| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | VEA_004524 |
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| Symbol | |
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| ID | 8558292 |
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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_013456 |
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| Strand | - |
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| Start bp | 3250166 |
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| End bp | 3253009 |
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| Gene Length | 2844 bp |
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| Protein Length | 947 aa |
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| Translation table | 11 |
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| GC content | 48% |
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| IMG OID | 646407653 |
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| Product | glutamate-ammonia-ligase adenylyltransferase |
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| Protein accession | YP_003287147 |
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| Protein GI | 262395293 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones
[T] Signal transduction mechanisms |
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| COG ID | [COG1391] Glutamine synthetase adenylyltransferase |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 17 |
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| Plasmid unclonability p-value | 1 |
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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 | ATGCAGCTGC CTTCGCCACT GATTTCTATC GCTGAATCTG CCGTACAAAA TGCTCAAGAG
GCAGGTTATT TTCCCCTTTG GCCAGATGAG ATTGCGCAGC AATTTCGCTA TGTGGCGGGC
TTAAGCCAGT TTATTACCGA AGCGATTCAT CGCGATGAAG TTTTAGCGCG TGAGCTACCG
AACATGTTAG CGCAACCAAG CCGTCAAGAA TCTTACCGTT CACGTCTTGC GGCACTGCTG
GGACAATGCC CGGATGAGAT GTCTGGTCAT CGCGTATTGC GTCAGTTTCG CAACCGAGAA
ATGGTGTACA TTGCGTGGAA GGATTTCACG CATGCATGGT CGCTAGAAAC GTCTTTAAGC
CACTTATCCG AGTTGGCTGA AGCGATGATT TTTGAAACCT ATCAGTGGCA ATATCAAGCG
TGTTGTCAGG AGTGGGGAAC GCCGACGAGT GAGGAAGGTG AAGTACAGCC GATGTTGATT
ATCGGCATGG GGAAACTGGG TGGCGGCGAG TTAAACTTTT CTTCCGATAT TGATCTAATT
TTCACATATC CAGAGAATGG CGAAACCCAA GGCGCTCGCC GCAGCATTGC TAATGCGCAA
TTCTTTACCC GTTTAGGGCA GCGAATCATT AAAGCGCTTG ACCAACAAAC CTTTGACGGC
TTCTGTTACC GCGTCGACAT GCGACTTCGC CCATTTGGAG AAAGTGGCCC ATTAGTCATG
AGCTATGCTG CACTAGAGGA TTACTATCAA GAACAGGGAC GTGACTGGGA GCGTTACGCA
ATGATCAAAG CTCGAGTGAT GGGGTGCGAA ATGTACCCGC AATACCAAGA GCTACGCCAA
ATGCTGCGTC CTTTTGTTTT TCGTCGCTAT ATTGATTTCA GTGCGATTCA GTCTTTGCGT
CGGATGAAAT CGATGATCAG TAGTGAGGTT CGCCGCCGAG GTTTGAACAA CAACATTAAG
TTAGGCGCAG GTGGTATCCG AGAAATTGAA TTTATCGCCC AAGTTTTTCA ATTAATTCGA
GGTGGTCGCG AGCCTTCTCT TCGTAATCGA GGGTTGTTGG AAACGCTGCA AGGCATTGAA
GAGCTGGCGT TACTCACTTC GCAAGAAGTC AGCAGTCTAG AAGCTGCATA CAAGTACTTG
CGTCAATTAG AAAACTTGTT GCAAGCGATG GCGGACAAGC AAACCCAGAC GCTGCCTGAT
