Gene DvMF_0153 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDvMF_0153 
Symbol 
ID7172028 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDesulfovibrio vulgaris str. 'Miyazaki F' 
KingdomBacteria 
Replicon accessionNC_011769 
Strand
Start bp167254 
End bp168942 
Gene Length1689 bp 
Protein Length562 aa 
Translation table11 
GC content65% 
IMG OID643538647 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_002434582 
Protein GI218885261 
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 clones59 
Fosmid unclonability p-value0.0209009 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGAACTGA ACGGGGCCCG GATTCTGCTG GAATGCCTCA AGCGGGAAGG CGTGGACGTA 
CTGTTCGGCT ATCCCGGCGG GGCCGTCATA GACATTTATG ACGAACTGCC CAGGCACGAT 
ATCCGGCACA TATTGGTCCG GCACGAACAG GCGGCGGTGC ACGCCGCCGA CGGCTTTGCC 
CGCGCGTCGG GCAAGGTGGG CGTCTGTCTG GTCACTTCCG GACCGGGCGC CACCAACACC 
GTGACCGGCA TCGCCACGGC CTATGCCGAC TCCATTCCCA TGGTCGTGCT GACGGGGCAG 
GTACCCACCC CCCTCATCGG CAACGACGCC TTCCAGGAAG TGGACATCGT CGGCATCACC 
CGACCGTGCA CCAAGCACAA CTATCTGGTG AAGGACGTGC GCGACCTTGC CCGCGTGTTG 
CGGCAGGCCT TTTATCTGGC CCGCTCCGGC AGGCCGGGTC CCGTTCTTGT CGACTTGCCC 
AAGGACGTCA TGCAGGCGAA GACGGAATTC GTCTGGCCCG AGGATGTCAA GCTGCGCAGC 
TACAATCCCA CCTACCGGCC CAACCTGAAC CAGCTGCGCC GCGCGGTGGA GGCGCTCATC 
GAGGCCAAGC GCCCGCTGTT CTTCGCGGGG GGCGGCGTGA TCATGTCCGA CGCCAGCGAA 
GAGCTTGGCT GGCTGGCCCG CACCCTGAGC ATTCCGGTTA CCTCCACCCT GATGGGCCTT 
GGCGCCTTTC CGGGCGACGA CCCGCTGTGG CTGGGCATGA TCGGCATGCA CGGCACCTAC 
GCGGGCAACA AGGCCGTGAA CAACGCCGAC TGCATCGTGG CCGTGGGCGC GCGCTTCGAC 
GACCGGGTGA CCGGGCGCCT TTCCGCGTTT GCCTCGGGTG CGCGCATCAT CCATATCGAC 
ATTGATCCCA CGTCCATCCG CAAGAACGTG CAGGTGGACA TTCCCGTGGT GGGCGACTGC 
CGCAAGGCCC TGGCGGGCAT CCGCGAGATA GCCACCACCC GCCTTGCCGA AAAGGACTGG 
GCAACGGCGC ACGAGCCGTG GCTGACCCAG GTTTCCGCCT GGCGCACCGA ACAGCCCCTG 
ACCTACGTGA AGAACGGTTC CATCAAGCCG CAGCAGGTGG TGGAAACCAT CTTCTCCATC 
ACCCGGGGCG ATGCCATCGT CACCACCGAG GTGGGGCAGA ACCAGATGTG GACGGCCCAG 
TTCTTCACCT TCCGCAAGCC GCGCACGCTG CTTACATCCG GCGGGCTCGG CACCATGGGC 
TACGGCTTTC CGGCGGCCAT CGGCGCGCAG TTCGCCTTTC CGGACAAGCT GGTCATCGAC 
ATGGCGGGCG ACGGTTCCAT CCAGATGAAC ATCCAGGAAC TGGCCACCGC CGTCTGCAAC 
AAGCTGCCCA TCAAGATCGT CATCCTGAAC AACGGCTACC TCGGCATGGT ACGCCAGTGG 
CAGGAACTGT TCTACCAGCG CAACTACTGC TCCACCTGCA TGGAGGCGCA GCCCGACTTC 
GTGAAGCTGG CCGAGGCCTA CGGGGCCGAG GGCTACCGCA TCACCGAGGC GGGCGAGCTG 
GAATCCACGC TGCGCGCGGC CTTCGCCTCG CCCCATACCG CCGTCATCGA CGTGCGGGTG 
GAACGCGAGG AGAACGTGTA CCCCATGGTG CCCGCAGGCG CGGCCCTGGA CGAAATGCTG 
CTGGTCTAG
 
Protein sequence
MELNGARILL ECLKREGVDV LFGYPGGAVI DIYDELPRHD IRHILVRHEQ AAVHAADGFA 
RASGKVGVCL VTSGPGATNT VTGIATAYAD SIPMVVLTGQ VPTPLIGNDA FQEVDIVGIT 
RPCTKHNYLV KDVRDLARVL RQAFYLARSG RPGPVLVDLP KDVMQAKTEF VWPEDVKLRS 
YNPTYRPNLN QLRRAVEALI EAKRPLFFAG GGVIMSDASE ELGWLARTLS IPVTSTLMGL 
GAFPGDDPLW LGMIGMHGTY AGNKAVNNAD CIVAVGARFD DRVTGRLSAF ASGARIIHID 
IDPTSIRKNV QVDIPVVGDC RKALAGIREI ATTRLAEKDW ATAHEPWLTQ VSAWRTEQPL 
TYVKNGSIKP QQVVETIFSI TRGDAIVTTE VGQNQMWTAQ FFTFRKPRTL LTSGGLGTMG 
YGFPAAIGAQ FAFPDKLVID MAGDGSIQMN IQELATAVCN KLPIKIVILN NGYLGMVRQW 
QELFYQRNYC STCMEAQPDF VKLAEAYGAE GYRITEAGEL ESTLRAAFAS PHTAVIDVRV 
EREENVYPMV PAGAALDEML LV