-1,4-diene-steroid e.g., progesterone to 1,4-androstadiene-3,17-dione
YP_001289498.1	Mapped to H37Rv Rv3538
YP_001289499.1	Mapped to H37Rv Rv3539
YP_001289500.1	Mapped to H37Rv Rv3540c
YP_001289501.1	Mapped to H37Rv Rv3541c
YP_001289502.1	Mapped to H37Rv Rv3542c
YP_001289503.1	Mapped to H37Rv Rv3543c
YP_001289504.1	Mapped to H37Rv Rv3544c
YP_001289505.1	Mapped to H37Rv Rv3545c
YP_001289506.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001289507.1	Mapped to H37Rv Rv3547
YP_001289508.1	Mapped to H37Rv Rv3548c
YP_001289509.1	Mapped to H37Rv Rv3549c
YP_001289510.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001289511.1	Mapped to H37Rv Rv3551
YP_001289512.1	Mapped to H37Rv Rv3552
YP_001289513.1	Mapped to H37Rv Rv3553
YP_001289514.1	Mapped to H37Rv Rv3554
YP_001289515.1	Mapped to H37Rv Rv3555c
YP_001289516.1	Catalyzes the synthesis of acetoacetyl coenzyme A from two molecules of acetyl coenzyme A. It can also act as a thiolase, catalyzing the reverse reaction and generating two-carbon units from the four-carbon product of fatty acid oxidation
YP_001289517.1	Mapped to H37Rv Rv3557c
YP_001289518.1	Mapped to H37Rv Rv3558
YP_001289519.1	Mapped to H37Rv Rv3559c
YP_001289520.1	Mapped to H37Rv Rv3560c
YP_001289521.1	activates fatty acids by binding to coenzyme A
YP_001289522.1	Mapped to H37Rv Rv3562
YP_001289523.1	Mapped to H37Rv Rv3563
YP_001289524.1	Mapped to H37Rv Rv3564
YP_001289525.1	catalyzes the formation of oxalozcetate and L-glutamate from L-aspartate and 2-oxoglutarate
YP_001289526.1	Mapped to H37Rv Rv3565
YP_001289527.1	Mapped to H37Rv Rv3567c
YP_001289528.1	Mapped to H37Rv Rv3568c
YP_001289529.1	Mapped to H37Rv Rv3569c
YP_001289530.1	Mapped to H37Rv Rv3570c
YP_001289531.1	Mapped to H37Rv Rv3571
YP_001289532.1	Mapped to H37Rv Rv3572
YP_001289533.1	Mapped to H37Rv Rv3573c
YP_001289534.1	Mapped to H37Rv Rv3574
YP_001289535.1	Mapped to H37Rv Rv3575c
YP_001289536.1	Mapped to H37Rv Rv3576
YP_001289537.1	Mapped to H37Rv Rv3577
YP_001289538.1	Mapped to H37Rv Rv3578
YP_001289539.1	Mapped to H37Rv Rv3579c
YP_001289540.1	catalyzes a two-step reaction; charges a cysteine by linking its carboxyl group to the alpha-phosphate of ATP then transfers the aminoacyl-adenylate to its tRNA
YP_001289541.1	catalyzes the conversion of 4-diphosphocytidyl-2-C-methyl-D-erythritol 2-phosphate into 2-C-methyl-D-erythritol 2,4-cyclodiphosphate
YP_001289542.1	4-diphosphocytidyl-2C-methyl-D-erythritol synthase; MEP cytidylyltransferase; MCT; catalyzes the formation of 4-diphosphocytidyl-2-C-methyl-D-erythritol from CTP and 2-C-methyl-D-erythritol 4-phosphate; involved in isoprenoid and isopentenyl-PP biosynthesis; forms homodimers
YP_001289543.1	Mapped to H37Rv Rv3583c
YP_001289544.1	Mapped to H37Rv Rv3584
YP_001289545.1	Sms; stabilizes the strand-invasion intermediate during the DNA repair; involved in recombination of donor DNA and plays an important role in DNA damage repair after exposure to mutagenic agents
YP_001289546.1	non-specific DNA-binding; scans chromosomes during sporulation for DNA-damage; delays initiation of sporulation; participates in a checkpoint signaling cascade for cell-cycle progression and DNA repair
