Gene BCG9842_B3491 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagBCG9842_B3491 
SymbolilvB2 
ID7182535 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameBacillus cereus G9842 
KingdomBacteria 
Replicon accessionNC_011772 
Strand
Start bp1711112 
End bp1712827 
Gene Length1716 bp 
Protein Length571 aa 
Translation table11 
GC content40% 
IMG OID643549561 
Productacetolactate synthase 3 catalytic subunit 
Protein accessionYP_002445231 
Protein GI218896820 
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 clones26 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones97 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGAAGCAGC AGTATACAGC GTATGAGAAG TTACAGTGTG AAGAAATGAC AGGCGCTGGG 
CACGTGATTC AATGTTTGAA GAAATTGGGT GTAACGACCG TTTTCGGCTA TCCAGGCGGA 
GCGATCTTAC CAGTATACAA TGCGTTATAC GAAAGTGGTT TGAAACATGT TTTAACTCGT 
CATGAACAAG CTGCCATTCA TGCGGCTGAA GGATATGCGA GAGCTTCTGG AAAGGTCGGG 
GTAGTCTTTG CTACCTCTGG CCCAGGGGCG ACAAATTTAG TTACCGGCTT AGCAGACGCT 
TATATGGATT CGATTCCTTT AGTTGTCATT ACCGGCCAAG TTGCAACGCC TTTAATTGGT 
AAAGATGGAT TTCAAGAAGC GGATGTTGTC GGAATTACAG TACCTGTTAC GAAGCATAAT 
TACCAAGTTC GTGATGTAAA TCATGTATCA CGAATTGTGC AAGAAGCTTT TTACATCGCC 
GAAAGCGGAC GCCCGGGACC AGTATTAATC GATATTCCAA AAGATGTTCA AAATGCAAAA 
GTCACCAGTT TCTTTAATGA AGAAGTTGAT ATTCCGGGGT ACAAACCAGA ACTTGTACCA 
GACAGCATGA AACTTAGAGA GGTAGCTAAA GCAATTTCAA AATCAAAGCG TCCGCTTCTT 
TATATTGGGG GAGGTGTCAT TCATTCAGGT GGATCCGATG AACTTTTTGA ATTCGCAAGG 
GAGAACCGTA TTCCAGTCGT TTCAACTTTA ATGGGACTTG GTGCATATCC ACCGGGAGAT 
CCATTGTTTT TAGGGATGCT TGGTATGCAT GGGACATACG CTGCTAATAT GGCGGTAACA 
GAATGTGATT TACTACTTGC ATTAGGTGTT CGCTTCGATG ATCGTGTAAC AGGAAAATTA 
GAACTTTTTT CTCCGCACTC GAAAAAAGTA CATATTGATA TTGATCCTTC TGAGTTTCAT 
AAAAATGTAA CTGTAGAGCA TCCCATTGTT GGTGATGTGA AAAAAGCGTT ACACATGTTG 
TTACATATGT CTATTTATAC ACAAACAGAC GAATGGCTTC AGAAAGTAAA GGCATGGAAA 
GAAGAATATC CACTTTCTTA TAAGCAAAAA GAATCTGAGT TAAAACCACA GCATGTGATC 
AACTTAGTAA GTGAATTAAC GAATGGTGAA GCGATTGTCA CAACAGAAGT AGGACAGCAT 
CAAATGTGGG CTGCTCACTT CTATAAAGCA AGAAAACCTC GGACGTTCCT TACCTCTGGA 
GGATTAGGAA CGATGGGGTT TGGTTTTCCA GCAGCAATTG GTGCTCAGCT AGCTAAAAAA 
GAAGAACTTG TCATTTGTAT TGCAGGTGAT GCTTCTTTTC AAATGAACAT TCAAGAACTA 
CAAACAATTG CTGAAAATAA CATCCCTGTA AAAGTATTTA TCATAAATAA CAAATTTTTA 
GGGATGGTAA GGCAATGGCA AGAAATGTTT TATGAAAATC GTTTATCAGA ATCAAAAATT 
GGATCGCCAG ATTTTGTGAA AGTGGCAGAA GCTTATGGAG TGAAGGGATT AAGAGCGACA 
AATTCAACAG AGGCGAAACA AGTGATGTTA GAAGCATTTG CTCATGAAGG TCCTGCCGTA 
GTTGATTTTT GTGTAGAAGA AGGTGAAAAC GTATTTCCGA TGGTTCCGCC AAACAAAGGG 
AATAACGAAA TGATTATGAA GAGGTGGGAA GAATGA
 
Protein sequence
MKQQYTAYEK LQCEEMTGAG HVIQCLKKLG VTTVFGYPGG AILPVYNALY ESGLKHVLTR 
HEQAAIHAAE GYARASGKVG VVFATSGPGA TNLVTGLADA YMDSIPLVVI TGQVATPLIG 
KDGFQEADVV GITVPVTKHN YQVRDVNHVS RIVQEAFYIA ESGRPGPVLI DIPKDVQNAK 
VTSFFNEEVD IPGYKPELVP DSMKLREVAK AISKSKRPLL YIGGGVIHSG GSDELFEFAR 
ENRIPVVSTL MGLGAYPPGD PLFLGMLGMH GTYAANMAVT ECDLLLALGV RFDDRVTGKL 
ELFSPHSKKV HIDIDPSEFH KNVTVEHPIV GDVKKALHML LHMSIYTQTD EWLQKVKAWK 
EEYPLSYKQK ESELKPQHVI NLVSELTNGE AIVTTEVGQH QMWAAHFYKA RKPRTFLTSG 
GLGTMGFGFP AAIGAQLAKK EELVICIAGD ASFQMNIQEL QTIAENNIPV KVFIINNKFL 
GMVRQWQEMF YENRLSESKI GSPDFVKVAE AYGVKGLRAT NSTEAKQVML EAFAHEGPAV 
VDFCVEEGEN VFPMVPPNKG NNEMIMKRWE E