Gene Cpha266_0853 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagCpha266_0853 
Symbol 
ID4570447 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameChlorobium phaeobacteroides DSM 266 
KingdomBacteria 
Replicon accessionNC_008639 
Strand
Start bp975704 
End bp977425 
Gene Length1722 bp 
Protein Length573 aa 
Translation table11 
GC content50% 
IMG OID639765451 
Productacetolactate synthase, large subunit 
Protein accessionYP_911328 
Protein GI119356684 
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 clones12 
Plasmid unclonability p-value0.640805 
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
ATGAATGTAC CAGGTCAAAC ACTGAACGGT TCAGAAATAT TTTTTGAATG TCTGAGAAGA 
GAAAACGTTG AATATATCTT CGGGTATCCC GGAGGAGCCC TGCTCAAGGT TTATGAAACG 
CTCTACGATA TCAAGGATAT CAAGCACATC CTTGTCCGCC ATGAACAGGG TGCGGCACAC 
ATGGCTGAAG GCTATGCCCG CGCCACCGGA AAACCCGGTA TCGTGCTGGT AACGTCAGGA 
CCGGGAGCAA CCAATACCGT TACGGGCATT GCCAATGCCT ACATGGACTC TTCGCCAATG 
GTGGTTTTTA CCGGTCAGGT ACCCAGTTCG CTTATCGGCA ATGACGCATT CCAGGAAGCT 
GATATCGTGG GCATCACCCG TCCGATCACC AAACACAACT TCCTTGTCAG GGATGTCAGA 
GAACTTGCGT TAACAATCCG CAAGGCCTTT TACCTTGCTA CAAACGGCCG TCCGGGACCG 
GTTCTTGTCG ATATGCCCAA AGACATACTG AACGCTTCAT GCGAATTTCA GTGGCCCGAA 
AACATAGAGA TCCGGGGTTT CAAGCCGACA GTAAAATGTC ACATGAACCA GGTTGAAAAA 
GCCGCTCTGA AAATATCGAA AGCTAAAAAA CCGCTGTTCT ATATCGGTGG CGGCGTTATC 
AGTGCCAATG CATCGGAAGA GCTCCGCAAA CTTGCCATTC AGCAGAACAT TCCTGTCACC 
ATGACCCTTC AGGGCCTTGG CGCCTTTCCG GGAGACCATC CGCTCAGCAT GGGAATGCTC 
GGCATGCATG GCACCTACTG GGCCAACCAG GCCGTTAACA ACTGCGATCT GTTGATTGCT 
GTCGGAGCAC GCTTTGACGA CAGGGTTACC GGTAAAGTCG AAACATTCGC CACACAGGCA 
TACAAGATTC ATAATGACAT AGACCCGACC AACGTCGATA AAAACATAAA AGTCGATCTT 
CCGATTGTCG GTGATGCGAA GCATTTTCTT TCCGCTCTTC TTGACGAGAT GCCCGAAGCG 
ACCGAAAACA GGGAGCCCTG GCTTCAGGAA ATCCATAAAT GGCAAGAGCA GTGTCCGCTT 
GCCTATGAAA CCGGTGATGA GTTACTGAGA ACCGAGTTTG TCATTGAAGA GACATCAAAA 
CAAACCAAAG GAAATGCGGT CGTCGTAACC GACGTCGGGC AGCATCAGAT GTGGACATCC 
CAGTACTACA AGTTCAATAA CCCCCGTTCC ATCATCACCA GCGGAGGACT CGGAACCATG 
GGCTATGGCC TGCCGGCGTC TATCGGCGCA GCATTCGGCG TCACAGACCG CCCGATAATC 
CTGTTCTGCG GAGATGGCGG ATTTATGATG AACGTACAGG AACTCGTCAC CGCCGTCCAC 
TATAAAATAC CGGTGAAAAT TTTCCTCATC AACAACACAT TCCTCGGTAT GGTTCGACAG 
TGGCAGGAAC TTTTTCACAA GGAACAGTAC TCCTTTACCG ATCTTGGTAA CAGCAATCCC 
GACTTCGTCA AGGTTGCCGA TGCCTTCGGC TGCAGAACGT CCTGCGCAGA AACGCCGGAT 
CAGGCCCGTC AGGCGATAAA GGAGGCTCTT GCATGGAACG AAGGACCGTT CCTTGTCGAA 
TTCAAGGTTA TCAAAAAAGA TATGGTATTT CCCATGGTCC CTGCGGGCGG CTCTATTTCA 
GACATGATGC TTGCCCGGTT AAACCCAAAA ACAATGGTTT GA
 
Protein sequence
MNVPGQTLNG SEIFFECLRR ENVEYIFGYP GGALLKVYET LYDIKDIKHI LVRHEQGAAH 
MAEGYARATG KPGIVLVTSG PGATNTVTGI ANAYMDSSPM VVFTGQVPSS LIGNDAFQEA 
DIVGITRPIT KHNFLVRDVR ELALTIRKAF YLATNGRPGP VLVDMPKDIL NASCEFQWPE 
NIEIRGFKPT VKCHMNQVEK AALKISKAKK PLFYIGGGVI SANASEELRK LAIQQNIPVT 
MTLQGLGAFP GDHPLSMGML GMHGTYWANQ AVNNCDLLIA VGARFDDRVT GKVETFATQA 
YKIHNDIDPT NVDKNIKVDL PIVGDAKHFL SALLDEMPEA TENREPWLQE IHKWQEQCPL 
AYETGDELLR TEFVIEETSK QTKGNAVVVT DVGQHQMWTS QYYKFNNPRS IITSGGLGTM 
GYGLPASIGA AFGVTDRPII LFCGDGGFMM NVQELVTAVH YKIPVKIFLI NNTFLGMVRQ 
WQELFHKEQY SFTDLGNSNP DFVKVADAFG CRTSCAETPD QARQAIKEAL AWNEGPFLVE 
FKVIKKDMVF PMVPAGGSIS DMMLARLNPK TMV