YP_001289547.1	Mapped to H37Rv Rv3587c
YP_001289548.1	Mapped to H37Rv Rv3588c
YP_001289549.1	Mapped to H37Rv Rv3589
YP_001289550.1	Mapped to H37Rv Rv3590c
YP_001289551.1	Mapped to H37Rv Rv3591c
YP_001289552.1	Mapped to H37Rv Rv3592
YP_001289553.1	Mapped to H37Rv Rv3593
YP_001289554.1	Mapped to H37Rv Rv3594
YP_001289555.1	Mapped to H37Rv Rv3595c
YP_001289556.1	Mapped to H37Rv Rv3596c
YP_001289557.1	Mapped to H37Rv Rv3597c
YP_001289558.1	class II; LysRS2; catalyzes a two-step reaction, first charging a lysine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; in Methanosarcina barkeri, LysRS2 charges both tRNA molecules for lysine that exist in this organism and in addition can charge the tRNAPyl with lysine in the presence of LysRS1
YP_001289559.1	type III; catalyzes the formation of (R)-4'-phosphopantothenate from (R)-pantothenate in coenzyme A biosynthesis; type III pantothenate kinases are not subject to feedback inhibition from coenzyme A and have a high Km for ATP
YP_001289560.1	Converts L-aspartate to beta-alanine and provides the major route of beta-alanine production in bacteria. Beta-alanine is essential for the biosynthesis of pantothenate (vitamin B5)
YP_001289561.1	catalyzes the formation of (R)-pantothenate from pantoate and beta-alanine
YP_001289562.1	Mapped to H37Rv Rv3603c
YP_001289563.1	Mapped to H37Rv Rv3604c
YP_001289564.1	Mapped to H37Rv Rv3605c
YP_001289565.1	Mapped to H37Rv Rv3606c
YP_001289566.1	Mapped to H37Rv Rv3607c
YP_001289567.1	Mapped to H37Rv Rv3608c
YP_001289568.1	involved in the first step of tetrahydrofolate biosynthesis; catalyzes the formation of formate and 2-amino-4-hydroxy-6-(erythro-1,2, 3-trihydroxypropyl)dihydropteridine triphosphate from GTP and water; forms a homopolymer
YP_001289569.1	Mapped to H37Rv Rv3610c
YP_001289570.1	Mapped to H37Rv Rv3611
YP_001289571.1	Mapped to H37Rv Rv3612c
YP_001289572.1	Mapped to H37Rv Rv3614c
YP_001289573.1	Mapped to H37Rv Rv3615c
YP_001289574.1	Mapped to H37Rv Rv3616c
YP_001289575.1	Mapped to H37Rv Rv3617
YP_001289576.1	Mapped to H37Rv Rv3618
YP_001289577.1	Mapped to H37Rv Rv3619c
YP_001289578.1	Mapped to H37Rv Rv3620c
YP_001289579.1	Mapped to H37Rv Rv3621c
YP_001289580.1	Mapped to H37Rv Rv3622c
YP_001289581.1	Mapped to H37Rv Rv3623
YP_001289582.1	Mapped to H37Rv Rv3624c
YP_001289583.1	Mapped to H37Rv Rv3625c
YP_001289584.1	Mapped to H37Rv Rv3626c
YP_001289585.1	Mapped to H37Rv Rv3627c
YP_001289586.1	Mapped to H37Rv Rv3628
YP_001289587.1	Mapped to H37Rv Rv3629c
YP_001289588.1	Mapped to H37Rv Rv3630
YP_001289589.1	Mapped to H37Rv Rv3631
YP_001289590.1	Mapped to H37Rv Rv3632
YP_001289591.1	Mapped to H37Rv Rv3633
YP_001289592.1	Mapped to H37Rv Rv3634c
YP_001289593.1	Mapped to H37Rv Rv3635
YP_001289594.1	Mapped to H37Rv Rv3636
YP_001289595.1	Mapped to H37Rv Rv3637
YP_001289596.1	Mapped to H37Rv Rv3638
YP_001289597.1	Mapped to H37Rv Rv3639c
YP_001289598.1	Mapped to H37Rv Rv3640c
YP_001289599.1	Mapped to H37Rv Rv3641c
