| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Shewana3_1788 |
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| Symbol | |
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| ID | 4477476 |
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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 | Shewanella sp. ANA-3 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008577 |
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| Strand | - |
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| Start bp | 2112522 |
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| End bp | 2115122 |
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| Gene Length | 2601 bp |
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| Protein Length | 866 aa |
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| Translation table | 11 |
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| GC content | 51% |
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| IMG OID | 639726371 |
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| Product | bifunctional acetaldehyde-CoA/alcohol dehydrogenase |
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| Protein accession | YP_869427 |
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| Protein GI | 117920235 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG1012] NAD-dependent aldehyde dehydrogenases
[COG1454] Alcohol dehydrogenase, class IV |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 16 |
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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 | 15 |
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| Fosmid unclonability p-value | 0.131231 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGACAGTAA CCAATGCTCA AGAACTGGAT CTCATGGTCG AGCGCGTCGC CAAAGCGCAA
GCCGAATATG CCAGTTTTAG CCAAGCCCAA GTCGATGCCA TTTTCCGCGC CGCAGCTTTG
GCCGCCGCCG ATGCACGTAT ATCGCTCGCG AAAATGGCCG CAGCCGAAAC CCGAATGGGG
GTGATTGAAG ACAAAGTGAT TAAAAACCAC TTTGCTTCCG AGTACATTTA CAACAAGTAT
AAAGATGAAA AGACCTGCGG GATTTTATCT GAGGACCCGA CCTTCGGCAC TATCACAATC
GCCGAGCCAG TGGGCATTAT CTGTGGGATT GTTCCCACCA CGAATCCCAC CTCCACCGCC
ATCTTCAAAG CGTTGATAAG CCTTAAAACC CGCAATGCGA TTATTTTCTC CCCTCACCCA
AGGGCAAAAG TCTCGACCAC CACAGCGGCC AAACTGGTGC TAGATGCCGC CATTGCCGCC
GGTGCGCCCA AGGACATTAT CGGTTGGATT GATGAGCCCA GTGTGGCACT TTCCAACCAA
TTGATGACCC ACCCTAAAGT GAACCTTATC CTCGCCACAG GTGGCCCAGG AATGGTGAAA
GCCGCCTACT CCTCCGGCAA ACCCGCCATT GGCGTGGGTG CGGGTAACAC GCCAATTGTG
ATTGATGAAA CCGCCGATAT AAAACGCGCG GTCAGCTCGA TTCTGATGTC TAAAACCTTC
GATAACGGTG TTGTCTGTGC CTCAGAGCAA GCGGTGATTG TAGTCGATAG TATCTACGAA
CAAGTTAAAG AGCGCTTCGC GACCCACGGT GGTTATCTCT TAAATGCAGC GCAAACCGCT
GCAATGCAAC AAGTTATCCT TAAAAATGGC GGCTTAAATG CCGATATCGT CGGCCAAAGC
GCCGCGACCA TAGCGCAAAT GGCGGGCATT GATGTCCCCT ACACTACCAA GGTCTTGATT
GGTGAAGTCA CGGATATCAC TGAGGCCGAA GCCTTTGCCC ACGAAAAACT CTCTCCTTTA
