Gene list
Applied filters:
COG category: Inorganic ion transport and metabolism
Gene type: CDS
Genomic element: pHCM1
Number of genes found: 8
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Salmonella enterica subsp. enterica serovar Typhi str. CT18, CT18 >HCM1.145 hypothetical protein ATGGACGATAAAGAGCAGTTTACGAGTCTCGTGGCAAAGCATGCCTCCAG ATTCACCGAAGAGCAGCTGGCCGGGTATGATGCCTGTTCCCAGTATGGAG AATGCGTCTCGCCTTCATACGAAGTATTCCGGGGGTATCGTACCCGCCAC ACCCTGGATGAATTTCTGGAGCTGGCCATATCGCTGAATGCCATCCACCC GGATGAATATTTAACGGATATGCTGCTGAAGCCTCATGAGGTGATCGGTG CTCTGGCCGATGAAGGCGACCAGTTGAACAACGCCACCCCGGTTTATTTC TTCCCGGATACCGGCGTCTATGCAGCGGCCGTCAGTGAAACCCGTGTGCT CGATGCCTGGCTTTGTTGGCCATGCTACCCGGCGAACTGGTAA >HCM1.26c hypothetical protein ATGTTTTTGCACCTTGTACCAAAAATCCTGCATCCGATGGGAAATCTTTG CACGCTGGATTCCGTAAGCGTCCCGGAACTGTCGCTACGCCTGACTGGTA ATGACCTTGTTGCGATGCGCCCTTATCCCAACAAGCAATACCTGGTGGGG ATGCTGAAGGGGCGTAGGGCGCTGAATGGATTTTTGGTCAAAAGTCCCCG TGCGTTTGAAGAGTTTACGATGGTGTCCGTCTGGAATATCGAAGGATTCG GCAAAATAACGCACACCCTGAAGACTTTTGTCGAAGATACAGATTATGAC CTGGTTTCCCATGACGTGCTGCTGGCGCAAGGGAGCTACCGAGCACAAGC GTCTGAACAGTGTCGTGTTCACCCTGTTTATAAAAACATTGCGCCGGTAC ACATCGAACCGAAGATGGAATCACTGCTGTCGACCGAACCCAATTTCGAG AACGATGTCTGTGAAACCCATTCGTGGGGGATGCTGGTGCGTTCGCGGGA TGAGGGGTTTAAGGCAATGACGATGCCTTCCGCACGCCTCCAGGAGTCGG TAGCGCTGCGGGGGGATCGCCAGCCACAATTGGAACAGGCCATCGTTATT ACCGGGTGA >HCM1.133 hypothetical protein ATGGAACTGGGCATTATGGTGTGCATCGTGTTGTTACTCTCACTGGCAGC GGTGTGGATCAGTAACAAGACGGTCGGATTGCTGGAAATCCATTACTTTA AGCGGCCGCTGAGCATGGAGTATGCAGCCTGGCTGCGAGTGATGTGTGCG GGTTTGCTATTTATTTTTATTCAGATGGTCCCGGCATTCACGTTTCTGTA TACCCTGAAGCTGGTGGCACTGTTAAATCTGGGCGTGCAGACGATGAAGC TAAACGGGGTTTATAAATTTAAACGCACCGGGATGATGCCGCCGAAAGAC GCCCCTCATGATCTTGGCCGCTTTAATCCATTTCGAAAGAAGTAA >HCM1.07c corA, putative magnesium and cobalt transport protein ATGCTGAGCGCATTTCAACTGGAAAATAACCGACTGACCCGGCTGGAAGT CGAAGAGTCACAACCCCTTGTAAATGCAGTATGGATTGATCTTGTCGAAC CGGACGACGACGAGCGACTGCGCTTACAATCTGAACTTGGCCAGAGCCTG GCAACCCGCCCGGAACTGGAAGACATCGAAGCATCGGCACGTTTCTTTGA AGACGACGACGGCCTGCATATTCACTCCTTCTTCTTCTTTGAAGATGCGG AAGATCACGCCGGTAACTCCACTGTGGCATTTACCATCCGTGATGGTCGT CTGTTTACTCTGCGTGAGCGTGAACTGCCCGCTTTTCGTCTGTATCGTAT GCGTGCCCGTAGCCAGTCGATGGTAGACGGTAACGCCTACGAGTTGCTGC TGGATCTGTTCGAAACCAAAATCGAACAGTTGGCAGATGAAATTGAAAAT ATCTATAGCGACCTGGAGCAGTTGAGCCGGGTGATTATGGAAGGGCATCA GGGCGATGAGTACGACGAGGCGCTCTCCACTCTGGCGGAACTGGAAGATA TCGGCTGGAAAGTTCGCCTGTGTCTGATGGATACCCAGCGCGCGCTCAAC TTCCTGGTGCGTAAAGCGCGTTTACCGGGTGGGCAACTGGAGCAGGCGCG TGAAATCCTGCGAGATATCGAATCCCTGCTGCCGCATAACGAATCCCTGT TCCAGAAGGTGAACTTCCTGATGCAGGCGGCAATGGGTTTTATCAACATC GAGCAGAACCGCATCATCAAAATCTTCTCGGTGGTATCCGTGGTATTCCT