YP_001289600.1	catalyzes the DNA-template-directed extension of the 3'-end of a DNA strand; the delta' subunit seems to interact with the gamma subunit to transfer the beta subunit on the DNA
YP_001289601.1	Mapped to H37Rv Rv3645
YP_001289602.1	catalyzes the ATP-dependent breakage of single-stranded DNA followed by passage and rejoining, maintains net negative superhelicity
YP_001289603.1	Mapped to H37Rv Rv3647c
YP_001289604.1	Mapped to H37Rv Rv3648c
YP_001289605.1	Mapped to H37Rv Rv3649
YP_001289606.1	Mapped to H37Rv Rv3650
YP_001289607.1	Mapped to H37Rv Rv3651
YP_001289608.1	Mapped to H37Rv Rv3652
YP_001289609.1	Mapped to H37Rv Rv3652
YP_001289610.1	Mapped to H37Rv Rv3653
YP_001289611.1	Mapped to H37Rv Rv3654c
YP_001289612.1	Mapped to H37Rv Rv3655c
YP_001289613.1	Mapped to H37Rv Rv3656c
YP_001289614.1	Mapped to H37Rv Rv3657c
YP_001289615.1	Mapped to H37Rv Rv3658c
YP_001289616.1	Mapped to H37Rv Rv3659c
YP_001289617.1	Mapped to H37Rv Rv3660c
YP_001289618.1	Mapped to H37Rv Rv3661
YP_001289619.1	Mapped to H37Rv Rv3662c
YP_001289620.1	Mapped to H37Rv Rv3663c
YP_001289621.1	Mapped to H37Rv Rv3664c
YP_001289622.1	Mapped to H37Rv Rv3665c
YP_001289623.1	Mapped to H37Rv Rv3666c
YP_001289624.1	Mapped to H37Rv Rv3666c
YP_001289625.1	Acs; catalyzes the conversion of acetate and CoA to acetyl-CoA
YP_001289626.1	Mapped to H37Rv Rv3668c
YP_001289627.1	Mapped to H37Rv Rv3669
YP_001289628.1	Mapped to H37Rv Rv3670
YP_001289629.1	Mapped to H37Rv Rv3671c
YP_001289630.1	Mapped to H37Rv Rv3672c
YP_001289631.1	Mapped to H37Rv Rv3673c
YP_001289632.1	Mapped to H37Rv Rv3674c
YP_001289633.1	Mapped to H37Rv Rv3675
YP_001289634.1	Mapped to H37Rv Rv3676
YP_001289635.1	Mapped to H37Rv Rv3677c
YP_001289636.1	Mapped to H37Rv Rv3678c
YP_001289637.1	Mapped to H37Rv Rv3679
YP_001289638.1	Mapped to H37Rv Rv3680
YP_001289639.1	Mapped to H37Rv Rv3681c
YP_001289640.1	Mapped to H37Rv Rv3682
YP_001289641.1	Mapped to H37Rv Rv3683
YP_001289642.1	Mapped to H37Rv Rv3684
YP_001289643.1	Mapped to H37Rv Rv3685c
YP_001289644.1	Mapped to H37Rv Rv3686c
YP_001289645.1	Mapped to H37Rv Rv3687c
YP_001289646.1	Mapped to H37Rv Rv3688c
YP_001289647.1	Mapped to H37Rv Rv3689
YP_001289648.1	Mapped to H37Rv Rv3690
YP_001289649.1	Mapped to H37Rv Rv3691
YP_001289650.1	Mapped to H37Rv Rv3692
YP_001289651.1	Mapped to H37Rv Rv3693
YP_001289652.1	Mapped to H37Rv Rv3694c
YP_001289653.1	Mapped to H37Rv Rv3695
YP_001289654.1	Converts glycerol and ADP to glycerol-3-phosphate and ADP
YP_001289655.1	Mapped to H37Rv Rv3697c
YP_001289656.1	Mapped to H37Rv Rv3698
YP_001289657.1	Mapped to H37Rv Rv3699
YP_001289658.1	Mapped to H37Rv Rv3700c
YP_001289659.1	Mapped to H37Rv Rv3701c
YP_001289660.1	Mapped to H37Rv Rv3702c
YP_001289661.1	Mapped to H37Rv Rv3703c
YP_001289662.1	Mapped to H37Rv Rv3704c
YP_001289663.1	Mapped to H37Rv Rv3705c
YP_001289664.1	Mapped to H37Rv Rv3705A
YP_001289665.1	Mapped to H37Rv Rv3706c
YP_001289666.1	Mapped to H37Rv Rv3707c
YP_001289667.1	catalyzes the formation of 4-aspartyl phosphate from aspartate 4-semialdehyde
YP_001289668.1	catalyzes the formation of 4-phospho-L-aspartate from L-aspartate and ATP, in Bacillus, lysine sensitive; regulated by response to starvation.
