-- dump date   	20111121_014437
-- class       	Genbank::Contig
-- table       	contig_comment
-- id	comment
NC_010067.1	PROVISIONAL REFSEQ: This record has not yet been subject to finalPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880.PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovarPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to onePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only inPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturallyPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis inPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritisPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infectionsPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of variousPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than tenPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year.PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced isPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strainPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is ofPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be thePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtainedPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or thePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome wasPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries andPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases.PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation willPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson.PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID),PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project.PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 andPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark andPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) databasePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genesPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequencePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequence was finished as follows unless otherwise noted: all regions werePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequence was finished as follows unless otherwise noted: all regions were double stranded, sequenced with an alternate chemistries or coveredPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequence was finished as follows unless otherwise noted: all regions were double stranded, sequenced with an alternate chemistries or covered by high quality data(i.e., phred quality >=30);an attempt was madePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequence was finished as follows unless otherwise noted: all regions were double stranded, sequenced with an alternate chemistries or covered by high quality data(i.e., phred quality >=30);an attempt was made to resolve all sequencing problems, such as compressions andPROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequence was finished as follows unless otherwise noted: all regions were double stranded, sequenced with an alternate chemistries or covered by high quality data(i.e., phred quality >=30);an attempt was made to resolve all sequencing problems, such as compressions and repeats; all regions were covered by sequence from more than onePROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequence was finished as follows unless otherwise noted: all regions were double stranded, sequenced with an alternate chemistries or covered by high quality data(i.e., phred quality >=30);an attempt was made to resolve all sequencing problems, such as compressions and repeats; all regions were covered by sequence from more than one m13 subclone.PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CP000880. Salmonella enterica subspecies IIIa (Arizonae) serovar 62:z4,z23:--Most bacteria in the species S. enterica belong to one of seven subspecies; all but subspecies I normally grow only in cold-blooded animals. Subspecies IIIa (S. Arizonae) is naturally found in reptiles, but also causes outbreaks of salmonellosis in turkeys and sheep and can occasionally produce both gastroenteritis and serious disseminated disease in humans. Many human infections can be traced to contact with reptiles or ingestion of various reptile products, particularly from rattlesnakes. Fewer than ten cases in humans are typically reported in the US each year. The strain of S. Arizonae (62:z4,z23:-) being sequenced is CDC346-86; it was named RSK2980 by R.K. Selander and is strain SARC5 of the Salmonella Reference C set. This serovar is of interest because of its taxonomic position. It appears to be the most divergent subspecies among the S. enterica. It can be obtained from the American Type Culture Collection as ATCC BAA-731, or the Salmonella Genetic Stock Centre as SGSC4693. The genome was sequenced to 8X coverage, using plasmid and fosmid libraries and was finished to an error rate of less than 1 per 10,000 bases. Automated annotation was performed and manual annotation will continue in the labs of Michael McClelland and Kenneth Sanderson. The National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH) has funded this project. Coding sequences below are predicted using GeneMark v3.3 and Glimmer2  v2.13.Intergenic regions not spanned by GeneMark and Glimmer2 were blasted against NCBI's non-redundant (NR) database and predictions generated based on protein alignments. RNA genes were determined  using tRNAscan-SE 1.23 or Rfam v8.0. This sequence was finished as follows unless otherwise noted: all regions were double stranded, sequenced with an alternate chemistries or covered by high quality data(i.e., phred quality >=30);an attempt was made to resolve all sequencing problems, such as compressions and repeats; all regions were covered by sequence from more than one m13 subclone. COMPLETENESS: full length.