Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | SaurJH1_0598 |
Symbol | |
ID | 5315397 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Staphylococcus aureus subsp. aureus JH1 |
Kingdom | Bacteria |
Replicon accession | NC_009632 |
Strand | + |
Start bp | 645614 |
End bp | 648511 |
Gene Length | 2898 bp |
Protein Length | 965 aa |
Translation table | 11 |
GC content | 35% |
IMG OID | 640778685 |
Product | cell wall anchor domain-containing protein |
Protein accession | YP_001315743 |
Protein GI | 150393068 |
COG category | [R] General function prediction only |
COG ID | [COG5271] AAA ATPase containing von Willebrand factor type A (vWA) domain |
TIGRFAM ID | [TIGR01167] LPXTG-motif cell wall anchor domain [TIGR01168] Gram-positive signal peptide, YSIRK family [TIGR01435] glutamate--cysteine ligase/gamma-glutamylcysteine synthetase, Streptococcus agalactiae type |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAATAATA AAAAGACAGC AACAAATAGA AAAGGCATGA TACCAAATCG ATTAAACAAA TTTTCGATAA GAAAGTATTC TGTAGGTACT GCTTCAATTT TAGTAGGGAC AACATTGATT TTTGGGTTAA GTGGTCATGA AGCTAAAGCG GCAGAACATA CGAATGGAGA ATTAAATCAA TCAAAAAATG AAACGACAGC CCCAAGTGAG AATAAAACAA CTGAAAAAGT TGATAGTCGT CAACTAAAAG ACAATACGCA AACTGCAACT GCAGATCAGC CTAAAGTGAC AATGAGTGAT AGTGCAACAG TTAAAGAAAC TAGTAGTAAC ATGCAATCAC CACAAAACGC TACAGCTAGT CAATCTACTA CACAAACTAG CAATGTAACA ACAAATGATA AATCATCAAC TACATATAGT AATGAAACTG ATAAAAGTAA TTTAACACAA GCAAAAAACG TTTCAACTAC ACCTAAAACA ACGACTATTA AACAAAGAGC TTTAAATCGC ATGGCAGTGA ATACTGTTGC AGCTCCACAA CAAGGAACAA ATGTTAATGA TAAAGTACAT TTTACGAACA TTGATATTGC GATTGATAAA GGACATGTTA ATAAAACAAC AGGAAATACT GAATTTTGGG CAACTTCAAG TGATGTTTTA AAATTAAAAG CGAATTACAC AATCGATGAT TCTGTTAAAG AGGGCGATAC ATTTACTTTT AAATATGGTC AATATTTCCG TCCAGGTTCT GTAAGATTAC CTTCACAAAC TCAAAATTTA TATAATGCCC AAGGTAATAT TATTGCAAAA GGTATTTACG ATAGTAAAAC AAATACAACA ACGTATACTT TTACGAATTA TGTAGATCAA TACACAAATG TTAGCGGTAG CTTTGAACAA GTCGCATTTG CGAAACGTGA AAATGCAACA ACTGATAAAA CTGCTTATAA AATGGAAGTA ACTTTAGGTA ATGATACATA TAGTAAAGAT GTCATTGTCG ATTATGGTAA TCAAAAAGGT CAACAACTTA TTTCGAGTAC AAATTATATT AATAATGAAG ATTTGTCACG TAATATGACT GTTTATGTAA ATCAACCTAA AAAGACCTAT ACAAAAGAAA CATTTGTAAC AAATTTAACT GGTTATAAAT TTAATCCAGA TGCTAAAAAC TTCAAAATTT ACGAAGTGAC AGATCAAAAT CAATTTGTGG ATAGTTTCAC CCCAGATACT TCAAAACTTA AAGATGTTAC TGGTCAATTC GATGTTATTT ATAGTAATGA TAATAAGACG GCGACAGTAG ATTTATTGAA TGGTCAATCT AGTAGTGATA AACAGTACAT CATTCAACAA GTTGCTTATC CAGATAATAG TTCAACAGAT AATGGGAAAA TTGATTATAC TTTAGAAACA CAAAATGGAA AAAGTAGTTG GTCAAACAGT TATTCAAATG TGAATGGCTC ATCAACTGCA AATGGCGACC AAAAGAAATA TAATCTAGGT GACTATGTAT GGGAAGATAC AAATAAAGAT GGTAAACAAG ATGCCAATGA