YP_001289669.1	Mapped to H37Rv Rv3710
YP_001289670.1	3'-5' exonuclease of DNA polymerase III
YP_001289671.1	Mapped to H37Rv Rv3712
YP_001289672.1	Mapped to H37Rv Rv3713
YP_001289673.1	Mapped to H37Rv Rv3714c
YP_001289674.1	involved in a recombinational process of DNA repair, independent of the recBC complex
YP_001289675.1	Mapped to H37Rv Rv3716c
YP_001289676.1	Mapped to H37Rv Rv3717
YP_001289677.1	Mapped to H37Rv Rv3718c
YP_001289678.1	Mapped to H37Rv Rv3719
YP_001289679.1	Mapped to H37Rv Rv3720
YP_001289680.1	catalyzes the DNA-template-directed extension of the 3'-end of a DNA strand; the tau chain serves as a scaffold to help in the dimerizaton of the alpha,epsilon and theta core complex; the gamma chain seems to interact with the delta and delta' subunits to transfer the beta subunit on the DNA
YP_001289681.1	Mapped to H37Rv Rv3722c
YP_001289682.1	Mapped to H37Rv Rv3723
YP_001289683.1	Mapped to H37Rv Rv3724B
YP_001289684.1	Mapped to H37Rv Rv3725
YP_001289685.1	Mapped to H37Rv Rv3726
YP_001289686.1	Mapped to H37Rv Rv3727
YP_001289687.1	Mapped to H37Rv Rv3728
YP_001289688.1	Mapped to H37Rv Rv3729
YP_001289689.1	Mapped to H37Rv Rv3730c
YP_001289690.1	catalyzes the ATP-dependent formation of a phosphodiester at the site of a single-strand break in duplex DNA; in mycobacteria LigC has weak intrinsic nick joining activities and is not essential for growth
YP_001289691.1	Mapped to H37Rv Rv3732
YP_001289692.1	Mapped to H37Rv Rv3733c
YP_001289693.1	Mapped to H37Rv Rv3734c
YP_001289694.1	Mapped to H37Rv Rv3735
YP_001289695.1	Mapped to H37Rv Rv3736
YP_001289696.1	Mapped to H37Rv Rv3737
YP_001289697.1	Mapped to H37Rv Rv3738c
YP_001289698.1	Mapped to H37Rv Rv3739c
YP_001289699.1	Mapped to H37Rv Rv3740c
YP_001289700.1	Mapped to H37Rv Rv3741c
YP_001289701.1	Mapped to H37Rv Rv3742c
YP_001289702.1	Mapped to H37Rv Rv3743c
YP_001289703.1	Mapped to H37Rv Rv3744
YP_001289704.1	Mapped to H37Rv Rv3745c
YP_001289705.1	Mapped to H37Rv Rv3746c
YP_001289706.1	Mapped to H37Rv Rv3747
YP_001289707.1	Mapped to H37Rv Rv3748
YP_001289708.1	Mapped to H37Rv Rv3749c
YP_001289709.1	Mapped to H37Rv Rv3750c
YP_001289710.1	Mapped to H37Rv Rv3751
YP_001289711.1	Mapped to H37Rv Rv3752c
YP_001289712.1	Mapped to H37Rv Rv3753c
YP_001289713.1	catalyzes the formation of 4-hydroxyphenylpyruvate from prephenate
YP_001289714.1	Mapped to H37Rv Rv3755c
YP_001289715.1	Mapped to H37Rv Rv3756c
YP_001289716.1	Mapped to H37Rv Rv3757c
YP_001289717.1	Mapped to H37Rv Rv3758c
YP_001289718.1	Mapped to H37Rv Rv3759c
YP_001289719.1	Mapped to H37Rv Rv3760
YP_001289720.1	Mapped to H37Rv Rv3761c
YP_001289721.1	Mapped to H37Rv Rv3762c
YP_001289722.1	Mapped to H37Rv Rv3763
