| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | VEA_000707 |
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| Symbol | |
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| ID | 8559012 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Vibrio sp. Ex25 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013457 |
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| Strand | + |
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| Start bp | 816278 |
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| End bp | 818698 |
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| Gene Length | 2421 bp |
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| Protein Length | 806 aa |
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| Translation table | 11 |
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| GC content | 49% |
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| IMG OID | 646408371 |
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| Product | putative alpha-1,2-mannosidase |
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| Protein accession | YP_003287858 |
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| Protein GI | 262396005 |
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| COG category | [G] Carbohydrate transport and metabolism |
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| COG ID | [COG3537] Putative alpha-1,2-mannosidase |
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| TIGRFAM ID | [TIGR01180] alpha-1,2-mannosidase, putative |
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Plasmid Coverage information |
| Num covering plasmid clones | 11 |
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| Plasmid unclonability p-value | 0.340375 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGTTTAAAC GTAATCTTAT CTCTTTGGCT ATCCTGGTTG GTCTGACGGG TGGCTTGGCT
GGCTGTAACA GCGACAACGA TTCTTCCTCT TCACTGCCGG GCGATCCAAT TGTTGATCTC
GCGGTGTTGA AATACGTCGA TCCTATGATC GGCACAGCAG CTTCTGGTCA TACATTCCCG
GGCGCGACGG TACCGGCAGG TATGGTTCAA CTGTCTCCAG ATACTTTCAT CGGTTCTAAC
ACTGATCACG AATCAGGACT TAACCCATGG CACTCAGCTT CTGGCTACTG GGATTCATCC
AACTACGAAA CTGGCGAAGT GGTTAACACT GACGTTCCGC TGTACGGCTT CTCCCATACT
CACCTTTCAG GTACAGGCGC AACGGACTTA GGCGACATCT TGGTTCTGCC ATACACAGAC
ATGGCGAACA CACAACTGAA CTCTTTCGAC AAAGCCAATG AAGAAGCAAG CGCAGGCTAC
TACAAAACCA AACTAAACCA AGGTCAAATC GAAGTGGAAC TGAGCGCAAC CAAACGTGTT
GGTTTGCACA AATACACCTT TGCTGATGGT GCTGACCGTA ACGTGAAGTT CGATTTGGGT
CATACCCTAA TGAACAACAA CGGCAAGTCT TTGAAGAACA AAGTGGAAGT GGTGGACGAA
TACACCATTC GCGGTCGTAA AACCTCAACT GGCTGGTTCC AAGGGCAAGA TCACCAAGGT
CAAGACATCT TCTTCTACGC GAAATTCAGC CAGCCAATCG CCAAAGCACT GCTGGGTGAA
CAAGACCAAG AACCAACGCG CGAAATGCGC AATGGCGCGG TTTACTCAGG CGATGATCTG
