Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | VEA_002776 |
Symbol | |
ID | 8556504 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Vibrio sp. Ex25 |
Kingdom | Bacteria |
Replicon accession | NC_013456 |
Strand | - |
Start bp | 1305265 |
End bp | 1307040 |
Gene Length | 1776 bp |
Protein Length | 591 aa |
Translation table | 11 |
GC content | 47% |
IMG OID | 646405867 |
Product | putative sulfate permease |
Protein accession | YP_003285403 |
Protein GI | 262393549 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG0659] Sulfate permease and related transporters (MFS superfamily) |
TIGRFAM ID | [TIGR00815] high affinity sulphate transporter 1 |
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Plasmid Coverage information |
Num covering plasmid clones | 11 |
Plasmid unclonability p-value | 0.408256 |
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 | ATGGTAAATC CGTTGGCTAA AATATTATTC GCACAGTGGT TCCCTGGGCT TGTTCAGCTT AAGCATTATC AAAAAGAATG GTTTGTTAAC GACTTTAGAG CCGCCTTTTC TGTTGTCGCG GTTGCCCTGC CAGTTGCCAT AGCTTATGCA CAGCTAACCG GTGTATCCGC AATTGTCGGT CTGTACTCGT GTGTACTGCC AATGTTGGTG TACGCCATGA TGGGCACATC TCGACAACTG ATTGTCGGAC CCGATGCAGC AACTTGTGCA GTGATTGCCG CCGTTGTTAC GCCGCTTGCC GCGGGTGATC CTACAAAACA TTGGCAGTTA GTCATGACCA TGACAGCGAT GACTGGTATT TGGTGTGTAC TGGCCAGTCG TTTCAAGTTA GGGGTGTTTG CAGACTTCCT TTCTCGCCCG ATTCTTTTGG GTCTACTCAA CGGTGTCGCT CTCACAATTA TCGTTGGTCA GTTTGCCAAA GTGGTCGGTT TGAAATACGA ACAACGTTAT TTGCTGGAAC GCTTATGGGA GGCTCCACAA CGATTAACCG AGCTTCATTG GCCTACCGTA ACTCTGAGTA TCGTGACGGT TGTCGTTTAT TTACTCACCA AACGCTACCG ACCAACTTGG CCTGCTGCCA TGCTGGCGAT ACTCGTGACT ACCGCGTCAG TTTGGTTTTT CCATTTACAA GAGATGGGCG TATCCGTAGT TGGGCTCACT CAAGGTGGTT TCCCTCAGTT TCAAACGCCG GAGTTTGAGC TAGGTGAAGT TCGTGAGCTA GTGGTCCCGG CGCTCAACCT TGCGATTGTC AGCTTTGTTA GCATGATGCT CACCGCGCGC AGTTTCGCCG CTAAAAACGG TTATGATATT GATGCAAATA AAGAGTTTCA GGCGTTAGGC TTTGCCAACA TTGCCTCAGC GTTTTCGCAA GGTTTCGCGA TAAGCGGCGC TGACTCACGC ACAGCGGTAA ATGATGCAAA TGGCGGTAAA TCTCAATTAG TTTCGATTGT CGCCGCAATC ACCATTGCCA TTATTGCGGT ATTTATTTAT GAGCCTTTAC AGTTTATTCC CATCGCATCA CTTGGTGTCG TGTTGATCAT CGCATCCCTG TCGCTGCTCG ATCTCAAAGC CATTTGGAAA TTAAAATCTC GTGACAAAGA TGCGTTCTAT CTAGCAATCA TCACTTTTAT TTCTGTTTTG ATCGTAGGCG TAATACCGGG GATCACTTTG GCGGTACTGC TAGGGCTGTT TCAATTTTTA CGTATTGTCA TGCGACCGAG TGATCAGCTA CTTGGCTTGG ATGAAAAAGG CACCATTCGG ACCATCGACG ACTCAGGAAA AGCTTCGCCT ATTCCTGGAA TGGTGATTTA CCGCTTTAAC TCGCCGCTGA CTTACTTCAA CGCACCGTAC TTTAAACGCC GAGTGTTAGA GCAAGTAGAA CATCACAAAG ACGCAAGTTG CGTTGTCATC GACGCCGTAT CGAGCTTTAC TCACTTAGAT CTCAGTGTGA TGGCAACACT GTCAGATATT CACAATACTT TAAAAAAGAG AGGCGTACGC TTAATCCTCG CAGGAAGGAA ACGACGCTTA CGTCAATGGT GTGAGCTTAC TGGTATCAGC ACCAGTGAAG GAGGCATCTT ACTGCGAGCC GATATGTACC TTGCCATTAA ACTTAGTGGC TGTTACATCA GTGCTGTGGG TGAGGGACAA ATTCCTACTG TTCAAAAAGA GCCTGATTTA GAGCAGCCAC CCAAACCAAT TCCAGAAGTG GCTTAA
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Protein sequence | MVNPLAKILF AQWFPGLVQL KHYQKEWFVN DFRAAFSVVA VALPVAIAYA QLTGVSAIVG LYSCVLPMLV YAMMGTSRQL IVGPDAATCA VIAAVVTPLA AGDPTKHWQL VMTMTAMTGI WCVLASRFKL GVFADFLSRP ILLGLLNGVA LTIIVGQFAK VVGLKYEQRY LLERLWEAPQ RLTELHWPTV TLSIVTVVVY LLTKRYRPTW PAAMLAILVT TASVWFFHLQ EMGVSVVGLT QGGFPQFQTP EFELGEVREL VVPALNLAIV SFVSMMLTAR SFAAKNGYDI DANKEFQALG FANIASAFSQ GFAISGADSR TAVNDANGGK SQLVSIVAAI TIAIIAVFIY EPLQFIPIAS LGVVLIIASL SLLDLKAIWK LKSRDKDAFY LAIITFISVL IVGVIPGITL AVLLGLFQFL RIVMRPSDQL LGLDEKGTIR TIDDSGKASP IPGMVIYRFN SPLTYFNAPY FKRRVLEQVE HHKDASCVVI DAVSSFTHLD LSVMATLSDI HNTLKKRGVR LILAGRKRRL RQWCELTGIS TSEGGILLRA DMYLAIKLSG CYISAVGEGQ IPTVQKEPDL EQPPKPIPEV A
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