| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | VEA_000710 |
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| Symbol | |
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| ID | 8559015 |
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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 | 824070 |
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| End bp | 826550 |
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| Gene Length | 2481 bp |
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| Protein Length | 826 aa |
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| Translation table | 11 |
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| GC content | 50% |
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| IMG OID | 646408374 |
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| Product | alpha-1,2-mannosidase |
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| Protein accession | YP_003287861 |
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| Protein GI | 262396008 |
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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 | 14 |
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| Plasmid unclonability p-value | 0.878479 |
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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 | ATGAACTTTA CGAAAACCGC TATCGCCACC GCAGTGATTG CAAGTGTTAT TGGTTTGGCT
GGCTGCAACG ATGACGACGA TAACACCTCA CCAAGCGTCG ATACTTCCAA CTTAAAATAC
GTCGACCCAT TCATTGGGAC AGGCTTTAAC GGACACACCT TCCCAGGTCC TGTTGTGCCA
GAAGGCATGG TGCAACTGTC TCCAGATACC GAGCTGATCG GCTGGCACTC TTCATCAGGT
TACCACTTCG ATAAAAAGAC CCTGTTTGGC TTCTCCCACA CTCACCTATC CGGCACGGGT
ATGGGCGGCT TAGGTGACAT TCTGTTCCTA CCGTTTACCG AAGATAAAGC TAAATACATC
GAAGACAGCG ACGACTACCG CGAAGCGATT TCAGTCAAGA TGGACAAAAC CTCAGAAGTG
GCAGAAGCGG GTTACTACTC GGTGAAAATT GCAGAGAACG GTATCAAAGC CGAGCTTACG
GCGTCTGAAC GTGTCGGCTT CCACCGCTAC ACCTACCCAC AAGGTCAACC ACAACGTCTG
AAGATAGACC TCAACTCCAT CCTTAACAGT GATTGGGGTT CGACCTCTCT GCGCAACAAA
CTGACGGTGA GCGAAGACGG TCATACCATC ACGGGCGAGC GCGACGCAGC GCACTTCTCT
GGTTGGGCGA AAAACCAAAA AATCTTCTTC TATGCGACTT TTGATAAGAA GATCAAAGAC
GTCTACATCC TTGCCAATGG CGAACCTGTT GACGGCCTAA CGGCAGAACA CGTTTCTGAA
TTGATATACG ATGACCAAGG TAATCCAGTT AAGCGTGTCA AAGCGGACGT CACTGCCTAC
ATCGAATTTG AAGATGAAGG CTCACAAGAG TTGAATGCGC AAGTGGCGTT ATCTGCGGTT
GACCCACAAG GCGCAGAAAA CAACTACGAT GCCGAAGCGA ATGTCTCTTT CGATACTGCG
CGCAACAACG CACGTGAGAA ATGGGCAAAA GCACTCAACT TCTCTATCGA AGGGGGCACG
GAAGATCAGA AAGAGATCTT CTACACTGCG CTTTACCACA CCAAGTTTGC GCCTATGGTG
