Gene Daro_3075 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDaro_3075 
Symbol 
ID3566504 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDechloromonas aromatica RCB 
KingdomBacteria 
Replicon accessionNC_007298 
Strand
Start bp3315860 
End bp3317560 
Gene Length1701 bp 
Protein Length566 aa 
Translation table11 
GC content56% 
IMG OID637681546 
Productacetolactate synthase, large subunit 
Protein accessionYP_286275 
Protein GI71908688 
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 clones45 
Plasmid unclonability p-value0.843153 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones
Fosmid unclonability p-value0.00877617 
Fosmid HitchhikerYes 
Fosmid clonabilityhitchhiker 
 

Sequence

Gene sequence
ATGATGATCA GCGGTGCAGA AATTGTAATC AGGTGCCTGC AAGAAGAAAA GGTCGAATAT 
GTGTTCGGTT ACCCTGGGGG TTCCGTTTTG CACATTTATG ATGCCCTTTT CAAGCAGGAT 
CAGGTCAAGC ACATTCTCGT TCGCCACGAG CAGGCTGCTG TCCACGCAGC AGACGCTTTT 
TCGCGTTCCT CGCAGAGGGT CGGCGTCGCG CTGGTGACCT CGGGTCCTGG TGTGACCAAC 
ACGGTGACGG GCATTGCCAC TGCTTACATG GACTCAATCC CGATGGTGGT CATCTGCGGT 
CAGGTGCCGA CCCAGTATAT CGGGCAAGAT GCTTTCCAGG AGTGCGATAC CGTCGGTATT 
ACCCGTCCCT GTGTCAAACA CAATTTCCTG GTCAAGGACG TCAAGGATTT GGCCTTGACG 
ATCAAGAAAG CCTTCCATAT CGCTGCCACA GGCCGCCCCG GTCCGGTCGT TGTTGATGTT 
CCGAAGGACA TCACGGCTCA GATGTGTGAG TTCGACTATC CGAAAACGGT CCAGATGCGC 
TCCTACAACC CCGTGGTCAA GGGGCATTTG GGTCAGATCA AGAAAGCCGT CCAGATTCTG 
CAGGAAGCCA AGCGCCCGAT CATTTATACG GGTGGTGGCG TGATTCTTTC GGATGCCGCA 
GAAAAGCTGA CCCAGCTGGC GCGCAAGCTG AACTTCCCGG TGACCAACAC GCTGATGGGT 
TTGGGCGGCT ACCCGGCCAC CGATCGTCAG TTTGTCGGCA TGCTCGGTAT GCATGGCACG 
TTTGAAGCCA ATAATGCGAT GCACTACGCC GATGTGATCC TGGCGATTGG TGCACGTTTC 
GATGATCGCG TTATTGGTAA CCCCGATCAC TTCGGCAGCG AGAAGCGTCG GGTTATTCAT 
ATCGATATCG ACCCGTCGTC GATTTCCAAG CGGGTCAAGG TTGATGTCCC TATTGTTGGC 
AATGTGACCG ATGTGCTGGA TGAAATCCTG AAGTTGCTCG ACGGCGGATT CAAGACCGAT 
CCGGAAGTCG CCGACTGGTG GAAACAGATC GACGAGTGGC GTGGTCGTGA TTCTCTGCGT 
TACAAGCAGG GCGAGCACAT CATGCCGCAG TACGTCGTTG AGAAACTGTA CGAAGTGACT 
GGGGGCGATG CCTTCATTAC TTCCGACGTC GGCCAGCACC AGATGTTTGC TGCGCAGTAC 
TACAAGTTCG ATAAGCCGCG TCGCTGGATC AATTCCGGCG GTCTGGGCAC CATGGGTGTT 
GGCCTGCCTT ACGGCATGGG GGTTCTGCTG GCCAATCCGG GGGCGCAGGT GGCTTGCGTG 
ACCGGCGAAG GCTCGATCCA GATGTGTATT CAGGAGATGT CGACCTGCAA GCAGTACGAA 
CTGCCGGTCA AGATCATCAA TCTGAACAAC GGCATGCTCG GCATGGTCCG TCAGTGGCAG 
GAGATGTTCT ACTCCAAGCG CTATTCACAG TCCTACGTCA CTTCGCTGCC AGATTTCGTC 
AAGTTGGCTG AAGCCTATGG CCACGTCGGC ATGCGCATTG AAAAGCCGGA AGACGTCGAA 
CCAGCACTGC GCAAGGCCTT CACCGAACAC AAGAACGATC TGGTCTTCAT GGACTTCATC 
ATCGACCCGG GCGCCAATGT GTTCCCGATG GTCGCGGCAG GCAAGGGCCT GACCGAAATG 
ATCCTCGCTG AAGATCTGTA A
 
Protein sequence
MMISGAEIVI RCLQEEKVEY VFGYPGGSVL HIYDALFKQD QVKHILVRHE QAAVHAADAF 
SRSSQRVGVA LVTSGPGVTN TVTGIATAYM DSIPMVVICG QVPTQYIGQD AFQECDTVGI 
TRPCVKHNFL VKDVKDLALT IKKAFHIAAT GRPGPVVVDV PKDITAQMCE FDYPKTVQMR 
SYNPVVKGHL GQIKKAVQIL QEAKRPIIYT GGGVILSDAA EKLTQLARKL NFPVTNTLMG 
LGGYPATDRQ FVGMLGMHGT FEANNAMHYA DVILAIGARF DDRVIGNPDH FGSEKRRVIH 
IDIDPSSISK RVKVDVPIVG NVTDVLDEIL KLLDGGFKTD PEVADWWKQI DEWRGRDSLR 
YKQGEHIMPQ YVVEKLYEVT GGDAFITSDV GQHQMFAAQY YKFDKPRRWI NSGGLGTMGV 
GLPYGMGVLL ANPGAQVACV TGEGSIQMCI QEMSTCKQYE LPVKIINLNN GMLGMVRQWQ 
EMFYSKRYSQ SYVTSLPDFV KLAEAYGHVG MRIEKPEDVE PALRKAFTEH KNDLVFMDFI 
IDPGANVFPM VAAGKGLTEM ILAEDL