Gene Mrad2831_5323 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMrad2831_5323 
Symbol 
ID6141395 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMethylobacterium radiotolerans JCM 2831 
KingdomBacteria 
Replicon accessionNC_010505 
Strand
Start bp5632545 
End bp5634320 
Gene Length1776 bp 
Protein Length591 aa 
Translation table11 
GC content67% 
IMG OID641631024 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_001757953 
Protein GI170751693 
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 clones
Plasmid unclonability p-value0.196754 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones30 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGGCGGCG AGGTCATGAC CGGGGCCGAG ATGGTCATCC GGGCCTTCCA GGATCAGGGT 
GTCGACACGC TGTTCGGGTA CCCGGGCGGC GCCGTACTTC CGATCTACGA CGCGCTCTTC 
CACCAGAACG CCGTCAAGCA CATCCTCGTC CGCCACGAGC AGGGCGCCGT CCACGCCGCG 
GAGGGCTATG CCCGCTCCTC CGGCAAGGTC GGCTGCGTCC TCGTGACGTC GGGCCCCGGC 
GCGACCAACA TCGTCACCGG ACTCACCGAC GCGATGCTGG ACTCGATCCC GCTGGTCTGC 
ATCACCGGAC AGGTCCCGAC GCACCTGATC GGCACCGACG CGTTCCAGGA ATGCGACACG 
GTCGGCATCA CGCGCCACTG CACGAAGCAC AATTACCTCG TCAAATCGAT CGACGACCTG 
CCGCGCATCC TGCACGAGGC GTTCTACGTC GCGGCGAACG GCCGTCCCGG TCCGGTCGTG 
GTCGACCTGC CCAAGGACAT CCAGTTCGCC TCCGGCCTCT ACGAGCGCCC CGAGATCGCG 
AGCCACAAGA CCTACCGCCC GGCCGTCAAG GGCGACGCCG ACCGGATCCG CGCGGCCGTC 
GAGCTGATGG CGACCGCGCG CCGGCCGGTC TTCTACACCG GCGGCGGCGT CATCAACTCG 
GGTCCTGAGG CCTCGCGCCT GCTGCGCGAG CTCGTCCGCG AGACCGGCTT CCCGATCACC 
TCGACCCTGA TGGGGCTCGG CGCCTATCCG GGCACGGACG AGAAGTTCCT GGGCATGCTC 
GGCATGCACG GGACCTACGA GGCCAACCTC GCGATGCACG AGTGCGACGT GATGATCTGC 
GTCGGCGCCC GGTTCGACGA CCGGATCACC GGCCGGCTCG ACGCGTTCTC GCCGTTCTCG 
AAGAAGATCC ACATCGACGT CGACGCCTCC TCGATCAACA AGGTCGTCAA GGTCGATGTC 
GGGATCGTCG GCGACTGCGC GTCGGTGCTC GCCGACATGC TGGAGGCGTG GCGCGCCTTG 
CCGTCGCGGC CCGACACGTC GAACCTCGAT CCGTGGTTCC AGAAGATCAA CGCCTGGAAG 
GCGCGGGACT GCCTCGCCTA CTGGCCGTCG GGCACGATCA TCAAGCCGCA ATACGCCGTG 
CAGCGCCTCT ACGAGGCCTG CAAGGACCGC GAGACCTACA TCACCACCGA GGTCGGCCAG 
CACCAGATGT GGGCGGCCCA GTACTTCAAG TACGACGAGC CGAACCGGTG GATGACGTCG 
GGCGGCCTCG GCACGATGGG CTACGGCCTG CCGGCGGCGA TCGGCACGCA GCTCGCGCAC 
CCGAACGGGC TCGTCATCGA CATCGCCGGC GAGGCCTCGA TCCTGATGAA CATGCAGGAG 
ATGTCGACGG CGGTGCAGTA CCGCCTGCCG ATCAAGGTGT TCATCCTGAA CAACGAGTAC 
ATGGGCATGG TCCGCCAGTG GCAGGAGCTG CTGCACGGCT CGCGCTACTC GCAGAGCTAC 
TCGGAGAGCC TGCCGGACTT CGTGAAGCTC GCGGAGGCCT ACGGCGCCAA GGGCATGCGC 
TGCGAGAAGC CGGGCGACCT CGACGGCGCC ATCGCGGAGA TGCTCGCCCA CGACGGCCCG 
GTGATCTTCG ACTGCATCGT CGACAAGACC GAGAACTGCT TCCCGATGAT CCCGTCGGGC 
AAGGCGCACA ACGAGATGCT CCTGTCCGAT TACCTCGGCG AGACCGGCGT CGAACTCGGC 
GACGTGATCT CCGAGGAAGG CAAGATGCTG GTGTGA
 
Protein sequence
MGGEVMTGAE MVIRAFQDQG VDTLFGYPGG AVLPIYDALF HQNAVKHILV RHEQGAVHAA 
EGYARSSGKV GCVLVTSGPG ATNIVTGLTD AMLDSIPLVC ITGQVPTHLI GTDAFQECDT 
VGITRHCTKH NYLVKSIDDL PRILHEAFYV AANGRPGPVV VDLPKDIQFA SGLYERPEIA 
SHKTYRPAVK GDADRIRAAV ELMATARRPV FYTGGGVINS GPEASRLLRE LVRETGFPIT 
STLMGLGAYP GTDEKFLGML GMHGTYEANL AMHECDVMIC VGARFDDRIT GRLDAFSPFS 
KKIHIDVDAS SINKVVKVDV GIVGDCASVL ADMLEAWRAL PSRPDTSNLD PWFQKINAWK 
ARDCLAYWPS GTIIKPQYAV QRLYEACKDR ETYITTEVGQ HQMWAAQYFK YDEPNRWMTS 
GGLGTMGYGL PAAIGTQLAH PNGLVIDIAG EASILMNMQE MSTAVQYRLP IKVFILNNEY 
MGMVRQWQEL LHGSRYSQSY SESLPDFVKL AEAYGAKGMR CEKPGDLDGA IAEMLAHDGP 
VIFDCIVDKT ENCFPMIPSG KAHNEMLLSD YLGETGVELG DVISEEGKML V