Gene Ent638_0624 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagEnt638_0624 
Symbol 
ID5113663 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameEnterobacter sp. 638 
KingdomBacteria 
Replicon accessionNC_009436 
Strand
Start bp706508 
End bp708232 
Gene Length1725 bp 
Protein Length574 aa 
Translation table11 
GC content54% 
IMG OID640490795 
Productacetolactate synthase 3 catalytic subunit 
Protein accessionYP_001175362 
Protein GI146310288 
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 clones14 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones
Fosmid unclonability p-value0.146468 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGAGATGT TGTCTGGCGC CGAAATGGTC GTCCGGTCGC TCATCGATCA GGGCGTCAAG 
CAAGTATTCG GTTATCCCGG AGGCGCAGTC CTCGATATTT ATGATGCGTT GCACACCGTA 
GGTGGCATCG ATCATGTCCT GGTGCGTCAC GAGCAGGCCG CTGTACATAT GGCCGATGGG 
TTGGCGCGCG CCACTGGGGA AGTGGGCGTC GTGCTTGTGA CGTCAGGTCC TGGCGCAACC 
AACGCGATAA CGGGTATTGC TACCGCCTAT ATGGATTCCA TCCCGCTGGT GATTTTGTCC 
GGTCAGGTTG CAACCTCGCT GATTGGCTAC GACGCCTTCC AGGAGTGTGA CATGGTGGGG 
ATCTCCCGCC CGGTGGTGAA ACACAGTTTT CTGGTGAAGC AAACGGAAGA TATTCCGGGG 
GTACTGAAAA AAGCATTCTG GCTGGCGGCC AGCGGTCGTC CGGGCCCGGT CGTGGTCGAT 
TTACCAAAAG ATATTCTGAA TCCTGCCAAT AAATTACCTT ACGTCTGGCC TGATTCGGTG 
AGCATGCGCT CGTATAATCC GACCACGCAG GGCCATAAAG GCCAGATTAA ACGGGCATTG 
CAGACACTCA TTGCGGCAAA AAAACCGGTC GTCTACGTTG GTGGCGGCGC GGTAAACGCG 
CATTGTCACG AGCAACTGCG TGAGCTTATC GAAAAATTGA ACTTGCCCGT TGCCTCCTCA 
TTGATGGGGC TAGGCGCGTT TCCGGCCACT CATCGTCAGG CACTGGGCAT GCTGGGGATG 
CACGGCACGT TCGAAGCCAA CATGACGATG CATAATTCTG ATGTGATTTT TGCCGTTGGT 
GTGCGTTTTG ACGATCGCAC GACGAACAAT TTGGCTAAGT ACTGTCCGAA TGCGACGGTG 
CTCCATATTG ATATCGACCC GACGTCTATT TCCAAAACCG TGCCCGCTGA TGTGCCTATT 
GTCGGCGATG CGCTACAGGT TCTGGAACAA ATGCTCGAAC TGCTGGCGCA TGAAACCCCA 
ACGCAGCCAC TGGATGATAT TCGAGACTGG TGGCAGCAGA TTGAGCAGTG GCGTGCGCGC 
CACTGTCTGA AATACGACAC GCAAAGTGAG CATATTAAGC CGCAGGCGGT TATCGAAACC 
ATCTGGCGTC TGACCAAGGG TGAAGCCTAT GTGACCTCGG ATGTGGGTCA GCACCAGATG 
TTTGCGGCGC TTTACTATCC GTTTGATAAA CCTCGTCATT GGATCAATTC CGGTGGTCTT 
GGCACGATGG GCTTTGGCTT GCCGGCCGCG TTGGGCGTGA AACTGGCGCT CCCGGACGAA 
ATCGTCGTAT GTGTGACAGG CGATGGCAGT ATTCAGATGA ACATTCAGGA ACTCTCCACA 
GCACTGCAAT ACGATTTGCC TGTGCTGGTG CTGAACCTGA ATAACGGTTA TCTGGGGATG 
GTGAAACAGT GGCAAGACAT GATTTACTCC GGTCGTCACT CCCAGTCTTA CATGAAATCG 
CTGCCAGATT TTGTTGGCGT GGCAGAGGCT TACGGCCATG TGGGCATTCG TGTCAGCGAT 
CCGGCGGAGC TGGAATCGAA GCTTGCCGAA GCGCTCGAGC ATGTCAGGAA TAACCGTCTG 
GTGTTTGTCG ATGTCATCGT AGACGGAACA GAACACGTCT ATCCGATGCA TATTCGCGGC 
GGCGGTATGG ATGAAATGTG GCTCAGCAAA ACGGAGAGAA CCTGA
 
Protein sequence
MEMLSGAEMV VRSLIDQGVK QVFGYPGGAV LDIYDALHTV GGIDHVLVRH EQAAVHMADG 
LARATGEVGV VLVTSGPGAT NAITGIATAY MDSIPLVILS GQVATSLIGY DAFQECDMVG 
ISRPVVKHSF LVKQTEDIPG VLKKAFWLAA SGRPGPVVVD LPKDILNPAN KLPYVWPDSV 
SMRSYNPTTQ GHKGQIKRAL QTLIAAKKPV VYVGGGAVNA HCHEQLRELI EKLNLPVASS 
LMGLGAFPAT HRQALGMLGM HGTFEANMTM HNSDVIFAVG VRFDDRTTNN LAKYCPNATV 
LHIDIDPTSI SKTVPADVPI VGDALQVLEQ MLELLAHETP TQPLDDIRDW WQQIEQWRAR 
HCLKYDTQSE HIKPQAVIET IWRLTKGEAY VTSDVGQHQM FAALYYPFDK PRHWINSGGL 
GTMGFGLPAA LGVKLALPDE IVVCVTGDGS IQMNIQELST ALQYDLPVLV LNLNNGYLGM 
VKQWQDMIYS GRHSQSYMKS LPDFVGVAEA YGHVGIRVSD PAELESKLAE ALEHVRNNRL 
VFVDVIVDGT EHVYPMHIRG GGMDEMWLSK TERT