GCCGCCGACGCTCGTTGCTTCCAGCTATGGCATGAACTTTGAGTTTATGC CAGAACTGAAGTGGAGGTTCGGCTACCCTGCCGCGATTATCTTTATGATC CTCGCGGGCCTGGCACCGTATCTGTACTTTAAGCGGAAGAACTGGTTGTA A >HCM1.232c merC, putative mercury transport protein ATGGGACTGATGACACGCATTGCCGATAAAACCGGCGCGCTCGGCAGCGT CGTTTCCGCGATGGGCTGCGCCGCCTGCTTTCCAGCCCTCGCCAGCTTCG GCGCGGCCATCGGGCTGGGCTTCTTGAGCCAGTACGAGGGACTGTTCATC AGCCGCCTGCTGCCGCTGTTTGCCGCGCTGGCCTTCCTGGCGAACGCGCT GGGTTGGTTCAGTCATCGGCAATGGCTGCGCAGTCTGCTCGGCATGATCG GCCCGGCCATCGTGTTTGCGGCCACGGTCTGGCTGCTCGGCAACTGGTGG ACGGCGAACCTGATGTACGTCGGCCTGGCCTTGATGATTGGGGTGTCGAT CTGGGACTTCGTGTCGCCGGCGCATCGCCGTTGCGGACCGGACGGCTGCG AACTCCCCGCCAAGCGCTTGTGA >HCM1.153 merP, putative mercuric transport protein periplasmic binding protein ATGAAAAAACTGTTTGCCGCCCTCGCCCTCGCTGCCGTTGTTGCCCCCGT GTGGGCCGCCACCCAGACCGTCACGCTGTCCGTGCCTGGCATGACCTGCG CCTCTTGCCCGATCACTGTCAAGCACGCGCTTTCCAAGGTTGAGGGCGTG AGCAAGACCGACGTAAGTTTCGACAAGCGCCAGGCCGTCGTCACCTTCGA CGATGCCAAGACCAACGTCCAGAAGTTGACCAAGGCGACCGAGGACGCGG GCTATCCGTCCAGCCTCAAACGCTGA >HCM1.233c merP, putative mercuric transport protein periplasmic binding protein ATGAAGAAACTGTTTGCCTCCCTTGCCCTCGCCGCCGCTGTTGCCCCGGT GTGGGCCGCTACCCAGACCGTCACGCTAGCGGTTCCCGGCATGACTTGCG TCGCCTGCCCGATCACAGTCAAGAAAGCGCTCTCCAAGGTCGAAGGCGTG AGCAAGGTCGATGTGGGCTTCGAGAAGCGCGAGGCCGTCGTCACTTTTGA CGACACCAAGGCCAGCGTACAGAAGCTGACCAAGGCCACCGCAGACGCCG GCTATCCGTCCAGCGTCAAGCAGTGA >HCM1.241c tetA, tetracycline resistance protein ATGAATAGTTCGACAAAGATCGCATTGGTAATTACGTTACTCGATGCCAT GGGGATTGGCCTTATCATGCCAGTCTTGCCAACGTTATTACGTGAATTTA TTGCTTCGGAAGATATCGCTAACCACTTTGGCGTATTGCTTGCACTTTAT GCGTTAATGCAGGTTATCTTTGCTCCTTGGCTTGGAAAAATGTCTGACCG ATTTGGTCGGCGCCCAGTGCTGTTGTTGTCATTAATAGGCGCATCGCTGG ATTACTTATTGCTGGCTTTTTCAAGTGCGCTTTGGATGCTGTATTTAGGC CGTTTGCTTTCAGGGATCACAGGAGCTACTGGGGCTGTCGCGGCATCGGT CATTGCCGATACCACCTCAGCTTCTCAACGCGTGAAGTGGTTCGGTTGGT TAGGGGCAAGTTTTGGGCTTGGTTTAATAGCGGGGCCTATTATTGGTGGT TTTGCAGGAGAGATTTCACCGCATAGTCCCTTTTTTATCGCTGCGTTGCT AAATATTGTCGCTTTCCTTGTGGTTATGTTTTGGTTCCGTGAAACCAAAA ATACACGTGATAATACAGATACCGAAGTAGGGGTTGAGACGCAATCGAAT TCGGTATACATCACTTTATTTAAAACGATGCCCATTTTGTTGATTATTTA TTTTTCAGCGCAATTGATAGGCCAAATTCCCGCAACGGTGTGGGTGCTAT TTACCGAAAATCGTTTTGGATGGAATAGCATGATGGTTGGCTTTTCATTA GCGGGTCTTGGTCTTTTACACTCAGTATTCCAAGCCTTTGTGGCAGGAAG AATAGCCACTAAATGGGGCGAAAAAACGGCAGTACTGCTCGGATTTATTG CAGATAGTAGTGCATTTGCCTTTTTAGCGTTTATATCTGAAGGTTGGTTA GTTTTCCCTGTTTTAATTTTATTGGCTGGTGGTGGGATCGCTTTACCTGC ATTACAGGGAGTGATGTCTATCCAAACAAAGAGTCATCAGCAAGGTGCTT TACAGGGATTATTGGTGAGCCTTACCAATGCAACCGGTGTTATTGGCCCA TTACTGTTTGCTGTTATTTATAATCATTCACTACCAATTTGGGATGGCTG GATTTGGATTATTGGTTTAGCGTTTTACTGTATTATTATCCTGCTATCGA TGACCTTCATGTTAACCCCTCAAGCTCAGGGGAGTAAACAGGAGACAAGT GCTTAG