TGCGAAACCG AACGCTTAAA GCTCGCTACC GCGATGCAAA TGACCTCTTG GGACCAACTG
ATTGAGCAAA CTCAGCAGCA CATGGCGAAT GTCCATCAAG TATTTGAGTC GTTAATTGGT
GATGATGAAG AAGACGAGGG TACTACGGTT GCTCGTCATT TTCATGAGCT ATGGGATATG
GCGAACAAAC AAGATGTGCT TGAACATATC TTGCAGCAGG ATATTCAGGT TGAAGACTTT
GCTTCATGCG CGAAAACCAT CATCAACTTT AAAACCGATC TGGCTAAAAA AACGTTAGGA
CCGCGTGGAC GCGAAGTGTT AAACCGTTTG ATGCCGAAGG TATTTGATGC GGTGTTTGCC
CACCCTGATG CACAGTTTGG TTTACCGCGA GTGCTGCATT TACTGCACAA TATCTGCACT
CGTACGACTT ATCTGGAGTT ATTGGATGAG CACCCAGCGG CTTTAGTACA GCTCGTGCGT
TTGTGTACCG CAAGCCCAAT GATTTCAGAG CAGTTATCTC GGTATCCGAT CTTACTCGAT
GAGTTGATCG ATCCTGCACA GTTGTACAAT CCAATCCCAT TAGACAGTTA CCGCACAGAG
CTGCGTGATT ATCTGGCCCG TATTCCAGAA GATGATATGG AGCAGCAAAT GGAAGCGTTG
CGCCAGTTTA AGCAAATCTG CATTTTACGT ATTGCGGCGG CGGATATTGC TGGTGCATTG
CCGGTGATGA AAGTGAGTGA TCACTTAACC TATTTGGCGG AAGCTATCGT TGATGCGGTG
GTCAGTCAGG CTTGGTTGCA GGTGTCCGAA AAATACGGCG AGCCAACGCA TGTAAAAGAT
CGTGAAGGGA AGGGTTTTGC CGTCATTGGT TATGGCAAAG TCGGTGGCTG GGAACTCGGC
TATAACTCCG ACTTGGATAT CGTCTTCATG CATGACTGCC CAGTCAATGT CTATACAGAT
GGCAAAAAGG AAATCGACGG CCGTCAGTTC TACCTTCGCC TAGCGCAGCG CATCATCCAT
ATTTTCTCGA CTCGCACCGC TTCCGGCATT TTGTACGAAG TCGATACCCG CTTGCGCCCA
TCTGGCGCGT CAGGTTTGTT GGTTAGCCCA ACCGATGCGT TTGACGATTA TCAGCATCAA
GAAGCCTGGA CATGGGAGCA TCAAGCACTT GTGCGCGCGC GCTTGATTTA CGGCGATGAA
CCCCTTGCCA TTGCATTTCA CAATACGCGA CATGATGTGT TGTGCAAAGC GCGCGATCGG
GCGGAACTGA AAAAAGCCGT TGTCGAAATG AGAGAGAAAA TGCGCGGTCA TCTTGGGGGG
AAAAAGCCCG GCCGTTTTAT GCTCAAGCAA GATGTGGGAG GGATTACCGA TATCGAATTT
CTCGCTCAGT ACTTAGTGCT CAACTATAGT CACGATAAGC CGAAATTAAC GCGTTGGTGT
GATAATGTGC GCATCTTTGA AACGCTCATT GCACAAAATG TCATGGACGA AGACCAGGCA
ATGCAGTTGA TACGTGCCTA CACGACAATG CGAAACGAAA TACACCGGAG AAATCTACTC
AATTTAGATG CTGATGTGGT GGAAGATAAG TTTGTTGCCG AAAGGGAGTG GGTAAAACAG
GCTTGGAATC AGTGGTTCAG TTAA
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| Protein sequence | MQLPSPLISI AESAVQNAQE AGYFPLWPDE IAQQFRYVAG LSQFITEAIH RDEVLARELP
NMLAQPSRQE SYRSRLAALL GQCPDEMSGH RVLRQFRNRE MVYIAWKDFT HAWSLETSLS
HLSELAEAMI FETYQWQYQA CCQEWGTPTS EEGEVQPMLI IGMGKLGGGE LNFSSDIDLI
FTYPENGETQ GARRSIANAQ FFTRLGQRII KALDQQTFDG FCYRVDMRLR PFGESGPLVM
SYAALEDYYQ EQGRDWERYA MIKARVMGCE MYPQYQELRQ MLRPFVFRRY IDFSAIQSLR
RMKSMISSEV RRRGLNNNIK LGAGGIREIE FIAQVFQLIR GGREPSLRNR GLLETLQGIE
ELALLTSQEV SSLEAAYKYL RQLENLLQAM ADKQTQTLPD CETERLKLAT AMQMTSWDQL
IEQTQQHMAN VHQVFESLIG DDEEDEGTTV ARHFHELWDM ANKQDVLEHI LQQDIQVEDF
ASCAKTIINF KTDLAKKTLG PRGREVLNRL MPKVFDAVFA HPDAQFGLPR VLHLLHNICT
RTTYLELLDE HPAALVQLVR LCTASPMISE QLSRYPILLD ELIDPAQLYN PIPLDSYRTE
LRDYLARIPE DDMEQQMEAL RQFKQICILR IAAADIAGAL PVMKVSDHLT YLAEAIVDAV
VSQAWLQVSE KYGEPTHVKD REGKGFAVIG YGKVGGWELG YNSDLDIVFM HDCPVNVYTD
GKKEIDGRQF YLRLAQRIIH IFSTRTASGI LYEVDTRLRP SGASGLLVSP TDAFDDYQHQ
EAWTWEHQAL VRARLIYGDE PLAIAFHNTR HDVLCKARDR AELKKAVVEM REKMRGHLGG
KKPGRFMLKQ DVGGITDIEF LAQYLVLNYS HDKPKLTRWC DNVRIFETLI AQNVMDEDQA
MQLIRAYTTM RNEIHRRNLL NLDADVVEDK FVAEREWVKQ AWNQWFS
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