CTTGGCATGT ACCGCGCCGC CGATTTCAAT GACGCCTTCG ATAAAGCCGA AGCCTTAGTT
GCCTTAGGCG GCATTGGCCA CACATCCGGC TTATATACTG ACCAAGACAC CCAAACCGAG
CGGGTGAAAA CCTTTGGTTT TAGAATGAAA ACCGCGCGAA TTCTAATCAA TACTCCAGCA
TCACAAGGCG GAATTGGCGA TTTGTACAAC TTTAAACTCG CTCCCTCGCT CACCTTAGGC
TGCGGCTCTT GGGGCGGAAA CTCGATTTCT GAAAACGTCG GTCCAAGCCA TTTAATCAAT
AAGAAAACCG TCGCTAAGAG GGCTGAAAAT ATGCTGTGGC ACAAGCTTCC TTCGTCTATC
TACTTCCGCC GCGGCAGTTT ACCCATCGCC CTTGAAGAAT TGAGCGATAA AAGACGCGCC
CTCGTAGTGA CCGACAGATT CCTGTTTAAC CAAGGTTATT GCGACGAAAC CTTAAAGATT
TTAAAAGCCC AGGGTCTTGA AACCGAAGTC TTTTACGAGG TGGAAGCCGA TCCCACACTG
GCCACAGTGC GCCAAGGTGC CAAAGTCGCC AATAGCTTTA AACCCGATGT GATTATCGCC
TTAGGCGGTG GCTCGCCCAT GGATGCGGCC AAGATTATTT GGGTGATGTA CGAGCATCCC
GATGTCGATT TTGCCGATTT AGCCCTGCGC TTTATGGATA TCCGTAAACG TATCTATAAA
TTCCCTAAAA TGGGCGTCAA AGCCACTATG GTGGCAATCC CCACCACATC CGGCACAGGC
TCAGAGGTCA CACCTTTTGC CGTGGTGACC GATGAACAAA CCGGTAAAAA GTACCCCATC
GCCGACTATC AACTCACCCC AAACATGGCG ATTGTTGACC CGAATCTGGT GATGGATATG
CCGAAATCCT TAACCGCTTT CGGCGGAATT GATGCAATCA CCCACGCACT CGAAGCCTAT
GTCAGCGTAA TGGCGAATGA GTACAGCGAT GGTCAAGCCC TGCAAGCACT TGACCTACTG
TGCAAATATT TACCCGATGC TTATCAGCTT GGCGGCGCAT CCCCTATCGC CCGTGAAAAA
GTGCACAATG GCGCGACTAT AGCTGGTATC GCCTTTGCCA ACGCCTTTCT TGGGATCTGT
CACTCTATGG CCCATAAACT GGGCGCCGAG TTTCACTTAG CCCATGGGCT GGCCAATGCG
CTACTCATTA GTAACGTGAT CCGCTTTAAT GCGACCGACT TACCCACTAA GCAAGCCGCA
TTCAGCCAAT ACGACAGACC CAAAGCCCTC TGTCGCTACG CGGCCATTGC CGATCATTTA
GCCTTAGATG GAAACTCAGA TGCGGAAAAA GTCGAGAAAT TGCTGGAAAA AATCGAGCAA
CTCAAGAAGA CGCTGGGCAT TCCAGCATCT ATCCAAGAAG CGGGAGTTAA CGAAGCCGAC
TTCCTCGCCA AACTAGACGA GCTCGCCGAG GATGCCTTCG ATGATCAATG TACTGGCGCC
AACCCTCGCT ACCCCTTGAT TAGTGAGCTA AAACAGCTAC TGCTCGACAG CTACTATGGC
CGCCCCTTCA CCGAGCAATA G
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| Protein sequence | MTVTNAQELD LMVERVAKAQ AEYASFSQAQ VDAIFRAAAL AAADARISLA KMAAAETRMG
VIEDKVIKNH FASEYIYNKY KDEKTCGILS EDPTFGTITI AEPVGIICGI VPTTNPTSTA
IFKALISLKT RNAIIFSPHP RAKVSTTTAA KLVLDAAIAA GAPKDIIGWI DEPSVALSNQ
LMTHPKVNLI LATGGPGMVK AAYSSGKPAI GVGAGNTPIV IDETADIKRA VSSILMSKTF
DNGVVCASEQ AVIVVDSIYE QVKERFATHG GYLLNAAQTA AMQQVILKNG GLNADIVGQS
AATIAQMAGI DVPYTTKVLI GEVTDITEAE AFAHEKLSPL LGMYRAADFN DAFDKAEALV
ALGGIGHTSG LYTDQDTQTE RVKTFGFRMK TARILINTPA SQGGIGDLYN FKLAPSLTLG
CGSWGGNSIS ENVGPSHLIN KKTVAKRAEN MLWHKLPSSI YFRRGSLPIA LEELSDKRRA
LVVTDRFLFN QGYCDETLKI LKAQGLETEV FYEVEADPTL ATVRQGAKVA NSFKPDVIIA
LGGGSPMDAA KIIWVMYEHP DVDFADLALR FMDIRKRIYK FPKMGVKATM VAIPTTSGTG
SEVTPFAVVT DEQTGKKYPI ADYQLTPNMA IVDPNLVMDM PKSLTAFGGI DAITHALEAY
VSVMANEYSD GQALQALDLL CKYLPDAYQL GGASPIAREK VHNGATIAGI AFANAFLGIC
HSMAHKLGAE FHLAHGLANA LLISNVIRFN ATDLPTKQAA FSQYDRPKAL CRYAAIADHL
ALDGNSDAEK VEKLLEKIEQ LKKTLGIPAS IQEAGVNEAD FLAKLDELAE DAFDDQCTGA
NPRYPLISEL KQLLLDSYYG RPFTEQ
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