Gene Glov_2503 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagGlov_2503 
Symbol 
ID6366237 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameGeobacter lovleyi SZ 
KingdomBacteria 
Replicon accessionNC_010814 
Strand
Start bp2673784 
End bp2675484 
Gene Length1701 bp 
Protein Length566 aa 
Translation table11 
GC content58% 
IMG OID642677919 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_001952737 
Protein GI189425560 
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-value0.0000132944 
Plasmid hitchhikingYes 
Plasmid clonabilityhitchhiker 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGAAAATGA ATGGAGCACG TATCCTGCTT GAAAGCCTGA AGCGTGAAGG GGTGGATCTG 
GTATTCGGCT ACCCCGGCGG AACGGTGATC AATCTCTATG ATGAACTGAT GAATGTGCGG 
GAGATCCGCC ATATCCTGCC CCGCCATGAA CAGGGCGGTA CCCATGCGGC TGACGGTTAT 
GCCCGTGCCA CCGGCAAGGT CGGCGTGGCG ATTGCCACCT CTGGTCCCGG CGCCACCAAC 
ACCATTACCG GTATCGCTAC GGCCTACATG GATTCAATCC CGATGGTTAT CATCACCGGT 
CAGGTCCCAA CTCCCCTGAT CGGCAACGAT GCCTTTCAGG AGGTGGATAT CATCGGCATT 
ACCCGTCCGA TCACCAAGCA CAGCTTCCTG ATCCGGCATG CCAAGGATAT CCCGACCATC 
GTGCGCAAGG CGTTTTATAT TGCCCGTTCC GGTCGTCCCG GTCCGGTGCT GATCGACTTC 
CCCAAGGATG TCCAGATCAG CCAGGCCGAG TTCAAGTGGC CCGAGTCAAT TGAGATCCGC 
GGCTACAAGC CGAATCTGGA GGGGCACCAG AAGCAGGTGG AAAAAGCGGT GGATATGCTG 
CTGGTTGCTC GCCGTCCGGT TATGTATGTA GGCGGCGGGG TCATCCTGGC AAATGCCGCC 
GAGGAGCTGA CTGAGCTGGC CCGTACCCTG CAGTTCCCGG TCACCACCAC CCTGATGGGG 
CTGGGGGCCT TCCCGGAGAA CGATCCGCTG TCCCTCAAGA TGCTGGGGAT GCACGGTGCC 
TATGCCGCCA ACATGGCCAT GACCCACTCG GATCTGATCC TGGCGGTCGG CGCCCGTTTT 
GATGACCGGG TAACCGGCAA GATCGCCACC TTTGCACCCC ACGCCAAGAT CATCCATATC 
GATGTCGATC CAACTTCGAT CCGTAAGAAC GTGCGGGTTG ATCTGCCGAT CGTGGGTGAC 
ACCAAGGATG TTCTGGTCAA GATGATTGAA TGCCTGAAAG GACAGACCGA GAAGGTATCT 
GCGCAGCACA GTGCCATGGA GGCATGGCAT GAGGATATCA GCGGCTGGAA GGCAAAGCAT 
CCGATCGCCT ACAAGCAGAG CAGCAGCGTG ATCAAGCCCC AGTATGTGAT TCAGAAGCTG 
CGTGAGCTGT CAGAGGATGA TGCCATCATG GCGACCGACG TGGGTCAACA TCAGATGTGG 
ACCGCCCAGT TCTTTGAGTT CAACCAGCCT CGGACGCTGC TGACCTCCGG CGGTCTGGGC 
ACCATGGGTT TCGGTCTGCC GGCAGCCATG GGGGCACAGG CTGCCTATCC CAAACGCCAG 
GTGATCTGCG TCTGTGGTGA CGGTGGCGTG CAGATGAACA TGCAGGAACT GGCTACCCTG 
GTACAGCATC GTCTGCCGGT CAAGATTGTT GTCCTGAACA ACAACTTCCT GGGAATGGTG 
CGTCAATGGC AGGAGCTGTT CTTTGACAAG CGTTACTCCC AGACCTGTCT TGAGCTGCCG 
ATGGATTTTG CCAGGATTGC CGAGGCCTAC GGCGCCAAAG GGCTCAAGGC GGACAAGCCG 
TCCGAGGTGG AGCAGGTGAT CAAAGAGGGC TTTGCCCATG ACGGTCCGGT GATCATGGAG 
TTCAAGATCG CCCGGGAGGA AAAGGTGTTG CCGATGGTCC CTGCCGGGGC GTCGCTGAAT 
GAAATGGTGT TGAACGCCTA G
 
Protein sequence
MKMNGARILL ESLKREGVDL VFGYPGGTVI NLYDELMNVR EIRHILPRHE QGGTHAADGY 
ARATGKVGVA IATSGPGATN TITGIATAYM DSIPMVIITG QVPTPLIGND AFQEVDIIGI 
TRPITKHSFL IRHAKDIPTI VRKAFYIARS GRPGPVLIDF PKDVQISQAE FKWPESIEIR 
GYKPNLEGHQ KQVEKAVDML LVARRPVMYV GGGVILANAA EELTELARTL QFPVTTTLMG 
LGAFPENDPL SLKMLGMHGA YAANMAMTHS DLILAVGARF DDRVTGKIAT FAPHAKIIHI 
DVDPTSIRKN VRVDLPIVGD TKDVLVKMIE CLKGQTEKVS AQHSAMEAWH EDISGWKAKH 
PIAYKQSSSV IKPQYVIQKL RELSEDDAIM ATDVGQHQMW TAQFFEFNQP RTLLTSGGLG 
TMGFGLPAAM GAQAAYPKRQ VICVCGDGGV QMNMQELATL VQHRLPVKIV VLNNNFLGMV 
RQWQELFFDK RYSQTCLELP MDFARIAEAY GAKGLKADKP SEVEQVIKEG FAHDGPVIME 
FKIAREEKVL PMVPAGASLN EMVLNA