Gene list
Applied filters:
COG category: Nucleotide transport and metabolism
Genomic element: pHCM2
Number of genes found: 3
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Salmonella enterica subsp. enterica serovar Typhi str. CT18, CT18 >HCM2.0121c ribonucleotide-diphosphate reductase beta subunit ATGACTTATTCTACTTTCCGTTTGGGCGCTAACGACGCAACGAAGGAACC TATGTTCCTCGGCCAGTCTGTCAACGTAGCACGCTACGATCAGCAAAAGT ACCGTGACTTCGAAAAGCTGATTGAGAAACAACTTTCGTTCTTCTGGCGC CCTGAAGAAGTCGACATTACCACTGACCGCATCGACTTCAATACCAAGCT GCAAGAGCACGAACGCCATATTTTTCTGAGCAACCTGCGTTACCAGACGC TGTTGGATTCCGTTCAGGGTCGCAGTCCAAACGCAACACTTCTGCCGCTG ATCTCCATTCCTGAGCTGGAGACATGGGTCGAGACCTGGTCGTTCTCCGA GACGATTCACAGCCGCAGCTACACGCACATTATCCGCGGTATGGTGGATG ACCCGAGCATCGTTTTCGACGGCATCGTCACGGACGAAGAGATCATCAGC CGGGCTGTAAGCATCTCAAGCGAATATGACAGACTGTACGAAATGACCTG CGCTCGCCAGCATCTTGGCGAAGATGAATTTGAACGGCTGTATATCAGCG AGTTCGATGGTAAGCCCTACCCTCTCCAGCGCCAGCTGTTCCGCACACTG GTGTCAGTGAATGCACTGGAGGCGATTCGCTTCTACGTGAGCTTTGCATG TACGTTCGCCTTTGGTGAGCGGAAGCTGCTGGAGGGCAACACGAAGATCA TGCGCTTCATTGCGCGCGACGAGGCTCTGCATTGCGAAGGTACTGAACGC ATGATCCGCTTTATGCGTACCGGTCGTGAAGGTCTGATGTGGAAGATGAT TGCCGCAGAAGAAGAGAGCTTCATCTATCAGACCATGATGGACGTGGCCG GGCAGGAAATGCGCTGGGCTGACTATCTGTTTAAAGACGGCTCAATGATT GGCTTGAATGCCGACATCCTCAAAAGCTATGTGAAATACCGCACCAACCT GGCAATGCGTCGTCTTGGGTTGCGACAGCTGTTCCCGGAAATCAAAGACG ATCCACTGGTATGGATGAACAAATGGCTGCTGTCAGACACCCTGCAGATC GCTCCGCAGGAAGCTGAACAAAGCAACTACCTCGTTGGCCAGATTGACTC CGCTGTCGATCGCTCCGGCCTGAGCCAGTTCGCAGACCTTTAA >HCM2.0122c ribonucleotide-diphosphate reductase alpha subunit ATGATAAGCATCGTAAAACGTAACGGTTCCACAGAGCCGTTGTCAGAGGA AAAATACAACCGCGTTGTGATGTGGGGAGTCGAAAACATTCGCAACGTTA GCGCGTCTGCTGTCGCTATGGGCGCCGCTGCCAGCATTTTCGACGGAATG ACCACCTGCCAGCTGCATGAAGCGCTGGTGAAGTCCGCTGCCGATCTGAT CTCTCCGGAAACCCCGAACTACTCGCAGGTTGCCGCGCGACTGAGCCTGT TCAAGATCCGCAAGGACGCCTTCGGGCAGTATGACTACCCGAATTTCTAC AATCACATCGTCAGCAACGTCAGCCGTGGCGTTTACGATGAAGACCTTCT CAAGTACTACTCTCAGGAAGAAATTGCCGAGCTGGGCGTGTACATCAAGC CTAAGCGCGACGAATACTTCGGCTATGCCGCCACCGTGCAGCTGGCGAGC AAGTATCTCGTTCAAAACCGTGTAACTGGCGCTATCTACGAAGGTCCACA GCAACTCTACATGCTGGTCGGCATGTGCCTGTTCCAGAATTGGGAAGATG GCTGCGCCGGTAAGACGCGTCTGGAGATGGTCAAAGGCTTCTACGATGTG ACCAGTACATTCAAGCTGTCTCTGCCAACGCCAATTATGGCCGGCGTGCG CACCCCTACTCGCCAGTTCTCCAGCTGCGTGCTGATTGAAGCTGCTGATA GTCTGAAAGGGATTAGCGCTGCGTCTTCCGCAATCATTGACTACGTGTCA CGTCGCGCGGGAATTGGTATTGGCTTTGGGCGTCTGCGTGCGCTGGGAAG TGAGATCCGCAATGGCGAGGCCACCCACACTGGCGTTATTCCGTTCCTGA AACACTTCCAGACAGCTGTGAAATCCTGCTCTCAGGGCGGTGTTCGCGGC GGCGCTGCTACAGCGTTCTATCCGATCTGGCACTTGGAAGTTGAAAGTCT GCTGGTACTGAAAAACAACCGTGGCATTGAAGAGAACCGTGTTCGTCATC