Gene Clim_0800 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagClim_0800 
Symbol 
ID6353870 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameChlorobium limicola DSM 245 
KingdomBacteria 
Replicon accessionNC_010803 
Strand
Start bp875230 
End bp877131 
Gene Length1902 bp 
Protein Length633 aa 
Translation table11 
GC content50% 
IMG OID642668424 
Productheat shock protein 90 
Protein accessionYP_001942859 
Protein GI189346330 
COG category[O] Posttranslational modification, protein turnover, chaperones 
COG ID[COG0326] Molecular chaperone, HSP90 family 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones33 
Plasmid unclonability p-value
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
ATGCTAACCC AACCACGTGT CATTATGAGC ACCAACAACA GTTCATCTGT TCAGGAATTC 
GAATATAAAG CCGAAATGAA GCAGCTTCTG GATCTCATCG TCCATTCGCT CTACACCCAC 
CCTGAAATTT TTCTTCGCGA GCTAATATCC AACGCTTCCG ATGCTCTCAG CAAGGTGCGC 
TTCGATGCCC TTACCGATCA GAACCTTCTG GAAGAGGGTG CCGATCCTGG GGTGAAGATA 
ACCGTTGATC CCAAAGAGCT GACCTTCATG ATCGAGGATA ACGGTATCGG TATGACCGAG 
GAAGAGCTGA TCGCCAATCT CGGCACGGTA GCGAAATCCG GTACGCTTGG ATTCATGCAG 
GCATTGAAAG ATCAGCAGAA AGAGTTGGAC GGCAATCTGA TTGGTCAGTT CGGCGTGGGC 
TTCTATTCGG TGTTCATGGT GACCGACGAG GTTACGGTCG AAACCAGAAG CGCTCGAACC 
GGTTCCGAAG GGTATCGGTG GAAGTCGTCC GGGCAGGGCA CCTACACGAT CGAAAAAATC 
GAAAAGGCCG GAAGGGGCAC GACGATTTCG TTCAAGCTCA AAGAGGAGTC GAAAGAGTTC 
GCCGAAGAGT ATCGTGTAGA ACAGATCATC AGGAAATATT CGAATTTCGT CGATTTTCCC 
ATTACCCTGG ACGGCAGGCA GATCAACAGC GTGACAGCGC TCTGGCAGCG TTCGAAGAGC 
GAACTGAAAG ATGAAGAGGT CAACGAGTTC TACAAGTTCA TCGCCAATGA TTTTCAGGAT 
CCTCTCGATT ACCTGCATGT TTCCGTTGAG GGAATGGTTA GTTTCAAGGC GCTGCTTTTT 
CTGCCGAAGG AAGCTCCGCC GGAACTGCTC TATCGACAGA GCGAGCTTGA AAACCGCGGG 
CCTCAGCTTT ACGTGAAAAA GGTGATGATC CAGAGCGAGT GCCGCGATCT GCTTCCGGAA 
TATCTGCGTT TTCTCGTTGG CGTAGTCGAT ACCGAAGATC TTTCGCTCAA CGTATCCCGA 
GAGATCGTAC AGTCGAGTCC GGTGATGGCG AAGATCCGCC AGATTCTTTC CGGAAAAATA 
CTCGGCTGGT TCGATACGCT TGCCAAAGAA CAGCCAGAGA AGTTCCGCAC CTTCTACAAG 
GCGTTCGGGC CGATCGTCAA GATCGGACTG AATACCGATT TTACAAATCG CGACAAGCTT 
ATCGAGCTGC TTCGTTTTGA AAGCACGAAA ACCGCAGTGG ATGAATATGT AACGTTAAAG 
GAGTATGTCG GACGGATTGG TGATGATCAG AAAGAGATTT ATTATCATTC CGGCAGCAGC 
CGCAGCCAGC TGCTTGCGCA TCCCAACCTC GAATATTTTC AGGATAAAGG CATCGAAGTG 
CTGTTGCTTT CCGATCCCGT AGATGTTTTC GTGATTCCCT CGATTCACGA GTATGAGAAA 
AAACCTCTGA AATCCATTGA AAAAGCCGAT ATTGATTTCA TAAATGAGAA AAAAGAGGGG 
AGCGAACCGC TTCCGGAAAA CCTTCTTCAG CCGGTTCTCG CACTGTTCAG GGAGACTCTC 
GGAGATCGGA TTGAAGATGT CGTCGAGTCG CACCGTCTGG TAAATTCGCC GGTAACGCTT 
GTGAGCGGAA AGGATGCGCT TGACAGTCAG ATGGAGCGGA TGATGAAGAT GATGCAGGCA 
GAGATGCCTG CCGGTAAAAA GATTCTTGAA GTGAACACGG CACACCCGAT TATACGGAAT 
CTTTCAGGCA TGTACATGGC CAATGCGGGA AATCCGCTGA TCGGAACCGT GATCGAGCAG 
CTTTACGATG GAGCCCTGCT GCATGAAGGA GGACTTGATT CAACGACCGA CTTCCTTTCG 
AGAATGAACA GTCTGATCGA GGCAGCTACG CTGCAGCGGT AA
 
Protein sequence
MLTQPRVIMS TNNSSSVQEF EYKAEMKQLL DLIVHSLYTH PEIFLRELIS NASDALSKVR 
FDALTDQNLL EEGADPGVKI TVDPKELTFM IEDNGIGMTE EELIANLGTV AKSGTLGFMQ 
ALKDQQKELD GNLIGQFGVG FYSVFMVTDE VTVETRSART GSEGYRWKSS GQGTYTIEKI 
EKAGRGTTIS FKLKEESKEF AEEYRVEQII RKYSNFVDFP ITLDGRQINS VTALWQRSKS 
ELKDEEVNEF YKFIANDFQD PLDYLHVSVE GMVSFKALLF LPKEAPPELL YRQSELENRG 
PQLYVKKVMI QSECRDLLPE YLRFLVGVVD TEDLSLNVSR EIVQSSPVMA KIRQILSGKI 
LGWFDTLAKE QPEKFRTFYK AFGPIVKIGL NTDFTNRDKL IELLRFESTK TAVDEYVTLK 
EYVGRIGDDQ KEIYYHSGSS RSQLLAHPNL EYFQDKGIEV LLLSDPVDVF VIPSIHEYEK 
KPLKSIEKAD IDFINEKKEG SEPLPENLLQ PVLALFRETL GDRIEDVVES HRLVNSPVTL 
VSGKDALDSQ MERMMKMMQA EMPAGKKILE VNTAHPIIRN LSGMYMANAG NPLIGTVIEQ 
LYDGALLHEG GLDSTTDFLS RMNSLIEAAT LQR