Gene BCB4264_A1851 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagBCB4264_A1851 
SymbolilvB2 
ID7096451 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameBacillus cereus B4264 
KingdomBacteria 
Replicon accessionNC_011725 
Strand
Start bp1756510 
End bp1758231 
Gene Length1722 bp 
Protein Length573 aa 
Translation table11 
GC content40% 
IMG OID643469387 
Productacetolactate synthase 3 catalytic subunit 
Protein accessionYP_002366569 
Protein GI218235285 
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-value0.842705 
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
ATGGAAATGA AGCAGCAGTA TACAGCGTAT GAGAAGTTAC AGTATGAAGA AATGACAGGC 
GCTGGGCACG TGATTCAATG TTTGAAGAAA TTGGGTGTAA CGACCGTTTT CGGCTATCCA 
GGCGGAGCGA TTTTACCAGT ATACGATGCG TTATACGAAA GTGGTTTGAA ACATGTTTTA 
ACTCGTCATG AGCAAGCTGC CATTCATGCG GCTGAAGGAT ATGCGAGAGC TTCTAGAAAG 
GTCGGGGTAG TCTTTGCTAC CTCTGGCCCA GGGGCGACAA ATTTAGTTAC GGGCTTAGCA 
GACGCTTATA TGGATTCGAT TCCTTTAGTT GTCATTACCG GTCAAGTTGC GACGCCTTTA 
ATTGGTAAAG ATGGATTTCA AGAAGCGGAT GTTGTCGGAA TTACAGTACC TGTAACGAAG 
CATAATTACC AAGTTCGTGA TGTAAATCAT GTATCACAAG TTGTGCAAGA AGCTTTTTAC 
ATCGCCAAAA GCGGACGACC GGGACCAGTA TTAATCGATA TTCCAAAAGA TGTTCAAAAT 
GCAAAAGTCA CCAGTTTCTT TAATGAAGAA GTTGATATTC CGGGGTACAA ACCAGAACTT 
GTACCAGACA GCATGAAACT TAGAGAGGTG GCTAAAGCAA TTTCAAAATC AAAGCGTCCA 
CTTCTTTATA TTGGAGGAGG TGTCATTCAT TCAGGTGGAT CCGATGAACT CTTCGAATTC 
GCAAGGGAGA ACCGTATTCC AGTCGTTTCA ACTTTAATGG GACTTGGTGC ATATCCACCG 
GGAGATCCAT TGTTTCTAGG GATGCTTGGT ATGCATGGGA CATACGCTGC TAATATGGCG 
GTAACAGAAT GTGATTTATT ACTTGCATTA GGTGTTCGCT TCGATGATCG TGTAACAGGA 
AAATTAGAAC TTTTTTCTCC GCACTCGAAA AAAGTACATA TTGATATTGA TCCTTCTGAG 
TTTCATAAAA ATATAACTGT AGAGCATCCG ATTGTTGGTG ATGTGAAAAA AGCGTTACAC 
ATGTTGTTAC ATATGTCTAT TTATACACAA ACAGACGAAT GGCTTCAGAA AGTAAAGGCA 
TGGAAAGAAG AATATCCACT TTCTTATAAG CAAAAAGAAT CTGAGTTAAA ACCACAGCAT 
GTGATCAACT TAGTAAGTGA ATTAACGAAT GGTGAAGCGA TTGTCACAAC AGAAGTAGGA 
CAGCATCAAA TGTGGGCTGC TCACTTCTAT AAAGCAAGAA AACCTCGGAC GTTCCTTACT 
TCTGGAGGAT TAGGAACGAT GGGGTTTGGT TTTCCAGCAG CAATCGGTGC TCAGCTAGCT 
AAAAAAGAAG AACTTGTTAT TTGTATTGCA GGTGATGCTT CTTTTCAAAT GAACATTCAA 
GAACTACAAA CAATTGCTGA AAATAATATC CCTGTAAAAG TATTTATCAT AAATAACAAA 
TTTTTAGGGA TGGTAAGGCA ATGGCAAGAA ATGTTTTATG AAAATCGTTT ATCAGAGTCA 
AAAATTGGAT CACCAGATTT TGTGAAAGTA GCAGAAGCTT ATGGAGTAAA GGGATTAAGA 
GCAACAAATT CAACCGAGGC GAAACAAGTG ATGTTAGAAG CATTTGCTCA CGAAGGTCCT 
GTCGTAGTTG ATTTTTGTGT AGAAGAAGGT GAAAACGTAT TTCCGATGGT TCCGCCAAAC 
AAAGGAAATA ACGAAATGAT TATGAAGAGG TGGGAAGAAT GA
 
Protein sequence
MEMKQQYTAY EKLQYEEMTG AGHVIQCLKK LGVTTVFGYP GGAILPVYDA LYESGLKHVL 
TRHEQAAIHA AEGYARASRK VGVVFATSGP GATNLVTGLA DAYMDSIPLV VITGQVATPL 
IGKDGFQEAD VVGITVPVTK HNYQVRDVNH VSQVVQEAFY IAKSGRPGPV LIDIPKDVQN 
AKVTSFFNEE VDIPGYKPEL VPDSMKLREV AKAISKSKRP LLYIGGGVIH SGGSDELFEF 
ARENRIPVVS TLMGLGAYPP GDPLFLGMLG MHGTYAANMA VTECDLLLAL GVRFDDRVTG 
KLELFSPHSK KVHIDIDPSE FHKNITVEHP IVGDVKKALH MLLHMSIYTQ TDEWLQKVKA 
WKEEYPLSYK QKESELKPQH VINLVSELTN GEAIVTTEVG QHQMWAAHFY KARKPRTFLT 
SGGLGTMGFG FPAAIGAQLA KKEELVICIA GDASFQMNIQ ELQTIAENNI PVKVFIINNK 
FLGMVRQWQE MFYENRLSES KIGSPDFVKV AEAYGVKGLR ATNSTEAKQV MLEAFAHEGP 
VVVDFCVEEG ENVFPMVPPN KGNNEMIMKR WEE