TCGACTATGGCGTGATGATTAACCGTCTGATGTATCGCCGCCTGGTGCGC AACGAAAACATTACGCTGTTCAGCCCACACGATGTGCCGGGCCTGTACGA CGCGTTCTTTGTTGATCAGGACAAGTTCGAAGAGCTGTACCTGAAGTACG AAGCCGACGAGAGCATCCGTAAGAAATCTATCCCGGCCGTCGACCTGTTC TCTACGCTGATGCAGGAGCGTGCCTCTACTGGTCGTGTTTACATTGCCAA CGTCGACCACATGAACGATCACGGCGCATTCGTTCCGGAAATTGCACCGG TACACCAGTCCAATCTCTGCATGGAGATCACGCTACCGACCAAGCCACTG GCGTTCACTGACGATTCGAACGGGGAAATCGCGCTTTGCACTCTGTCTGC GTTTAACCTGGGCGCGATCCGCACGTTGGACTCACTGAAAGACGTGGCGT TCTACGCTGTGGCGGCACTGGACTCTCTGCTCGACTATCAGGACTACCCG ATGGCTGCTGCAGAAATCCCGGCTAAAGCACGTCGTAGCCTGGGCATTGG CGTAACCAACTTTGCCTACTATCTGGCGAAGAACGGCTTTAACTACTCTG ACGCTGCGGGCAACCAGCTGGTGCATGAGACCTTCGAAGCCATTCAGTAC TACCTGCTCGATGCGAGTTGCCGACTGGCCGAAGCGAAAGGTGCATGTGA CTGGTTCTCCCACACCAAATATGCACAGGGCCAGCTGCCAGTCGACCACT ATCGCAAAACGCTGGATACCAACCCGGAGACCTCTTTCGAGCTGAAAATG CCGTGGGAAGAGCTGCGTGGCCGTATCCGTGAGCATGGTCTGCGTAACTC CACTCTTACAGCGCAAATGCCGTGTGAGACGTCCAGCCAGATCACCAACT CCACCAATGGTATTGAGCCGCCCCGCGGCCCGGTGTCCGTGAAGTCTTCA AAAGACGGCATCGTGAAGATGGTCGTTCCGGACTTCGCGCAACTGAAAGA TCAGTACGAGTACCTGTGGGATATGCCGGATAACCGCGGCTATCTGACTA AGGTGGCCATTATTCAGAAGTTCTTCGATCAGGCCATCTCTGCGAACACC AACTACGACCCGACTCGCTTCCCTGGCGATAAGGTTCCAATGATGAAGCT GCTGGAAGACCTGCTGTTTGCGTATCAGCAAGGTGTGAAGACGCTTTATT ACCACAACACGCGTGATGGCGCTGGTAAGCGTGATGACGACGATCAGGTG TCAGAACCTTCCGCTGCGGAGGTTGTTGAGCCAGAAGATGAGTGCGATGG CGCGTGCAAAATCTGA >HCM2.0119c putative thymidylate synthase GTGAGGTTGATTTTGTCTATCCTACTGAATCGAGACTTTACGAACGGTCA GTTTGCCAGTGGTTCGTATGCCAAAGTGGTTGAAACGGTGCTCAACTCTG GCGTTCACGCGGGTGATCGCACCGGAACCGGCACAAAAAGCGTTTCATAT GTCCCTTCCTACTACATGCTGACTGGCGGCTCTGTTCCACTTATCTCCGG AAAAGCCGTCAACCTGAAGCCGTTACTGGTTGAGCTGGAGTGGTATCTCA AAGGAACGGGCAACATTCAGTTCCTGAAAGACAATGGCGTCAAAATCTGG GATGCCTGGGCTGATGAAAATGGCGATTTAGGCCCGGTCTATGGCAAGCA ATGGCGTCGGTGGGAAGACACCCGCATCGTGAGCCATAGCGAGTATTTGA GCAAAATCGACACGTTCCGTGAGCGCGGGTACAAGGTCGAGGGGTATCTG GGCGTAAGTGAAGATCGCGTTGTGTTGTCACGTGAAATCGACCAGCTACA GCGTATCGTTCACACGCTTCGCACCAACCCGACAGATCGTCGCATCCTGC TGAATGCCTGGAATGTTGGCGAACTGGAAGACATGAAGCTGCCGCCATGC CATTTCGTGTTTTCACTGTGGAGTCGCAAGCTGGACTTTGAGACCCGACT GACGATGGCCACCGACATTGGCATTCAGCACAACCGCCACGGCCACGAGT CCATTTACACCCAGATGCTGTGTCTTCTGGAAAGAGATGGCGGCATTACG GAAAACCTGCTGGACGAGCTGGGCATCCCGAAACGCATCCTGAACTCATG CCTGGTGCAGCGCAGCGTCGATACCTTTGTTGGTATGCCGTTCAATATTG CCGGTTACGGCATTCTCACCCACTTCCTCGCGAAGATCACCGGCCACATG GCTGGCGCATTCGTGCATTTTGGCTTTGACGTTCATCTCTACGACAACCA CATGGGAGGCGTTGAGGAGCTGATGAAGCGCGAGCCGCCCAAAGAGTCCG ACCCGGTTGTCATTTTTCCGCATGAATGGGCCGAACTGGACGACTTCAAA TGGGAAGGTGTGCAGGTGTGCGGCTACAGCCCTCTTCCGTGGATCAAGGT TCCAGTGGCGGTGTGA