YP_001289723.1	Mapped to H37Rv Rv3764c
YP_001289724.1	Mapped to H37Rv Rv3765c
YP_001289725.1	Mapped to H37Rv Rv3766
YP_001289726.1	Mapped to H37Rv Rv3767c
YP_001289727.1	Mapped to H37Rv Rv3768
YP_001289728.1	Mapped to H37Rv Rv3769
YP_001289729.1	Mapped to H37Rv Rv3770c
YP_001289730.1	Mapped to H37Rv Rv3770A
YP_001289731.1	Mapped to H37Rv Rv3770B
YP_001289732.1	Mapped to H37Rv Rv3771c
YP_001289733.1	Mapped to H37Rv Rv3772
YP_001289734.1	Mapped to H37Rv Rv3773c
YP_001289735.1	Catalyzes the reversible hydration of unsaturated fatty acyl-CoA to beta-hydroxyacyl-CoA
YP_001289736.1	Mapped to H37Rv Rv3775
YP_001289737.1	Mapped to H37Rv Rv3776
YP_001289738.1	Mapped to H37Rv Rv3777
YP_001289739.1	Mapped to H37Rv Rv3778c
YP_001289740.1	Mapped to H37Rv Rv3779
YP_001289741.1	Mapped to H37Rv Rv3780
YP_001289742.1	Mapped to H37Rv Rv3781
YP_001289743.1	Mapped to H37Rv Rv3782
YP_001289744.1	Mapped to H37Rv Rv3783
YP_001289745.1	Mapped to H37Rv Rv3784
YP_001289746.1	Mapped to H37Rv Rv3785
YP_001289747.1	Mapped to H37Rv Rv3786c
YP_001289748.1	Mapped to H37Rv Rv3787c
YP_001289749.1	Regulates the synthesis of nucleoside triphosphates for nucleic acid synthesis, CTP for lipid synthesis, and GTP for protein elongation
YP_001289750.1	Mapped to H37Rv Rv3789
YP_001289751.1	Mapped to H37Rv Rv3790
YP_001289752.1	Mapped to H37Rv Rv3791
YP_001289753.1	Mapped to H37Rv Rv3792
YP_001289754.1	Mapped to H37Rv Rv3793
YP_001289755.1	Mapped to H37Rv Rv3794
YP_001289756.1	Mapped to H37Rv Rv3795
YP_001289757.1	Mapped to H37Rv Rv3796
YP_001289758.1	Mapped to H37Rv Rv3797
YP_001289759.1	Mapped to H37Rv Rv3798
YP_001289760.1	Mapped to H37Rv Rv3799c
YP_001289761.1	Mapped to H37Rv Rv3800c
YP_001289762.1	activates fatty acids by binding to coenzyme A
YP_001289763.1	Mapped to H37Rv Rv3802c
YP_001289764.1	Mapped to H37Rv Rv3803c
YP_001289765.1	Mapped to H37Rv Rv3804c
YP_001289766.1	Mapped to H37Rv Rv3805c
YP_001289767.1	catalyzes the formation of decaprenylphosphoryl-5-phosphoribose from phosphoribose diphosphate and decaprenyl phosphate
YP_001289768.1	Mapped to H37Rv Rv3807c
YP_001289769.1	Mapped to H37Rv Rv3808c
YP_001289770.1	Mapped to H37Rv Rv3809c
YP_001289771.1	Mapped to H37Rv Rv3810
YP_001289772.1	Mapped to H37Rv Rv3811
YP_001289773.1	Mapped to H37Rv Rv3812
YP_001289774.1	Mapped to H37Rv Rv3813c
YP_001289775.1	Mapped to H37Rv Rv3814c
YP_001289776.1	Mapped to H37Rv Rv3815c
YP_001289777.1	Mapped to H37Rv Rv3816c
YP_001289778.1	Mapped to H37Rv Rv3817
YP_001289779.1	Mapped to H37Rv Rv3818
YP_001289780.1	Mapped to H37Rv Rv3819
YP_001289781.1	Mapped to H37Rv Rv3820c
YP_001289782.1	Mapped to H37Rv Rv3821
YP_001289783.1	Mapped to H37Rv Rv3822
