Gene Tgr7_2158 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagTgr7_2158 
Symbol 
ID7318262 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameThioalkalivibrio sp. HL-EbGR7 
KingdomBacteria 
Replicon accessionNC_011901 
Strand
Start bp2287523 
End bp2289217 
Gene Length1695 bp 
Protein Length564 aa 
Translation table11 
GC content62% 
IMG OID643617053 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_002514225 
Protein GI220935326 
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 clones13 
Plasmid unclonability p-value
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
GTGGAATTGA CCGGTGCCGA GATCTTTGTC CGCTGCTTGC AGGAGGAAGG TGTCGATCTT 
ATTTTCGGGT ACCCGGGTGG CGCCGTGCTT CACATCTACG ACGCCCTGTA CAAGCAGGAT 
AAGGTTGCAC ACATCCTCGT GCGGCATGAA CAGGGGGCGA TTCACGCCGC CGAAGGCTAT 
GCCAAGTCGA CGGACAAGCC CGGTGTAGCC CTGGTAACCT CCGGTCCCGG CGCCACCAAT 
GCCATCACCG GCATCGCCGA CGCCTACATG GATTCCGTGC CCCTGGTGGT GTTCACCGGC 
CAGGTGCCCA CCAGCCTGAT CGGCAACGAC GCCTTCCAGG AAGTGGACAC CGTCGGTATC 
ACGCGCCCCT GCGTGAAGCA CAACTTCCTG GTCAAGGACG TCAAGGATCT GGCCACCACC 
ATCAAGAAGG CCTTCTACGT GGCCACCTCC GGCCGACCCG GCCCGGTGGT GGTGGACATC 
CCCAAGGATG TCACCGCCCA CAAGTGCGAG TTCAGCTACC CCAAGACCAT CCGGATGCGT 
TCCTACAATC CGACGGTCAA GGGCCACACG GGGCAGATCA AGAAGGCCAT CGACCTGATC 
CTGGAGGCGC GCCAGCCGGT GATCTATACC GGCGGTGGCG TGATCCTGGG CCGTGCCGCC 
AAGTCCCTGA CCGACTTCAC CAGGCTGCTC GGTTATCCCA TCACCAACAC CCTGATGGGC 
CTGGGTGGCT ACCCGGCCAC CGACAAGCAG TTCATCGGCA TGCTGGGCAT GCACGGCACC 
TATGAAGCCA ACATGGCCAT GCACCACGCT GACCTGGTAA TCGCCATCGG CGCCCGCTTC 
GACGACCGGG TGACGGGCAA CATCGAGAAG TTCTGCCCCT ACGCCAAGAT CGTGCACGTG 
GACGTGGACC CGGCCTCCAT CTCCAAGAAC GTGAAGGTGG ATGTGCCCAT CGTCGGCCAA 
GTGGACAGCG TGCTCAAGGC CATGATCAAG GAGATCAAGG CCGACCCGCG CAAGCCCGAC 
GCCACCGCGC TCAAGGCCTG GTGGAAGCAG ATCGACGAGT GGCGCGCCAT GGACTGCCTG 
AAGTTCGACC GCAACTCCGA ACTCATCAAG CCCCAGTTCG TGATCGAGAC CCTGTGGAAG 
CTTACCAAGG GGGATGCCTT CGTCACCTCC GACGTGGGCC AGCACCAGAT GTGGGCGGCG 
CAGTTCTACA AGTTCGACAA GCCCAATCGC TGGATCAACT CGGGGGGGCT CGGCACCATG 
GGTTTCGGCC TGCCGTCGGC CATGGGCGTG CAGCTTGCCC ACCCGGATGC CACGGTGGCC 
TGTATCACCG GTGAGGCCAG CATCCAGATG TGCATCCAGG AGCTGTCAAC CTGCCTGCAG 
TATCACCTGC CCATCAAGGT GGTGAACCTG AACAACCGTT ACATGGGCAT GGTGCGGCAG 
TGGCAGGAGT TCTTCTATCA GGGCCGTTAC GCCATGTCCT ACATGGATGC CCTGCCGGAC 
TTCATGGCGC TCGCCCAGGC CTACGGCCAC GTGGGCATGC GCATCGAGAA GCCCGCTGAC 
GTGGAGGGCG CCATCAAGGA GGCCCTCAAG CTCAAGGACC GCCTGGTGTT CATGGACTTC 
ATCACCGATC AGTCCGAGAA CGTCTATCCC ATGATCCCGG CCGGTGCCGG CCAGAACGAA 
ATGATCCTGG TGTGA
 
Protein sequence
MELTGAEIFV RCLQEEGVDL IFGYPGGAVL HIYDALYKQD KVAHILVRHE QGAIHAAEGY 
AKSTDKPGVA LVTSGPGATN AITGIADAYM DSVPLVVFTG QVPTSLIGND AFQEVDTVGI 
TRPCVKHNFL VKDVKDLATT IKKAFYVATS GRPGPVVVDI PKDVTAHKCE FSYPKTIRMR 
SYNPTVKGHT GQIKKAIDLI LEARQPVIYT GGGVILGRAA KSLTDFTRLL GYPITNTLMG 
LGGYPATDKQ FIGMLGMHGT YEANMAMHHA DLVIAIGARF DDRVTGNIEK FCPYAKIVHV 
DVDPASISKN VKVDVPIVGQ VDSVLKAMIK EIKADPRKPD ATALKAWWKQ IDEWRAMDCL 
KFDRNSELIK PQFVIETLWK LTKGDAFVTS DVGQHQMWAA QFYKFDKPNR WINSGGLGTM 
GFGLPSAMGV QLAHPDATVA CITGEASIQM CIQELSTCLQ YHLPIKVVNL NNRYMGMVRQ 
WQEFFYQGRY AMSYMDALPD FMALAQAYGH VGMRIEKPAD VEGAIKEALK LKDRLVFMDF 
ITDQSENVYP MIPAGAGQNE MILV