Gene CCV52592_1428 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagCCV52592_1428 
SymbolilvB 
ID5406264 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameCampylobacter curvus 525.92 
KingdomBacteria 
Replicon accessionNC_009715 
Strand
Start bp950004 
End bp951698 
Gene Length1695 bp 
Protein Length564 aa 
Translation table11 
GC content49% 
IMG OID640872403 
Productacetolactate synthase 3 catalytic subunit 
Protein accessionYP_001408223 
Protein GI154175053 
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 clones
Plasmid unclonability p-value0.00100174 
Plasmid hitchhikingNo 
Plasmid clonabilitydecreased coverage 
 

Fosmid Coverage information

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

Sequence

Gene sequence
ATGAAAGAGT TAAACGGTTC GCAAATGATA AGCGAAGCAC TGAAGCTTGA AGGAGTGGAG 
GTCGTTTTTG GCTATCCTGG CGGTGCGGCG CTAAATATCT ACGACGAAAC ATATAAACAA 
AATTATTTCG AGCATGTCCT CACTCGCCAT GAGCAAGCCG CAGTGCACGC AGCCGACGGA 
TACGCACGCG CTAGCGGTAA AGTCGGAGTG GCGTTCGTTA CGAGCGGTCC GGGATTTACA 
AACGCCGTGA CCGGGCTCGC GACTGCGTAT TCAGACAGTA TCCCTCTCGT GCTCATAAGT 
GGACAGGTCG CGACATCGCT GATAGGAACG GACGCATTTC AAGAGATCGA CGCCGTAGGG 
ATCTCGCGCT CCTGTGTGAA GCATAACTAT CTGGTAAAAA ATATCGAAGA GCTGCCTAGA 
ATTTTAAAAG AGGCATTTTA CATCGCTCGC ACCGGACGAC CGGGTCCCGT GCATATCGAC 
GTACCAAAGG ACATAACGGC TGTGGTAGGA AAATTTGAAT ACCCAAAAGA GATAAGCATA 
CCTACTTATA AACCGACATA TAAGGGCAAC GCAAAACAGA TAAAAAAGGC CGCCGAGGTC 
ATAGAGGCGA GCAAAAGGCC GCTTGTTTAC GTGGGTGGAG GTGCGATCAG CTCGCAGGCT 
AGCGAGCTGG TGAGGGAATT TGTCAAAAAA GCCGGTATCC CAAGCGTTTG CACGCTGATG 
GGGCTTGGTG TTTTGGACCA TGATGACGAG CTGAATTTAG GCATGGCCGG CATGCACGGC 
AGCTATGCGG CAAATATGGC GCTATCGGAG AGCGATCTGC TGATCGCGCT AGGAGCGAGA 
TTTGATGATC GCATAACCGG AAAGCTGAGC GAATTTGCAA AGCATGCTAA GATCATTCAC 
ATCGACATCG ATCCAAGCTC TATCTCAAAG ATAATAAACG CTCATTTTCC GATAGTAGGC 
GATCTAAAGT GCGTGCTTGA GGAGCTCATC CCTCGCATAA ATGCAAACAG CAAGACTTTG 
GCGCCTTGGA GGGAAATTTT GGCTCGTTAT TCATCGCTTT ATCCTCTTAA ATTTGAGGAC 
AGCGATAAAA TTTTAAAGCC TCAATGGATC GTCCAGCAAA CCGCAAAAAT AGTCGGCAAG 
GACGCAGTGA TAGCCACCGA CGTAGGGCAG CATCAAATGT GGGTGGCGCA GTTTTATCCG 
TTTAACAGGC CTCGCCAGCT GATAACCAGC GGCGGACAAG GCACCATGGG ATACGGCCTG 
CCTGCTGCAC TGGGCGCTAA ATGGGCCGTA GGAGATAAGC CGGTCGTAAA TTTCACCGGA 
GACGGCTCGA TACTGATGAA TATCCAAGAG CTGATGACTG CAAGCGTGAA TAAAAAGCCC 
GTCATAAACA TCATTTTGAA CAATAGCTTT TTGGGCATGG TGCGTCAGTG GCAGACATTT 
TTTTACGGAG AGCGTTACTC GGCGACGGAT CTTGAGATCC AGCCTGATTT CGTCAAATTA 
GCGCAAAGCT TTGGCGGCAT AGGCTTTAAA GTAAGCACAA AAATGGAATT TCAAAAAGCG 
CTCAAAACCG CTCTCAAAAG CAATAAAATT TCGCTCATAG ATGTCGTCAT AGACCGCTTT 
GAGAACGTGC TTCCTATGGT GCCCGCAGGC GCTGCGATAT ACAACATGAT ACTTGATGAC 
AAGGGCCAAA AATGA
 
Protein sequence
MKELNGSQMI SEALKLEGVE VVFGYPGGAA LNIYDETYKQ NYFEHVLTRH EQAAVHAADG 
YARASGKVGV AFVTSGPGFT NAVTGLATAY SDSIPLVLIS GQVATSLIGT DAFQEIDAVG 
ISRSCVKHNY LVKNIEELPR ILKEAFYIAR TGRPGPVHID VPKDITAVVG KFEYPKEISI 
PTYKPTYKGN AKQIKKAAEV IEASKRPLVY VGGGAISSQA SELVREFVKK AGIPSVCTLM 
GLGVLDHDDE LNLGMAGMHG SYAANMALSE SDLLIALGAR FDDRITGKLS EFAKHAKIIH 
IDIDPSSISK IINAHFPIVG DLKCVLEELI PRINANSKTL APWREILARY SSLYPLKFED 
SDKILKPQWI VQQTAKIVGK DAVIATDVGQ HQMWVAQFYP FNRPRQLITS GGQGTMGYGL 
PAALGAKWAV GDKPVVNFTG DGSILMNIQE LMTASVNKKP VINIILNNSF LGMVRQWQTF 
FYGERYSATD LEIQPDFVKL AQSFGGIGFK VSTKMEFQKA LKTALKSNKI SLIDVVIDRF 
ENVLPMVPAG AAIYNMILDD KGQK