YP_001289784.1	Mapped to H37Rv Rv3823c
YP_001289785.1	Mapped to H37Rv Rv3824c
YP_001289786.1	Mapped to H37Rv Rv3825c
YP_001289787.1	activates fatty acids by binding to coenzyme A
YP_001289788.1	Mapped to H37Rv Rv3827c
YP_001289789.1	Mapped to H37Rv Rv3828c
YP_001289790.1	Mapped to H37Rv Rv3829c
YP_001289791.1	Mapped to H37Rv Rv3830c
YP_001289792.1	Mapped to H37Rv Rv3831
YP_001289793.1	Mapped to H37Rv Rv3832c
YP_001289794.1	Mapped to H37Rv Rv3833
YP_001289795.1	catalyzes a two-step reaction, first charging a serine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA
YP_001289796.1	Mapped to H37Rv Rv3835
YP_001289797.1	Mapped to H37Rv Rv3836
YP_001289798.1	Mapped to H37Rv Rv3837c
YP_001289799.1	catalyzes the formation of phenylpyruvate from prephenate in phenylalanine biosynthesis
YP_001289800.1	Mapped to H37Rv Rv3839
YP_001289801.1	Mapped to H37Rv Rv3840
YP_001289802.1	Mapped to H37Rv Rv3841
YP_001289803.1	Mapped to H37Rv Rv3842c
YP_001289804.1	Mapped to H37Rv Rv3843c
YP_001289805.1	Mapped to H37Rv Rv3843c
YP_001289807.1	Mapped to H37Rv Rv3844
YP_001289808.1	Mapped to H37Rv Rv3845
YP_001289809.1	Mapped to H37Rv Rv3846
YP_001289810.1	Mapped to H37Rv Rv3847
YP_001289811.1	Mapped to H37Rv Rv3848
YP_001289812.1	Mapped to H37Rv Rv3849
YP_001289813.1	Mapped to H37Rv Rv3850
YP_001289814.1	Mapped to H37Rv Rv3851
YP_001289815.1	Mapped to H37Rv Rv3852
YP_001289816.1	regulator of RNase E; increases half-life and abundance of RNAs; interacts with RNase E possibly inhibiting catalytic activity
YP_001289817.1	Mapped to H37Rv Rv3854c
YP_001289818.1	Mapped to H37Rv Rv3855
YP_001289819.1	Mapped to H37Rv Rv3856c
YP_001289820.1	Mapped to H37Rv Rv3857c
YP_001289821.1	glutamate synthase is composed of subunits alpha and beta; beta subunit is a flavin adenine dinucleotide-NADPH dependent oxidoreductase; provides electrons to the alpha subunit, which binds L-glutamine and 2-oxoglutarate and forms L-glutamate
YP_001289822.1	Mapped to H37Rv Rv3859c
YP_001289823.1	Mapped to H37Rv Rv3860
YP_001289824.1	Mapped to H37Rv Rv3862c
YP_001289825.1	Mapped to H37Rv Rv3863
YP_001289826.1	Mapped to H37Rv Rv3864
YP_001289827.1	Mapped to H37Rv Rv3865
YP_001289828.1	Mapped to H37Rv Rv3866
YP_001289829.1	Mapped to H37Rv Rv3867
YP_001289830.1	Mapped to H37Rv Rv3868
YP_001289831.1	Mapped to H37Rv Rv3869
YP_001289832.1	Mapped to H37Rv Rv3870
YP_001289833.1	Mapped to H37Rv Rv3871
YP_001289834.1	Mapped to H37Rv Rv3872
YP_001289835.1	Mapped to H37Rv Rv3873
YP_001289836.1	Mapped to H37Rv Rv3874
YP_001289837.1	Mapped to H37Rv Rv3875
YP_001289838.1	Mapped to H37Rv Rv3876
YP_001289839.1	Mapped to H37Rv Rv3877
YP_001289840.1	Mapped to H37Rv Rv3878
