Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | DvMF_1117 |
Symbol | |
ID | 7173018 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Desulfovibrio vulgaris str. 'Miyazaki F' |
Kingdom | Bacteria |
Replicon accession | NC_011769 |
Strand | + |
Start bp | 1367399 |
End bp | 1369405 |
Gene Length | 2007 bp |
Protein Length | 668 aa |
Translation table | 11 |
GC content | 66% |
IMG OID | 643539628 |
Product | heat shock protein 90 |
Protein accession | YP_002435539 |
Protein GI | 218886218 |
COG category | [O] Posttranslational modification, protein turnover, chaperones |
COG ID | [COG0326] Molecular chaperone, HSP90 family |
TIGRFAM ID | |
|
|
Plasmid Coverage information |
Num covering plasmid clones | n/a |
Plasmid unclonability p-value | n/a |
Plasmid hitchhiking | n/a |
Plasmid clonability | n/a |
| |
Fosmid Coverage information |
Num covering fosmid clones | 76 |
Fosmid unclonability p-value | 0.775392 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
| |
Sequence |
Gene sequence | ATGACCGCCG CCGCGCACGA AACCCATGAA TTCCGCACAG AAGTGCAGAA ACTGCTGCAC ATCATCACCC ACTCGCTGTA CACCAACCGC GAGATTTTCC TGCGCGAACT GGTCTCCAAC GCATCCGACG CCCTGGACAA GCTGCGCTTC TTCCAGAGCC GGGGCGACGC CGTGACCGCG CCCGACCTGC CGCTGGACAT CACCATCACC GTGGACAAGG ACGCGCGCAT CCTGCGCATC GCCGACACGG GCGTGGGCAT GACCCGCCAG GAACTCATCG ACAACCTGGG CACCATCGCC CGGTCCGGCT CGGAACGGTT CATGGCCGAA CATGGGATGG GGCAGGGCCT GAACGGCGGG GCCAAGGCCG GTGCGGCTGC GGACGGCACC GACGGTGCCG ACGGCGAATC CGCTTCCTCG ACCTCAGCAG CCCCCACCGA CGCCGCGTCC ATCATCGGGC GCTTCGGCGT GGGCTTCTAC TCGGTGTTCA TGGTTGCGGA CACGGTGAAG GTCACCTCGC GCTCGTGCCA GCCCGGCGCT ACCGCCCACG TCTGGGAATC GGACGGTTCC GGCTCGTTCA GCGTGGCCGA GGTGGATGCC GCCAGCGATG CCGACGCCCC GGCGCGCGGC ACGGTCATCG AGGCGCACAT CAAGGAAGAC GCTGCGGAAT TCCTGGAACG CCACCGTCTG GAAGCCATCG TACGCACCCA TTCCAACTTC CTGCCCTTCC CCATCATGGT CGAAGGCGAA CGGGTGAACA CCACCCCGGC CCTGTGGCGC GAACCGAAGT TCTCGGTCAC CCCGCAGCAG TACGAAGACT TCTACAAGTA CCTCACCTTC GACAGCGCCG CGCCGCTGGA AACCATCCAC GTTTCCGTGG ACGCGCCGGT GCAGTTCACC GCGCTGATGT TCGTGCCGCC GCACGGTCAG GAACTGTTCG GCATGGGCCG CGACCGCTGG GGCCTCGACC TGTACGTGCG CCGGGTGCTC ATCCAGCGGG AGAACAAGGA CCTGCTGCCG GAATACCTCA GCTTCGTGAA GGGCGTGGTG GACACGGAAG ACCTGCCCCT GAACATCTCG CGCGAGACGC TGCAAGAGAA CGTGGTCATC CGCAAGATCG GCCAGACGGT GACCAGGCAG GTGCTGGGCC ATCTGGAAAA GCTGGCCGCG TCCGACGCGG ACAAGTACGC GGAATTCTGG CGCGGGCACG GCAAGGTGTT CAAGCTGGGC CACACCGACT GGGCCAACCG CGAAAAGTTC GCCGGCCTGC TGCGCTGCAA CACCTCGCAC CACGACGACG CCAAGGGCTT GTCCTCGCTG GACGACTACA TAGGCCGCGC GCGTGAAGGC CAGAAGGACA TCTGGTACAT CTCCGCGCCC AACCGCGAAG CCGCCCGGCT GAACCCGCAC CTGGAAATCT TCCGCAAGAA GGGGCTGGAG GTGCTGTTCC TGTACGAACC CATCGACGAG TTCGTCATGG ACGCGCTGGG CAACTACAAG GACTTCGCGC TGAAGGCCGT GGAACACGCC GACGCCGCCA CCCTGGACGC CTTCCCCACC GTGGAGGATC GCAAGGAGGC AGAACCGCTG GCGGAATCCG ACGCCGCGGC CTTCGATGCG CTGCTGGCCC GCATGAAGGA CCTGCTGGGC GACAAGGTGA CCGAGGTGCG CGTGTCGCAC CGCCTGTCCG ACAGCCCGGC CTGCCTGGTC AGCCCCGACG GCTCGGTGAC CTCGTCCATG GAAAAGCTGC TCAAGGTCAT GCAGCGCGAC GAGTCCATCC CCAAGAAGGT GCTGGAAGTG AACCGCGACC ACCCCATCCT GCGCAACCTG CTGCGCATCC ACAAGGCGGA CCCCGCCGAC CCCATGGTGG AAAGCGCCAC CCTGCAACTG TTCGAGGCCA GCCTGCTGCT GGAAGGCTAC CTTGCCGACC CGCACGCGCT GGTGGGCCGC CTGTACGGCC TGCTGGAACA GGCGGGCGGC TGGTACACCG AGGTCAAGAA ACTGTAG
|
Protein sequence | MTAAAHETHE FRTEVQKLLH IITHSLYTNR EIFLRELVSN ASDALDKLRF FQSRGDAVTA PDLPLDITIT VDKDARILRI ADTGVGMTRQ ELIDNLGTIA RSGSERFMAE HGMGQGLNGG AKAGAAADGT DGADGESASS TSAAPTDAAS IIGRFGVGFY SVFMVADTVK VTSRSCQPGA TAHVWESDGS GSFSVAEVDA ASDADAPARG TVIEAHIKED AAEFLERHRL EAIVRTHSNF LPFPIMVEGE RVNTTPALWR EPKFSVTPQQ YEDFYKYLTF DSAAPLETIH VSVDAPVQFT ALMFVPPHGQ ELFGMGRDRW GLDLYVRRVL IQRENKDLLP EYLSFVKGVV DTEDLPLNIS RETLQENVVI RKIGQTVTRQ VLGHLEKLAA SDADKYAEFW RGHGKVFKLG HTDWANREKF AGLLRCNTSH HDDAKGLSSL DDYIGRAREG QKDIWYISAP NREAARLNPH LEIFRKKGLE VLFLYEPIDE FVMDALGNYK DFALKAVEHA DAATLDAFPT VEDRKEAEPL AESDAAAFDA LLARMKDLLG DKVTEVRVSH RLSDSPACLV SPDGSVTSSM EKLLKVMQRD ESIPKKVLEV NRDHPILRNL LRIHKADPAD PMVESATLQL FEASLLLEGY LADPHALVGR LYGLLEQAGG WYTEVKKL
|
| |