ACCGCTTACC TAAACTTCGG CACAGGCGAA GAGCCAATTG AGATCCGCGT CGGTATCTCT
CCTGTTAACT GGCAAGGCGC ACAGAAAAAC TTAGAAGCGG AAGCACCAAG TTTCGACCTA
GCACAAGTAA AAGAAGACGC GGAATACGCG TGGGCTGAGA AGCTAGCAAA AATCAAAGTA
GAAGGCGGCA CAGACGCAGA GAAAACCAAC TTCTACACTG GCATGTACCA CATGATGATC
GCACCAATCG AGTTCTACGA TGTGGATGGT CAATACGTGG ATATGCTTGG CACAGTGCGC
ACACTGAAAG ATGGCGACAC ACCAAACTAC TCGATTTACT CAACGTGGGA TACGTTCCGC
GCGGTTCACC CAATGTGGAC CATCATCGAC CCAGACCAAG CAACGCTATA CGTGAAAGAC
TTGATTCGTA AATCCAACGA CGAGTTTGGT CTATTGCCGA AATGGGAAGG TCACGGCTCA
GAAACTGGCA CCATGATCGG CTACCCATCG GCAGCAATTC TAGGCGATGC GGTAACCAAA
GGCTTGATTG ATGCAGAGCA GGCTTACACC GCGTCAGTAA AATCAGCACG TTACACGCCG
CATGAATACC CACAGATTCA TGACGACATC CTAAGCTCAC TTATGGCAGG TCAGTTGAAC
TACCACGAGA AAGAACAGTG TGTTCGTTAC CCGAACTGGA ACTCAGTGTC GTACTCGTTG
GAATTCTCCT TCTACGATTG GACGATCGCA GAAATGGCAA AAGCTGCTGG CGATATGGAC
GCGTATGAAG AGTTCAAAGC TCGTTCTTAC AACTCTTTGA AACACTGGGA TGCAAAAGCA
GGTAACGCAG ACGGCACGGG CTTCTTTGTA CCGACAGAAC TGAAAGAAGG TGACCCATGT
GCACTGAAAT ACGCTTCAAC TGACTTCGAC CCTTACAAAT CTGACGCGTT CTACTACACA
GAAGGTAACG CGTGGCAATG GCAATGGGCG TTCATGCAAG ACTTAGACAA GCTGACTGAA
ATCATGGGTG GCACGCAAGG TCTGAACGAC AAGCTGAACA ATCTATTTAC TGCCGATCCA
AATGGCGGCG AAGCGCACCA AGACATGACA GGCTACATCG GTCAGTACAT TCACGGTAAT
GAGCCTTCGC ATCACGTTAT CTACTTGTAC AACCGTACTG AAGAATCTTA CAAGGCGCAG
GAATACCTAG ACCAAGTTTA TGACCAGTTC TACAAACCAA CGCCAGACGG CATCATCGGC
AACGAAGACG TAGGTCAAAT GTCAGCGTGG TACTTGATGT CAGCACTAGG CTTCTACCAA
ATCTCGCCAA CCGATCCAAC CTACAGCATC GGTCGTCCAA TCTTCGACAA AGCGACAGTA
GACATTGGCT CTGGCACCTT CACGGTAACG GCTGAAAACA ACGGTCCAGA CAACATGTAC
ATCAAAGAAG TGACCATCAA CGGTAAGCCT CTGGATGTGT ACAACACCTT CCAGCACAGC
GAATTCAAAG CAGGCGGCGA ACTGCACTTC GTGATGACGG CTGACAAGTC TGAAGCAATG
CAAGCCAACC TAGGCGAATA A
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| Protein sequence | MFKRNLISLA ILVGLTGGLA GCNSDNDSSS SLPGDPIVDL AVLKYVDPMI GTAASGHTFP
GATVPAGMVQ LSPDTFIGSN TDHESGLNPW HSASGYWDSS NYETGEVVNT DVPLYGFSHT
HLSGTGATDL GDILVLPYTD MANTQLNSFD KANEEASAGY YKTKLNQGQI EVELSATKRV
GLHKYTFADG ADRNVKFDLG HTLMNNNGKS LKNKVEVVDE YTIRGRKTST GWFQGQDHQG
QDIFFYAKFS QPIAKALLGE QDQEPTREMR NGAVYSGDDL TAYLNFGTGE EPIEIRVGIS
PVNWQGAQKN LEAEAPSFDL AQVKEDAEYA WAEKLAKIKV EGGTDAEKTN FYTGMYHMMI
APIEFYDVDG QYVDMLGTVR TLKDGDTPNY SIYSTWDTFR AVHPMWTIID PDQATLYVKD
LIRKSNDEFG LLPKWEGHGS ETGTMIGYPS AAILGDAVTK GLIDAEQAYT ASVKSARYTP
HEYPQIHDDI LSSLMAGQLN YHEKEQCVRY PNWNSVSYSL EFSFYDWTIA EMAKAAGDMD
AYEEFKARSY NSLKHWDAKA GNADGTGFFV PTELKEGDPC ALKYASTDFD PYKSDAFYYT
EGNAWQWQWA FMQDLDKLTE IMGGTQGLND KLNNLFTADP NGGEAHQDMT GYIGQYIHGN
EPSHHVIYLY NRTEESYKAQ EYLDQVYDQF YKPTPDGIIG NEDVGQMSAW YLMSALGFYQ
ISPTDPTYSI GRPIFDKATV DIGSGTFTVT AENNGPDNMY IKEVTINGKP LDVYNTFQHS
EFKAGGELHF VMTADKSEAM QANLGE
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