Gene Acid345_3108 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagAcid345_3108 
Symbol 
ID4072672 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameCandidatus Koribacter versatilis Ellin345 
KingdomBacteria 
Replicon accessionNC_008009 
Strand
Start bp3692034 
End bp3693749 
Gene Length1716 bp 
Protein Length571 aa 
Translation table11 
GC content61% 
IMG OID637985127 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_592183 
Protein GI94970135 
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 clones15 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones15 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGAAGAAAA CGATGACAGG TGCGCAGATC ATTTGGGAGT GCCTGGAGCG CGAAGGGACG 
AAGATCGCCT TCGGATATCC GGGCGGCGCC ATTCTGCCAA CGTACGACGC CTTGAAGCAC
TCGTCCATCC ACCACGTGCT GGTGCGCCAC GAGCAAGGCG CAACCCACAT GGCCGATGGC
TACGCGCGCG TGAGCGGCGG GGTTGGAGTG GCAATTGCCA CGTCGGGTCC CGGTGCGACC
AACATGGTCA CCGGCATTGC CACGGCCATG CTCGACTCCT CGCCCATCGT TTGCATCACC
GGCCAGGTCG GCTCCAAGCT CATCGGCACA GACGCGTTCC AGGAAACCGA CATCACCGGC
GTCACGCTGC CCATCACCAA GCACAACTAT CTCGTCACCA AGGCGTCGGA GATCGCGCAG
ACCATTCGCG AAGCTTTCTA CATCGCGAAG TCCGGTCGTC CCGGCCCGGT GCTCATCGAC
GTCACGAAAG ATGCGCAGCA GGGAACCTGC GAATTCGATT GGGAGTCTGC CGCGCCGCAA
CTACCCGGCT ATCGTCCCGA CCTCTCGCCC GACGCTGCTC ACTACAAGCA GGCCCTCGAG
CTGATCAAAA CTGCCAAGCG ACCGGTGATC TTTGCGGGCC ACGGCATCAT GATCTCCGGC
GCCATGCGCG AAGTTCGCGA CTTCGCCGAG AAGGCAGGAG TTCCGGTTGC ACTCACGCTG
CTCGGCATCG GCGCCTTTCC GGCATCGCAC CCGCTCAACC TCGGCATGAT GGGCATGCAC
GGCGAAGCAT GGGTCAATCA GGCCATTCAA GATGCCGACC TGCTCATCGC ACTCGGCATG
CGTTTCGACG ATCGCGTCAC CGGCAATCTC AAGAATTACG CGACCAAGGC GAAGAAGATC
CACGTCGAGA TCGATCCCTC CGAGATCAAC AAGAACGTAA AGGTTGATGT CGCGCTCGTT
GGCGATGTCC GCGAAGTTCT GAACGAACTC TTGCCGCACG TCGAAGCCAC TGACCGCAAA
GAGTGGTTCG ACCACATCGA GAGCCTCAAA GGCGACTCCG CAGTTCGCGA CATCCAGAAC
CTGCCCGACA ACGGTCATCT TTACGCTGCG CACGTCATCA ACGACATCTG GCGCGAAACC
GAAGGCAACG CCATCGTGGT TACCGACGTC GGCCAGCACC AGATGTGGGA AGCGCAGTAT
TACAAGCACG ACAACCCGCG CTCGCTCATC ACGTCCGGCG GCCTCGGCAC TATGGGTTTC
GCCCTGCCCG CGGCAATAGG CGCGAAGATG GCGAACCCCG ACGCTGAAGT CTGGGTCATC
GTCGGCGACG GCGGCTTCCA GATGACGATG TGCGAACTCG CGACCATCGT GCAGGAGCGC
CTCGACATCA ACATCGCCAT CATCAACAAC GGTTATCTCG GCATGGTGCG CCAGTGGCAG
GAATTTTTTT ACGAGCGCAA CTACCAGGCC ACGCCGCTGC TCAGCCCCGA TTTCAGCGTG
CTCGCCAGCG CCTATGGCAT CAAGAGCAGC AGCGTCACCA CGCGCGCTGA TGTGGTGCCG
ACGGTGCGCG CCGCGCGCAA GCATCAAGGC GCAGTGCTCA TCGATTTCCA GGTCGAGCAG
GAAGACACCG TTTACCCGAT GGTCCCGGCC GGCGCCGACC TCCACAACAT GATCCGCCGT
CCCAGCCCGA TCGTCGAAAC GGCGATGGAC AAATAG
 
Protein sequence
MKKTMTGAQI IWECLEREGT KIAFGYPGGA ILPTYDALKH SSIHHVLVRH EQGATHMADG 
YARVSGGVGV AIATSGPGAT NMVTGIATAM LDSSPIVCIT GQVGSKLIGT DAFQETDITG
VTLPITKHNY LVTKASEIAQ TIREAFYIAK SGRPGPVLID VTKDAQQGTC EFDWESAAPQ
LPGYRPDLSP DAAHYKQALE LIKTAKRPVI FAGHGIMISG AMREVRDFAE KAGVPVALTL
LGIGAFPASH PLNLGMMGMH GEAWVNQAIQ DADLLIALGM RFDDRVTGNL KNYATKAKKI
HVEIDPSEIN KNVKVDVALV GDVREVLNEL LPHVEATDRK EWFDHIESLK GDSAVRDIQN
LPDNGHLYAA HVINDIWRET EGNAIVVTDV GQHQMWEAQY YKHDNPRSLI TSGGLGTMGF
ALPAAIGAKM ANPDAEVWVI VGDGGFQMTM CELATIVQER LDINIAIINN GYLGMVRQWQ
EFFYERNYQA TPLLSPDFSV LASAYGIKSS SVTTRADVVP TVRAARKHQG AVLIDFQVEQ
EDTVYPMVPA GADLHNMIRR PSPIVETAMD K