Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Ent638_2923 |
Symbol | |
ID | 5111950 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Enterobacter sp. 638 |
Kingdom | Bacteria |
Replicon accession | NC_009436 |
Strand | - |
Start bp | 3172082 |
End bp | 3173740 |
Gene Length | 1659 bp |
Protein Length | 552 aa |
Translation table | 11 |
GC content | 56% |
IMG OID | 640493111 |
Product | thiamine pyrophosphate binding domain-containing protein |
Protein accession | YP_001177638 |
Protein GI | 146312564 |
COG category | [G] Carbohydrate transport and metabolism [H] Coenzyme transport and metabolism [R] General function prediction only |
COG ID | [COG3961] Pyruvate decarboxylase and related thiamine pyrophosphate-requiring enzymes |
TIGRFAM ID | [TIGR03393] indolepyruvate decarboxylase, Erwinia family |
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Plasmid Coverage information |
Num covering plasmid clones | 11 |
Plasmid unclonability p-value | 0.356965 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 6 |
Fosmid unclonability p-value | 0.0604993 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCGAACCC CATACTGCGT CGCCGATTAT CTGCTGGACC GTCTATCACA GTGTGGCGTT GAGCACCTGT TTGGCGTGCC GGGTGACTAC AATCTCCAGT TCCTTGATCA CGTTATCGAT AGCCCCGAAA TCCGTTGGGT AGGGTGTGCA AACGAACTCA ACGCCTCCTA TGCCGCCGAT GGATATGCGC GCTGCCAGGG TTTTGCCGCG TTGCTCACGA CATTTGGCGT GGGAGAACTG AGTGCGATGA ACGGCATCGC TGGCAGTTTT GCGGAGTACG TGCCGGTATT ACACATCGTA GGCGCGCCGT GTAGTGCCGC GCAGCAAAAG GGTGAGCTCA TGCATCACAC CTTGGGCGAT GGAGAATTCC GCCATTTCTT CAAGATGAGC GAGTCCATTA CCGCAGCGCA GGCCATTCTC ACTGAACAAA ATGCCTGCTA TGAAATTGAT CGCGTATTGT CAGTGATGCG ACGCGAGCGC CGTCCTGGTT ATCTGATGTT ACCCGCAGAT GTGGCAAAAA AACCTGCCAT ACCGCCTGTA AGCGCTTTCA CTAATGCGCT TTTTCCCTTT GATAACGCTT GTCTACAAGC GTTCCGCGAG GCCGCAGAGG CGCGTCTTGC GACCAGCCAC CGTACGGCGC TACTTGCTGA CTTTTTAGTC CTGCGTTATG GGCTAAAAAA TCCGCTGCAG GCGTGGGTCA AAGAGACGCC CATGGCACAT GCAACGATGC TGATGGGGAA AGGGATTTTT GATGAGCGAC AGGCTGGTTT TTACGGGACA TACAGTGGGG CGGCAAGCAC CGATGCCGTC CGAGACGCTA TCGAAGGGGC GGATACCGTC ATCTGCGTGG GCACGCGTTT CACCGACACG CTGACCGCGG GATTTACCCA TAAACTTACT GCGGCGCAGA CCATTGAAGT CCAGCCCCAT GCGGCTCGAA TTGGGGATCG TTGGTTTACA GGCATTCCTA TTGCGCGCGC GGTTGAGATC TTATCCGAGC TTTGCAGGCA GCATGTTACC CAACACGATC TGCCGATTCA TAAGCCCGCG CTTTCTCAGG AATATCATCA AGGCAAGCTG ACGCAGGATA ATTTCTGGCA CACGTTGCAA ACGTTTATTC GCCCCGGAGA TATCATTCTT GCCGATCAAG GGACTGCGGC GTTTGGCGCA AGTGCCCTGC GGCTGCCGTC GGACGTCAAC TTTATCGTTC AACCGCTATG GGGCTCGATT GGCTTTACGC TAGCAGCGGC ATTTGGCGCG CAAACCGCCT GTCCGGACAG GCGTGTGATT GTGCTCACCG GCGACGGCGC GGCACAACTG ACGATTCAGG AAATAGGTTC GATGCTGCGG GATGATCAGC GGCCTGTCAT TCTGGTGCTG AATAACGAGG GATATACCGT TGAGCGGGCG ATTCATGGGG CAGAGCAGCG CTATAACGAC ATCGCGCTGT GGAACTGGAC GCAAATCCCG CAGGCGCTCA GCCTGAACTG TCAGGCTCAG TGCTGGCGGG TCAGCGAAAC GGTACAGCTG GCAGAGGTAC TGGAAAAAGT CGCCCATCGC GAGCGACTTT CGCTGATTGA GGTGATGTTG CCCAAAGAGG ATATTCCTTC GCTGCTCAGC GCCATCACCA AAGCGCTGGA GGCACGTAAC AGCGGCTAG
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Protein sequence | MRTPYCVADY LLDRLSQCGV EHLFGVPGDY NLQFLDHVID SPEIRWVGCA NELNASYAAD GYARCQGFAA LLTTFGVGEL SAMNGIAGSF AEYVPVLHIV GAPCSAAQQK GELMHHTLGD GEFRHFFKMS ESITAAQAIL TEQNACYEID RVLSVMRRER RPGYLMLPAD VAKKPAIPPV SAFTNALFPF DNACLQAFRE AAEARLATSH RTALLADFLV LRYGLKNPLQ AWVKETPMAH ATMLMGKGIF DERQAGFYGT YSGAASTDAV RDAIEGADTV ICVGTRFTDT LTAGFTHKLT AAQTIEVQPH AARIGDRWFT GIPIARAVEI LSELCRQHVT QHDLPIHKPA LSQEYHQGKL TQDNFWHTLQ TFIRPGDIIL ADQGTAAFGA SALRLPSDVN FIVQPLWGSI GFTLAAAFGA QTACPDRRVI VLTGDGAAQL TIQEIGSMLR DDQRPVILVL NNEGYTVERA IHGAEQRYND IALWNWTQIP QALSLNCQAQ CWRVSETVQL AEVLEKVAHR ERLSLIEVML PKEDIPSLLS AITKALEARN SG
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