YP_001289841.1	Mapped to H37Rv Rv3879c
YP_001289842.1	Mapped to H37Rv Rv3880c
YP_001289843.1	Mapped to H37Rv Rv3881c
YP_001289844.1	Mapped to H37Rv Rv3882c
YP_001289845.1	Mapped to H37Rv Rv3883c
YP_001289846.1	Mapped to H37Rv Rv3884c
YP_001289847.1	Mapped to H37Rv Rv3885c
YP_001289848.1	Mapped to H37Rv Rv3886c
YP_001289849.1	Mapped to H37Rv Rv3887c
YP_001289850.1	Mapped to H37Rv Rv3888c
YP_001289851.1	Mapped to H37Rv Rv3889c
YP_001289852.1	Mapped to H37Rv Rv3890c
YP_001289853.1	Mapped to H37Rv Rv3891c
YP_001289854.1	Mapped to H37Rv Rv3892c
YP_001289855.1	Mapped to H37Rv Rv3893c
YP_001289856.1	Mapped to H37Rv Rv3894c
YP_001289857.1	Mapped to H37Rv Rv3895c
YP_001289858.1	Mapped to H37Rv Rv3896c
YP_001289859.1	Mapped to H37Rv Rv3897c
YP_001289860.1	Mapped to H37Rv Rv3898c
YP_001289861.1	Mapped to H37Rv Rv3899c
YP_001289862.1	Mapped to H37Rv Rv3900c
YP_001289863.1	Mapped to H37Rv Rv3901c
YP_001289864.1	Mapped to H37Rv Rv3902c
YP_001289865.1	Mapped to H37Rv Rv3903c
YP_001289866.1	Mapped to H37Rv Rv3904c
YP_001289867.1	Mapped to H37Rv Rv3905c
YP_001289868.1	Mapped to H37Rv Rv3906c
YP_001289869.1	Mapped to H37Rv Rv3907c
YP_001289870.1	Mapped to H37Rv Rv3908
YP_001289871.1	Mapped to H37Rv Rv3909
YP_001289872.1	Mapped to H37Rv Rv3910
YP_001289873.1	Member of the extracytoplasmic function sigma factors which are active under specific conditions; binds with the catalytic core of RNA polymerase to produce the holoenzyme and directs bacterial core RNA polymerase to specific promoter elements to initiate transcription: in Mycobacterium bovis this protein has been shown to be active at high temperatures and during stationary phase
YP_001289874.1	Mapped to H37Rv Rv3912
YP_001289875.1	Mapped to H37Rv Rv3913
YP_001289876.1	Mapped to H37Rv Rv3914
YP_001289877.1	Mapped to H37Rv Rv3915
YP_001289878.1	Mapped to H37Rv Rv3916c
YP_001289879.1	Mapped to H37Rv Rv3917c
YP_001289880.1	Mapped to H37Rv Rv3918c
YP_001289881.1	glucose-inhibited division protein B; SAM-dependent methyltransferase; methylates the N7 position of guanosine in position 527 of 16S rRNA
YP_001289882.1	Mapped to H37Rv Rv3920c
YP_001289883.1	functions to insert inner membrane proteins into the IM in Escherichia coli; interacts with transmembrane segments; functions in both Sec-dependent and -independent membrane insertion; similar to Oxa1p in mitochondria
YP_001289884.1	Mapped to H37Rv Rv3922c
YP_001289885.1	protein component of RNaseP which catalyzes the removal of the 5'-leader sequence from pre-tRNA to produce the mature 5'terminus; this enzyme also cleaves other RNA substrates
YP_001289886.1	in Escherichia coli transcription of this gene is enhanced by polyamines