Gene BCAH820_1488 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagBCAH820_1488 
SymbolilvB 
ID7188754 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameBacillus cereus AH820 
KingdomBacteria 
Replicon accessionNC_011773 
Strand
Start bp1405996 
End bp1407705 
Gene Length1710 bp 
Protein Length569 aa 
Translation table11 
GC content40% 
IMG OID643554900 
Productacetolactate synthase catalytic subunit 
Protein accessionYP_002450439 
Protein GI218902605 
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 clonesn/a 
Plasmid unclonability p-valuen/a 
Plasmid hitchhikingn/a 
Plasmid clonabilityn/a 
 

Fosmid Coverage information

Num covering fosmid clones224 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGAGAACAA TGTCTTCAAA AACGGAAGAG AAACTGGCAA CCGGTGCACA GCTATTGTTA 
GAAGCGCTAG AAAAGGAAGG AGTAGAAGTG ATTTTTGGTT ATCCTGGTGG TGCAGTTTTA
CCTCTTTATG ATGCGCTCTA TGACTGTGAA ATTCCGCATA TTTTAACAAG GCATGAACAA
GGAGCTATTC ACGCCGCGGA AGGGTATGCC AGAATTACTG GCAATCCAGG GGTTGTCATT
GCAACGAGTG GACCAGGTGC TACGAATGTA ATTACTGGTC TAGCAGATGC GATGATTGAT
TCATTGCCAC TTGTTGTATT TACAGGGCAA GTAGCAACAA CGTTAATTGG AAGCGATGCT
TTCCAAGAAG CGGATATTAT GGGGCTTACG ATGCCAGTGA CAAAACATAA CTATCAAGTG
CGAAAGGCTT CAGATTTACC TCGAATTATT AAAGAAGCAT TTCATATTGC TAGAACAGGA
AGACCAGGCC CAGTCGTCAT TGACCTTCCG AAAGATATGG TAGTAGAGCA AGGCGAACGA
TGTAGTGATG TGCAAATGGA TTTACCAGGA TACAACCCTA ATTATGAACC GAATCTACTG
CAAATAAACA AATTATTACA AGCAATTCAG GTTGCAAACA AGCCATTAAT TTTAGCTGGA
GCAGGTGTAT TGCATGCGAA AGCTTCAAAA GAATTAACAA GTTTTGCTCG TAAATATGAA
ATTCCTGTTG TGCATACATT ACTTGGTCTT GGTGGGTTTC CACCAGATGA TGAACTATTT
CTAGGGATGG GAGGAATGCA TGGTTCTTAC ACAGCTAATA TGGCGTTATA TGAATGCGAC
TTACTCATTA ATATAGGCGC GAGATTCGAT GATCGTCTTA CTGGAAATTT AGCTTATTTT
GCGAAAGAGG CGACTGTCGC GCATATCGAT ATTGATCCAG CAGAAATCGG AAAAAATGTA
CCGACTGAAA TTCCTATTGT TGCAAGTGCT AAGCAAGCGC TCCAAGTATT GCTTCAACCA
GAAGGAAGGA AAGAAAATCA TCATGAGTGG ATCTCTTTAT TAAAGAATAG AAAAGAAAAG
TATCCATTCT CTTATAAACG AAATTCTGAA AGTATTAAGC CTCAATATGC AATTGATATG
TTATATGAAA TTACGAAGGG AGAAGCGATT GTAACAACAG ATGTGGGGCA ACATCAAATG
TGGGCAGCAC AATATTATCC GCTCAAAACT CCAGATAAAT GGGTAACTTC AGGAGGACTA
GGAACGATGG GATTTGGATT TCCGGCAGCA ATTGGTGCAC AAATTGCAAA GCCTGATGAA
CTAGTTATTG CAATTGTCGG TGATGCTGGA TTTCAAATGA CTCTGCAAGA ATTAAGTGTG
TTAAAAGAAC ACTCTTTACC TGTTAAAGTA TTTATTTTAA ATAATGAAGC TTTAGGAATG
GTAAGACAAT GGCAAGATGA ATTTTATAAC CAAAGATATT CGCACTCTTT ACTATCGTGT
CAACCAGATT TCGTTGCTCT TGCGAATGCG TATGGCATAA AAGGGGTTCG CATAGATGAT
CCACTTCTTG CAAAGAAACA ATTGCAGCAT GCAATTCAAT TACAAGAGCC AGTTGTAATT
GATTGCCGTG TACTTCAATC AGAAAAGGTA ATGCCGATGG TTGCGCCAGG GAAAGGTGTT
CACCAAATGG AGGGAGTGGA AAAAAGGTGA
 
Protein sequence
MRTMSSKTEE KLATGAQLLL EALEKEGVEV IFGYPGGAVL PLYDALYDCE IPHILTRHEQ 
GAIHAAEGYA RITGNPGVVI ATSGPGATNV ITGLADAMID SLPLVVFTGQ VATTLIGSDA
FQEADIMGLT MPVTKHNYQV RKASDLPRII KEAFHIARTG RPGPVVIDLP KDMVVEQGER
CSDVQMDLPG YNPNYEPNLL QINKLLQAIQ VANKPLILAG AGVLHAKASK ELTSFARKYE
IPVVHTLLGL GGFPPDDELF LGMGGMHGSY TANMALYECD LLINIGARFD DRLTGNLAYF
AKEATVAHID IDPAEIGKNV PTEIPIVASA KQALQVLLQP EGRKENHHEW ISLLKNRKEK
YPFSYKRNSE SIKPQYAIDM LYEITKGEAI VTTDVGQHQM WAAQYYPLKT PDKWVTSGGL
GTMGFGFPAA IGAQIAKPDE LVIAIVGDAG FQMTLQELSV LKEHSLPVKV FILNNEALGM
VRQWQDEFYN QRYSHSLLSC QPDFVALANA YGIKGVRIDD PLLAKKQLQH AIQLQEPVVI
DCRVLQSEKV MPMVAPGKGV HQMEGVEKR