Gene Shew185_2374 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagShew185_2374 
Symbol 
ID5371341 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameShewanella baltica OS185 
KingdomBacteria 
Replicon accessionNC_009665 
Strand
Start bp2832865 
End bp2834583 
Gene Length1719 bp 
Protein Length572 aa 
Translation table11 
GC content49% 
IMG OID640830588 
Productacetolactate synthase 3 catalytic subunit 
Protein accessionYP_001366575 
Protein GI153000894 
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 clones16 
Plasmid unclonability p-value0.343911 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

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

Sequence

Gene sequence
ATGGAGATGT TATCCGGCGC CAGCATGATA GTGCGTTCTT TGATCGATGA AGGCGTAAAG 
CACATTTTTG GTTATCCTGG CGGTTCAGTT TTAGATATCT ACGACGCCCT GCACGTTATC 
CCCGGTATTG AACACATACT CGTTCGCCAC GAACAAGCCG CCGTACACAT GGCCGATGGC 
TACGCCCGTG CCACGGGTAA AGTGGGCGTT GTATTAGTCA CCTCAGGCCC AGGCGCGACC 
AACGCGATTA CCGGTATTGC TACCGCTTAC ATGGATTCTA TTCCCCTTGT GGTGTTATCG 
GGTCAAGTCC CGAGCAATCT TATCGGCAAC GATGCCTTCC AAGAATGCGA CATGATAGGT 
ATCTCTCGCC CTGTGGTGAA GCACAGCTTT TTAGTTAAAG ATCCGACTGA AATTCCTGAA 
ATTATTAAAA AGGCTTTTTA CATTGCCTCT ACCGGCCGTC CCGGCCCTGT GGTTGTCGAT 
CTGCCAAAAG ATTGTTTAAA CCCCGCCCTG CTGCACGAAT ATTGCTACCC AGAAAGCGTC 
AAAATGCGCT CGTATAATCC AACGACATCA GGCCATAAAG GTCAGATCCG CCGTGGTCTT 
CAAGCCCTGT TAGCCGCGAA AAAACCGGTA CTTTATGTCG GTGGCGGCGC GATTATCTCA 
GGTTGTGATA AGCAAATCCT GCAATTAGCT GAGAGATTGA ATATTCCCGT CGTCAGCACC 
CTGATGGGAC TTGGCGCTTT TCCAAGCACC CACAAAAACA GTTTAGGCAT GCTTGGGATG 
CACGGTCGCT ACGAAGCCAA CATGACAATG CATAACTGCG ATTTGATCTT CGGTATTGGT 
GTACGCTTCG ACGATAGAAC CACCAATAAT GTGGAAAAAT ACTGTCCGAA CGCGACCATT 
TTGCACATAG ATATCGACCC ATCTTCCATC TCTAAAACCG TGCGAGTCGA TATCCCTATC 
GTGGGTTCGG CCGACAGTAT TTTAGACAGC ATGTTGGCAC TGTTGGATGA GTCTAACGAA 
CATAATGACA GCGATGCCAT TGCCACTTGG TGGAATGATA TTGAACAATG GCGCAGCCGC 
GATTGTCTGG CCTATGACAA AAGCAGCGGC CGCATTAAGC CACAGCAAGT GATTGAAACC 
TTGTACAAAC TGACTAATGG CGATGCCTAT GTCGCCTCTG ATGTTGGCCA GCACCAAATG 
TTTGCTGCCT TGTACTATCC GTTCGATAAG CCGCGCCGCT GGATCAACTC AGGTGGCCTA 
GGGACGATGG GATTCGGCTT GCCCGCCGCA ATGGGCGTGA AAATGGCCAT GCCTGATGCC 
ACTGTTGTGT GTGTCACGGG TGATGGTTCC ATCCAGATGA ACATTCAAGA GCTTTCGACA 
GCGCTGCAAT ATGATACGCC GGTTAAAATT ATCAACTTAA ACAATCGTTT CCTTGGCATG 
GTAAAACAAT GGCAGGACAT GATTTACTCT GGCCGTCACT CACATTCCTA TATGGATTCA 
GTGCCAAATT TTGCCAAAAT TGCCGAGGCC TATGGTCATG TTGGCATGAC GATCAGCGAT 
CCCGCCGAAC TTGAGTCAAA AATGGCTGAA GCGCTGGCGA TGAAAGACAG GCTGGTCTTT 
ATCGATATCA TGGTGGATGA AACTGAGCAC GTGTACCCCA TGTTGATCCG CGGTGGTGCG 
ATGAATGAAA TGTGGCTGAC CAAGACGGAG AAATGCTAA
 
Protein sequence
MEMLSGASMI VRSLIDEGVK HIFGYPGGSV LDIYDALHVI PGIEHILVRH EQAAVHMADG 
YARATGKVGV VLVTSGPGAT NAITGIATAY MDSIPLVVLS GQVPSNLIGN DAFQECDMIG 
ISRPVVKHSF LVKDPTEIPE IIKKAFYIAS TGRPGPVVVD LPKDCLNPAL LHEYCYPESV 
KMRSYNPTTS GHKGQIRRGL QALLAAKKPV LYVGGGAIIS GCDKQILQLA ERLNIPVVST 
LMGLGAFPST HKNSLGMLGM HGRYEANMTM HNCDLIFGIG VRFDDRTTNN VEKYCPNATI 
LHIDIDPSSI SKTVRVDIPI VGSADSILDS MLALLDESNE HNDSDAIATW WNDIEQWRSR 
DCLAYDKSSG RIKPQQVIET LYKLTNGDAY VASDVGQHQM FAALYYPFDK PRRWINSGGL 
GTMGFGLPAA MGVKMAMPDA TVVCVTGDGS IQMNIQELST ALQYDTPVKI INLNNRFLGM 
VKQWQDMIYS GRHSHSYMDS VPNFAKIAEA YGHVGMTISD PAELESKMAE ALAMKDRLVF 
IDIMVDETEH VYPMLIRGGA MNEMWLTKTE KC