Gene Dret_1662 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDret_1662 
Symbol 
ID8419493 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDesulfohalobium retbaense DSM 5692 
KingdomBacteria 
Replicon accessionNC_013223 
Strand
Start bp1915785 
End bp1917479 
Gene Length1695 bp 
Protein Length564 aa 
Translation table11 
GC content57% 
IMG OID645038236 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_003198524 
Protein GI258405782 
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 clones24 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones24 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGAATTGA GCGGGGCACA GATCTTGATG GAGAGCTTGA AGTGCGAAGG CACCGATGTG 
CTGTTCGGAT TTCCCGGGGG GGCGGTGATT GATATTTACG ACATCCTTCC CCAGTACGAT 
CTCCATCATG TTCTCGTCCG TCATGAGCAA GGCGCGGTCC ATGCTGCAGA CGGCTATGCA 
CGGGCCACCG GTAAGACCGG TGTCTGCCTT GTGACCTCCG GCCCGGGGGC CACGAATACA 
GTGACCGGTA TCGCCACGGC CTATATGGAT TCCATTCCCC TAGTGGTCTT TACTGGCCAA 
GTACCGACCC CGCTCATTGG TAACGACGCT TTCCAGGAAG TAGATATTGT CGGTATTACC 
CGTCCCTGCA CCAAACACAA TTTTTTGGTG AAGGATGTCC GGGATTTGAC AAAAACTATC 
AAACAGGCCT TTTACCTGGC CCGGTCGGGA CGACCGGGCC CGGTATTGGT CGACCTCCCC 
AAGGACGTCA TGCTGGCCAA GACGGATTTC CAGTATCCGG AATCCATCTC CATGCGCAGC 
TACAATCCGA ATATTGAACC CAACGTCAAA CAATTGCGCA AGGTTGTCGA TCTGCTTCAA 
AAGGCGGAGC GACCCCTGCT CTTTGCCGGG GGCGGCGTCA TTTCGTCCGG GGCCTCTGAG 
GATCTCCAAT GGCTGGCCAC GACTTTGGAT ATCCCTGTGA CCTCGTCGCT GATGGGGTTG 
GGCTCCTTTC CCGGCAATCA TCCCCATTGG CTGGGTATGC TCGGGATGCA CGGCACCTAC 
GCCGCGAATA TGGCCGTGAA CAATGCCGAT CTGATCATCG CCGTTGGGGC CCGCTTCGAT 
GACCGGGTCA CCGGGAAGTT GGACGCTTTT GCCCAAAAGG CGAGCCTGGT CCACATCGAC 
ATCGACCCGA CATCCATCCG GAAGAATGTT TCCGTCCATG TCCCTGTGGT GGCCGATTGC 
GGGCTGGCCC TGAACAAATT GCGCCGTGAA CTCGCCCCGA TCGTCGAGGA TGTTTCCTGG 
AGTTCCAAGC ACGATCAGTG GCTGGAGCAG GTCCGGTTCT GGCGAGAGGC CCATCCCCTA 
GGATACCGGG ATAATGGGGA TGAGGCCATT AAACCGCAGG CCGTGGTGGA AAAAATTTAT 
GAGATTTCCG GCGGGGAGGC GATCATCGCC ACTGAAGTGG GGCAGAACCA GATGTGGGCG 
GCCCAGCACT TTTTGTACAA CAAACCCCGT ACATTACTGA CCTCCGGCGG GCTCGGCACT 
ATGGGCTACG GATTTCCCGC CGCCATCGGC GCCCAGGTCG CTTTCCCCAA CCGTCTTGTC 
GTGGATATCG CCGGTGATGG CTCCATTCAG ATGAACATCC AGGAGTTGGC CACAGCGGTG 
AGTTACGACC TGCCGGTCAA GATCGTCATC CTGAACAACA GTTATCTCGG CATGGTCCGG 
CAGTGGCAGG AACTTTTTTA CAACAAAAAT TATTGTTCGA CCTGTCTGCA CACGAACCCC 
GATTTCGTCC AACTCGCCCG GGCGTACGGC GCTGAAGGCT ACCGCATTGA GAAAAGCGCG 
GACCTCGACG CCACCTTGCG ACAAGCGCTG GCTTCGCCGA AGACAGCCGT GATCGATGTC 
CGGGTGGCTG AAGAGGAAAA TGTCTATCCC ATGGTTCCGG CAGGGGCCTC ACTCACGGAT 
ATGTTGCTGG TCTAA
 
Protein sequence
MELSGAQILM ESLKCEGTDV LFGFPGGAVI DIYDILPQYD LHHVLVRHEQ GAVHAADGYA 
RATGKTGVCL VTSGPGATNT VTGIATAYMD SIPLVVFTGQ VPTPLIGNDA FQEVDIVGIT 
RPCTKHNFLV KDVRDLTKTI KQAFYLARSG RPGPVLVDLP KDVMLAKTDF QYPESISMRS 
YNPNIEPNVK QLRKVVDLLQ KAERPLLFAG GGVISSGASE DLQWLATTLD IPVTSSLMGL 
GSFPGNHPHW LGMLGMHGTY AANMAVNNAD LIIAVGARFD DRVTGKLDAF AQKASLVHID 
IDPTSIRKNV SVHVPVVADC GLALNKLRRE LAPIVEDVSW SSKHDQWLEQ VRFWREAHPL 
GYRDNGDEAI KPQAVVEKIY EISGGEAIIA TEVGQNQMWA AQHFLYNKPR TLLTSGGLGT 
MGYGFPAAIG AQVAFPNRLV VDIAGDGSIQ MNIQELATAV SYDLPVKIVI LNNSYLGMVR 
QWQELFYNKN YCSTCLHTNP DFVQLARAYG AEGYRIEKSA DLDATLRQAL ASPKTAVIDV 
RVAEEENVYP MVPAGASLTD MLLV