CATCAAGACG TGGATGGTCG ATTCCGTGGC ATGGGCAAAG GCTCGATTCG TGAAGGCGAA
GGGGAATACT CCATCGCTTA CGGTCAAGCA ACGGAAGAGC AGCCAAACTT CTCGGTTTAC
TCTCTATGGG ATACCCAACG TGCGTTGCAC CCACTAAAAA CCATCACTGA GCCAACCCGC
GCGGTACAAT ACGCGAAGAA CCTAGTTCAG AAGTACACTG AAAGCGGCTT ACTACCGAAA
TGGGAGCACT TAGGTGACGA GACAGGTACC ATGGTTGGCT ACCCAGCGGT AGCAGTGATT
GCGGATGCGA TCACTAAGTT CCCAGAAGAG TTTACTCAGC AAGAGAAAGA GCTGGCGCTG
AAAGCCGCGA TCGACTCTTC GACTTACGAG AACTACCCTG CATTGCAAGC CGATTGGGAT
CAAGGCGTAT TGGATCGCAC TTTAACCAAG CACATCGACT ACATTGAGAA AAACGGCTTC
ACGCCTGCTA TTCAGCGTGT CGATGGTGAA CCTGTATTTG AAGACTACAC GGTTGAGTCT
GTTTCTTACG GTCTGGAAAA TGCGTTCTAC GATTGGGCTA TCGCACAAAT TGCCAAAGCA
GCCGGTGATA CTCAAGCGGA AGAGCAATAC CTTGAACGCT CAAAAGACTA CAAGAAGTAC
TTCGATTACA ACCCAACGGA ATACGCAGAA CATGGCGTGA CGGGCTTCAT GCGCCCAGTG
ATGATTGATG AAACCTTCAT GACGCCATTC GACCCATACG GCACAGAACA CGAGACAGGC
AACTACACCG AAGGTAACGC GTGGCAGTGG ACTTGGTTTG TACCGCATGA CATCGCGGGC
TTAAAAACCA TCATGGGTGG CGATGCTGAG TTCCAGAAAA ACCTAGAAGC AACCTTCACC
GCAGAAAGCC AAGGCACAGA AACACCGGAT ATGTCTGGTT TGATTGGTCA AGTTGCGTTT
GGTAACGAAC CTTCGCACCA CATTCCTTAC CTATTCAACT GGACCGCAGA GCCATGGAAG
ACGCAACAAG TCGTCGACCA CATTCTGGAT GACATGTATT TCGCTGCCCC AGAAGGCGTA
GTTGGTAACG AAGACGTGGG CGCCATGTCC GCTTGGTATG TGATGTCTGC ATTAGGCTTC
TACCAAGTGA ACGCAGCAGA ACCTATTTAC ACTGTGGGTC GTCCACTATT CGACAAAGCA
GTGATTCCGG TGAAAGGCGG CACGTTCACC ATCACCACAG AGAACAACGC CGATGACAAC
ATGTACATCA AGTCTGTCAC CATCAATGGC AAAGCTTTAG ATAACGGCTT TTTTTTCGAC
CATTCCGAGT TCAAACCAGG TGGTGAGTTG CACTTCGTGA TGACGGGCGA CCAATCTGAA
GCGATGAAAG CGCCTCAATA A
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| Protein sequence | MNFTKTAIAT AVIASVIGLA GCNDDDDNTS PSVDTSNLKY VDPFIGTGFN GHTFPGPVVP
EGMVQLSPDT ELIGWHSSSG YHFDKKTLFG FSHTHLSGTG MGGLGDILFL PFTEDKAKYI
EDSDDYREAI SVKMDKTSEV AEAGYYSVKI AENGIKAELT ASERVGFHRY TYPQGQPQRL
KIDLNSILNS DWGSTSLRNK LTVSEDGHTI TGERDAAHFS GWAKNQKIFF YATFDKKIKD
VYILANGEPV DGLTAEHVSE LIYDDQGNPV KRVKADVTAY IEFEDEGSQE LNAQVALSAV
DPQGAENNYD AEANVSFDTA RNNAREKWAK ALNFSIEGGT EDQKEIFYTA LYHTKFAPMV
HQDVDGRFRG MGKGSIREGE GEYSIAYGQA TEEQPNFSVY SLWDTQRALH PLKTITEPTR
AVQYAKNLVQ KYTESGLLPK WEHLGDETGT MVGYPAVAVI ADAITKFPEE FTQQEKELAL
KAAIDSSTYE NYPALQADWD QGVLDRTLTK HIDYIEKNGF TPAIQRVDGE PVFEDYTVES
VSYGLENAFY DWAIAQIAKA AGDTQAEEQY LERSKDYKKY FDYNPTEYAE HGVTGFMRPV
MIDETFMTPF DPYGTEHETG NYTEGNAWQW TWFVPHDIAG LKTIMGGDAE FQKNLEATFT
AESQGTETPD MSGLIGQVAF GNEPSHHIPY LFNWTAEPWK TQQVVDHILD DMYFAAPEGV
VGNEDVGAMS AWYVMSALGF YQVNAAEPIY TVGRPLFDKA VIPVKGGTFT ITTENNADDN
MYIKSVTING KALDNGFFFD HSEFKPGGEL HFVMTGDQSE AMKAPQ
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