Gene Fjoh_2862 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagFjoh_2862 
Symbol 
ID5090491 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameFlavobacterium johnsoniae UW101 
KingdomBacteria 
Replicon accessionNC_009441 
Strand
Start bp3395272 
End bp3396966 
Gene Length1695 bp 
Protein Length564 aa 
Translation table11 
GC content37% 
IMG OID644742293 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_001195202 
Protein GI146300611 
COG category[E] Amino acid transport and metabolism
[H] Coenzyme transport and metabolism 
COG ID[COG0028] Thiamine pyrophosphate-requiring enzymes [acetolactate synthase, pyruvate dehydrogenase (cytochrome), glyoxylate carboligase, phosphonopyruvate decarboxylase] 
TIGRFAM ID[TIGR00118] acetolactate synthase, large subunit, biosynthetic type 


Plasmid Coverage information

Num covering plasmid clones22 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGGGAACAA TTAGAATATC AGGCGCCGAA GCCGTTATTA GATGCTTATT AGAAGAAGGA 
GTAGACTTAA TTTATGGGTA TCCGGGAGGA GCTATAATGC CGGTTTACGA CGAATTATAT 
AAATTTCAGG ATCAGCTGCA CCACGTTTTA GTACGTCACG AACAAGGTGC AACGCATGCT 
GCTCAGGGAT ATGCGAGAGC AACAGGAAAA GTGGGTGTTG CAATTGCAAC TTCTGGACCG 
GGAGCTACAA ATCTTGTAAC TGGAATTGCA GATGCTCAGA TCGACTCAAC TCCAATGGTT 
TGTATTACAG GACAAGTTGG AAGACATTTA TTAGGATCTG ATGCTTTTCA GGAAACGGAT 
ATCATCGGAA TTTCAACTCC GGTTACAAAA TGGAACTTTC AGGTAACCGA AGCTTCTCAA 
ATTCCTGAAA TTATTGCAAA AGCATTTTAT ATCGCTCGTT CTGGACGTCC AGGGCCTGTT 
TTAATCGACA TTACTAAAAA TGCTCAGTTT GATGAGTTTG ATTTTAGTTA TGAAAAATGT 
ACTGGAATTA GAAGTTATAA TCCGGTTCCG AAATTAAATT TAGATAAAGT TGCCGAAGCT 
GCAGCCTTAA TTAATAGTGC TAAAAAACCT TTTATCGTTT TCGGTCAGGG AATTATATTA 
GGTCAGGCTG AAGCTGAATT TAAGGCAGTT CTTGAAAAAT CAGGAATTCC GGCTGCATGG 
ACTATTTTAG GACTTTCGGC TCTGCCAACA GATCATCCTT TAAATGTTGG TATGTTAGGA 
ATGCACGGTA ATTATGCACC AAACTTATTA ACTAACGAAT GTGATGTATT AATTGCTTTC 
GGTATGCGTT TTGACGATCG TGTAACGGGT AATTTAAAAA CTTATGCAAA ACAGGCAAAA 
GTAATTCACT TCGAAATTGA TCCTGCAGAG GTTGATAAAA ACGTTAAAAC AGAAATTGCT 
GTTTTAGGTG ATGTAAAAGA ATCTTTAGCT GCTTTATTGC CGCTGCTTGA TGCAAAATCA 
CACGATTTAT GGCACAATGA ATTTAAAGAA TTGGCGAAAA TTGAATTTGA TTCGGTAATT 
AAAGACGAAT TAAATCCATC ATCAGCTGGT CTTTCGATGG GAGAAACTAT TGAAATGATT 
AACAAACACT CAAAAGGTGA TGCAATTATA GTTTCAGACG TAGGACAGCA TCAAATGTTT 
GCCTGCCGTT ATGCAAAATT CAATTCAACA AAAAGTAATA TTACTTCTGG CGGATTAGGA 
ACAATGGGAT TTGCGCTTCC GGCTGCAATT GGAGCTAAAA TGGGAAGACC AGACCGTGAA 
GTTGTTGCTA TTATTGGCGA TGGAGGTTTT CAGATGACAA TTCAGGAATT AGGAACGATT 
TTTCAGACTC AGGTTCCTGT AAAAATTGTA ATTCTAAATA ATGAGTTTTT AGGAATGGTA 
CGTCAATGGC AGGAATTGTT CTTTGATAAC AGATACGCTT CAACAAAAAT GATTAATCCA 
AATTTTGTTG CCATTGCCGA AGGATATCAT ATTAAATCTA AAAAAGTAAC ACAGCGAGAA 
GATTTAGATG CTGCTGTTGC AGAAATGCTG GCTTCAAAAG ATTCTTATTT CTTAGAAGTT 
ATGGTGGAAA AAGAAAACAA CGTTTTCCCA ATGATTCCAA CCGGAGCGTG TGTTTCAGAA 
ATTAGATTAA GTTAA
 
Protein sequence
MGTIRISGAE AVIRCLLEEG VDLIYGYPGG AIMPVYDELY KFQDQLHHVL VRHEQGATHA 
AQGYARATGK VGVAIATSGP GATNLVTGIA DAQIDSTPMV CITGQVGRHL LGSDAFQETD 
IIGISTPVTK WNFQVTEASQ IPEIIAKAFY IARSGRPGPV LIDITKNAQF DEFDFSYEKC 
TGIRSYNPVP KLNLDKVAEA AALINSAKKP FIVFGQGIIL GQAEAEFKAV LEKSGIPAAW 
TILGLSALPT DHPLNVGMLG MHGNYAPNLL TNECDVLIAF GMRFDDRVTG NLKTYAKQAK 
VIHFEIDPAE VDKNVKTEIA VLGDVKESLA ALLPLLDAKS HDLWHNEFKE LAKIEFDSVI 
KDELNPSSAG LSMGETIEMI NKHSKGDAII VSDVGQHQMF ACRYAKFNST KSNITSGGLG 
TMGFALPAAI GAKMGRPDRE VVAIIGDGGF QMTIQELGTI FQTQVPVKIV ILNNEFLGMV 
RQWQELFFDN RYASTKMINP NFVAIAEGYH IKSKKVTQRE DLDAAVAEML ASKDSYFLEV 
MVEKENNVFP MIPTGACVSE IRLS