Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | VEA_001065 |
Symbol | |
ID | 8559378 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Vibrio sp. Ex25 |
Kingdom | Bacteria |
Replicon accession | NC_013457 |
Strand | - |
Start bp | 1206832 |
End bp | 1208664 |
Gene Length | 1833 bp |
Protein Length | 610 aa |
Translation table | 11 |
GC content | 50% |
IMG OID | 646408736 |
Product | vibrioferrin amide bond forming protein PvsB |
Protein accession | YP_003288215 |
Protein GI | 262396362 |
COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
COG ID | [COG4264] Siderophore synthetase component |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 30 |
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 | ATGAATGACA ACGCTTTGTA TCTAACGCAA CGATTGATCG ACACTTGCTT ACGCGAAGAC ATGTTTGGCA TTTTGTCGAA AGCCAAGTTC AGTAGCGACG CGCCAAAAGG GGTAATTGTT CCTCAAGGCG AGCAAGTCTG GCTGATATTT GCCAACTCTG ATTTCACGTT GTATTTACCC GTTGCGCCAA CGTATTACAT GCAGCACTGG CGCTACGGCC ACGCCTATGA CGAAACACCA CAAGGTTGGT GGGTGGAGAA AAATGGCCAA GTCGAGCATC AACAACATTA CAAAGAGTGG ATTGCACTCC TAACGACACT GGCGCATGAG AGCTCTCACG AATTGTTGGC GGGGTATCTT CAAGAACTGG AATGTGCAGA GAAACACAAA GCGCTGTGTG ACCAAGCGTT TCGTCACCAC GCCGACCACA TTTCTCAACC AATATCCGAG CTTGGTTCTT GGCATCAAAA ACTGCTGCTT GCCGACCAGA TCGCTTCTTA CCTTGACCAC CCGTACTATC CAACTGCGCG TGCGAAGTTT GGTCTGAGCG ATGAAGACCT TGCTAAGTAC GCGCCCGAGT TTGCACAAAG CTTTGCTCTG CATTGGATTG CGATTGAAAA ATCACTGGTG ACATTAACCA GCGAACAACC TGATTGCTGG CCGACGATGG AGCAAGTGGG GCTTCCTGCT GATTTTGCAC TGAGCCACGT ACTGTTCCCT GCGCATCCGC TCACCCTTCG CTCTTTAGAA GCCTTACCCG AAGGCATGAT AGAAGCGCCG TTTACGTACC TAGACGTGAC GCCAACGCTT TCCGTTCGTA CTGTGGTAGT CAACGACGCG CCGCATATTC ACATCAAAGT TCCGCTGATC ATGCGATCGC TAGGTACGAA AAACATTCGC TTAATCAAGC CTTCAACACT GTATGACGGC CACTGGTTTG AACGTCTACT CAGCCACCTT GAACAAACGG ACGCCGATTT AAACACTCGC TTGTTCCATT GCAACGAAAA ACACGGTGGA CACGTCGGCG AGGGTAAAAC CTTCGCGTAC ATCGTACGTG AGTACCCACT TACTCATTGC GAAGACAAAG CGTTAGTTCC GGTTGCAGCA CTGGCAAGCC CAATGCCTGA CGACCGCTTG TTCTTAGAAC ATTTGGCAGA GCAGTACTAT CAACAAGATA CGCTGGCGTG GTTCCAAGAT TACGTCGACC TTCTTTGCCA AGTGCACCTC ACCTTGTGGC TTCGTTATGG CATCGCATTG GAGTCCAACC AACAAAACGC CATCGTTGCA TTTGATCAGC AGGGCAAAAT GACGCTCGCG ATGAAAGACA ACGACGCGGC GCGAATTTGG CCAGAGCGCT TCCACTTTGC AACAGAGCAT GCTGCTCAAA ACCACGGCGC AGAAACACTT CCAGTGGATT GCGATGAACT GCTCGATCAA CGCATCAAAG TCGACAGTGA ATTAGCGCTC GGTCAGATGT TTACCACCAT CACATTACAA CTGGATATTG CAGCGATTGT AGAAGCCATG GCTACGAAGG GCATTGGCTC TTCAGCATCG CTTTACGCCA TCGTGGCCAA AAGCATTGCA GAGCAACTCA ACCGATTGGA AGGCGAAGGG TTAGAAACAA AACTGGCACG CGAGTTACTG CAAGATGCGC CTGATTTGTA CGCCAAGTAC TTGTTGAGCT CTGGCAGTTT GCTCTCGAAA GAGGCCTCCG GCGCGAGTGA CATCAATAAG TTCTATGGTT TGTCGGCTCC GAATTTCTTG CTGCTTTCTA GCGAAGAAGC GCAACGCGCC TACTTAGAAG CCATCAAAAA AAGCGTACGT TAA
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Protein sequence | MNDNALYLTQ RLIDTCLRED MFGILSKAKF SSDAPKGVIV PQGEQVWLIF ANSDFTLYLP VAPTYYMQHW RYGHAYDETP QGWWVEKNGQ VEHQQHYKEW IALLTTLAHE SSHELLAGYL QELECAEKHK ALCDQAFRHH ADHISQPISE LGSWHQKLLL ADQIASYLDH PYYPTARAKF GLSDEDLAKY APEFAQSFAL HWIAIEKSLV TLTSEQPDCW PTMEQVGLPA DFALSHVLFP AHPLTLRSLE ALPEGMIEAP FTYLDVTPTL SVRTVVVNDA PHIHIKVPLI MRSLGTKNIR LIKPSTLYDG HWFERLLSHL EQTDADLNTR LFHCNEKHGG HVGEGKTFAY IVREYPLTHC EDKALVPVAA LASPMPDDRL FLEHLAEQYY QQDTLAWFQD YVDLLCQVHL TLWLRYGIAL ESNQQNAIVA FDQQGKMTLA MKDNDAARIW PERFHFATEH AAQNHGAETL PVDCDELLDQ RIKVDSELAL GQMFTTITLQ LDIAAIVEAM ATKGIGSSAS LYAIVAKSIA EQLNRLEGEG LETKLARELL QDAPDLYAKY LLSSGSLLSK EASGASDINK FYGLSAPNFL LLSSEEAQRA YLEAIKKSVR
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