AAAAGGGATT AAAGGTGTTT ATGTCATTCT TAAAGATAGT AACGGTAAAG AATTAGATCG TACGACAACA GATGAAAATG GTAAATATCA GTTCACTGGT TTAAGCAATG GAACTTATAG TGTAGAGTTT TCAACACCAG CCGGTTATAC ACCGACAACT GCAAATGCAG GTACAGATGA TGCTGTAGAT TCTGATGGAC TAACTACAAC AGGTGTCATT AAAGACGCTG ACAACATGAC ATTAGATAGT GGATTCTACA AAACACCAAA ATATAGTTTA GGTGATTATG TTTGGTACGA CAGTAATAAA GATGGTAAAC AAGATTCGAC TGAAAAAGGA ATTAAAGGTG TTAAAGTTAC TTTGCAAAAC GAAAAAGGCG AAGTAATTGG TACAACTGAA ACAGATGAAA ATGGTAAATA CCGCTTTGAT AATTTAGATA GTGGTAAATA CAAAGTTATC TTTGAAAAGC CTGCTGGTTT AACTCAAACA GGTACAAATA CAACTGAAGA TGATAAAGAT GCCGATGGTG GCGAAGTTGA TGTAACAATT ACGGATCATG ATGATTTCAC ACTTGATAAT GGCTACTACG AAGAAGAAAC ATCAGATAGT GACTCAGATT CGGACAGCGA TTCAGACTCA GATAGCGACT CAGATTCAGA TAGTGACTCA GACTCAGATA GCGACTCAGA CTCAGATAGC GACTCAGACA GCGACTCAGA CTCAGATAGT GATTCAGATT CGGACAGCGA CTCAGATTCA GACAGCGAAT CAGATTCGGA TAGCGACTCA GACTCAGATA GCGACTCAGA TTCAGACAGC GACTCAGATT CAGACAGTGA CTCAGACTCA GACAGCGACT CAGATTCAGA CAGCGATTCA GATTCGGATA GCGACTCAGA TTCAGATAGC GATTCGGACT CAGACAACGA CTCAGATTCA GACAGCGATT CAGACTCAGA TAGCGACTCA GATTCAGACA GCGACTCAGA CTCAGATAGC GATTCAGATT CAGACAGCGA CTCAGATTCA GACAGCGATT CAGATTCAGA TAGCGATTCA GATTCAGACA GCGACTCAGA TTCAGATAGC GACTCAGACT CAGACAGCGA TTCAGACTCA GATTCAGACA GCGATTCAGA TTCGGATAGC GATTCAGATT CAGATGCAGG TAAACATACT CCGACTAAAC CAATGAGTAC GGTTAAAGAT CAGCATAAAA CAGCTAAAGC ATTACCAGAA ACAGGTAGTG AAAATAATAA TTCAAATAAT GGCACATTAT TCGGTGGATT ATTCGCGGCA TTAGGATCAT TATTGTTATT CGGTCGTCGT AAAAAACAAA ATAAATAA
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Protein sequence | MNNKKTATNR KGMIPNRLNK FSIRKYSVGT ASILVGTTLI FGLSGHEAKA AEHTNGELNQ SKNETTAPSE NKTTEKVDSR QLKDNTQTAT ADQPKVTMSD SATVKETSSN MQSPQNATAS QSTTQTSNVT TNDKSSTTYS NETDKSNLTQ AKNVSTTPKT TTIKQRALNR MAVNTVAAPQ QGTNVNDKVH FTNIDIAIDK GHVNKTTGNT EFWATSSDVL KLKANYTIDD SVKEGDTFTF KYGQYFRPGS VRLPSQTQNL YNAQGNIIAK GIYDSKTNTT TYTFTNYVDQ YTNVSGSFEQ VAFAKRENAT TDKTAYKMEV TLGNDTYSKD VIVDYGNQKG QQLISSTNYI NNEDLSRNMT VYVNQPKKTY TKETFVTNLT GYKFNPDAKN FKIYEVTDQN QFVDSFTPDT SKLKDVTGQF DVIYSNDNKT ATVDLLNGQS SSDKQYIIQQ VAYPDNSSTD NGKIDYTLET QNGKSSWSNS YSNVNGSSTA NGDQKKYNLG DYVWEDTNKD GKQDANEKGI KGVYVILKDS NGKELDRTTT DENGKYQFTG LSNGTYSVEF STPAGYTPTT ANAGTDDAVD SDGLTTTGVI KDADNMTLDS GFYKTPKYSL GDYVWYDSNK DGKQDSTEKG IKGVKVTLQN EKGEVIGTTE TDENGKYRFD NLDSGKYKVI FEKPAGLTQT GTNTTEDDKD ADGGEVDVTI TDHDDFTLDN GYYEEETSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSESDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDNDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDSDSDS DSDSDAGKHT PTKPMSTVKD QHKTAKALPE TGSENNNSNN GTLFGGLFAA LGSLLLFGRR KKQNK
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