Gene DvMF_1698 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDvMF_1698 
Symbol 
ID7173613 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDesulfovibrio vulgaris str. 'Miyazaki F' 
KingdomBacteria 
Replicon accessionNC_011769 
Strand
Start bp2069192 
End bp2072083 
Gene Length2892 bp 
Protein Length963 aa 
Translation table11 
GC content70% 
IMG OID643540214 
Productmethyl-accepting chemotaxis sensory transducer 
Protein accessionYP_002436112 
Protein GI218886791 
COG category[N] Cell motility
[P] Inorganic ion transport and metabolism
[T] Signal transduction mechanisms 
COG ID[COG0840] Methyl-accepting chemotaxis protein
[COG2703] Hemerythrin 
TIGRFAM ID[TIGR02481] hemerythrin-like metal-binding domain 


Plasmid Coverage information

Num covering plasmid clonesn/a 
Plasmid unclonability p-valuen/a 
Plasmid hitchhikingn/a 
Plasmid clonabilityn/a 
 

Fosmid Coverage information

Num covering fosmid clones98 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGACGCTGC GCATGAAATT GCTTGCGGGG TTCATCGGCA CCCAGGTGCT CACCTGCCTG 
CTCACCGCCG GGCTGTTGTG GCATTTCGGG GTGGACGGCA TGCGCCGTGT GGGCGATGCC
GCCACCACCG CCATGCAGGA CAGGGCGCGG GACCAGCTGA CCAGCATCCG CAGTTCCAAG
GCCCTGCACG TGGAAGACAT CTTCCGGCGC ATGCGCAACC AGCTGCTGAC CCTGGCCGGC
GAACTGACCG CGCGCGAGGC GGCCCAGGCC CTGCCCGCCG CCTGGCTCGG CGTGCAGGGC
GAGGTGGCCG GGCAGATGGA CGCCAGGGCC GTGGCCCGGC AGTTGCTGGA CGTCTATGCG
GGGCCCGCCT ACTTGCGCTC GCCGGAATTC ACGGCCAACG CGCCATCCGC CCCCGGCTAC
GTTCCCCGCG CGCCGGAAGC GTACCTGCCC GCGGACGCCA GCGGCGTGCT GTTGCAGGGC
ATGTACCTGC TGCCCGCGCT GGCGGCGGGG CAACGGGGGG CATCCGCCAC GCCGGACAGG
CACCCCCTGC CCACTGCCTA CAACGCGTTG CACGCCCGCT GCCATCCGGT GCTGCTGCAC
TTTGCCGACA CCTTCGGCTA CCGGGACATC CTGCTGCTGG ACCCCGGGAC CGGCGCGGTG
ACCTACAGCG TGCGCAAGCT GCCGGATTTC GGCACGTCGC TCGCCACGGG CCCGTACAAG
GATACCGGCC TGGCCACGGT GTTCCGCAAG GCCGTGGCCG CCGGAAAGGC CGGCGAGCGC
AATGCCGCCG TCATGACGGA CTTCGCCCCG TACGAGCCGG ACCGCAACGC CCCGGCCGCG
TTCATCGCCA CCCCGGTGTA CGACGCATCC GGCGCATTCC TGGCCGTGAT GGCCCTGCAC
GTCACGGAGA CGGGCATCAA CCGCGTCATG ACGTCGGAAG GCCGCTGGAA GGACGTGGGC
CTTGGCGAAT CGGGCGATGC CTATCTGGTG GGCCCCGACC TGCGGGTGCG CTCGCTGCCG
CGCGGCTCCA CCAACCGGCA CATCCTTGCG GACGTCATGG ACACCGAGGC CGCCCGCAAG
GCCGTGGCGG GCGAGACCGG CTGCGGGGCC GTGCGCGACC ACGAGGGCAG GCCCGTGCTG
GCCGCATGGC AGCCCCTGCG CATAGAGGGA CTGACCCTGG GGCTGGTGGC CGAAATCGAC
ATGGACGAGG CCCTGGCCGC CACGAGGGAC ATCGCCGCTG CCAGCGGCAA GGCCGAACGC
AGCATGCTGA CCGGAGCGCT GGTGGTGCTG CTGCTGGGCG CGGCGCTGGG GTCGGGCGTG
GCCGTGGCGC TGGTGGCGTC CATCTCGCGG CCCTTGCGCC GGTTGCAGGC CTATGCGGGC
GAGGTGGCGG AAGGGCATCT GGAAGCCCGG CCAGAGGGCG CGTACCCGCC GGAACTGGAC
GACATGCGCC ATTCCATAGA ACGCATGGTG CAGAACCTGC GCCAGCGCAT CGAGGAAGCC
GACGCCCAGA GGCAGGAGGC CGCGCGCATG GCCCGCGAGG CCCATGACGC CATGCGGAAC
GCCACCGCGT CGGAGTCGCG CATCAAGCGG CTGATGGACC GCATGACCGG CGCTGCGGGC
AAGACGCGCA ACGTGTCGGA GCATGTCTCG CACTCCATAG CCGATCTGAC CGGCCAGGTG
AGCACCGTCA CCGGCGGGGT GCAAACCCAG CGCCGCCGCA TGGACGAAAC GGCGGAGGCC
GTGGCCGACA TGCGCGTGAC CGTGGCCAAC GTCACCCACA ATGCCCGCCG GGCCGCCGAG
CAGGCCGACC TTTCACGCGG CAACGCCGAC GAGGGCGCGC GGGGAATGCG CGAGACCGTG
GCGGCCATCA ACGGCATCCG CGAGCGCATC CAGCGGCTGA ACGAGGCCAT GGCCCGCCTT
GGGGTGGAGG CCGAGAACAT CGGGCAGGTC ATGTCGCTGA TCTCGGACAT CGCCGACCAG
ACCAACCTGC TGGCGCTGAA TGCCGCCATC GAGGCGGCCC GCGCCGGGGA TGCCGGGCGG
GGATTCGCCG TGGTGGCCGA CGAGGTGCGC AAGCTGGCCG AAAAGACCAT GGCCGCCACC
CGCGACGTGG GCGAGGCCGT GGCGCGCATC CAAAGTCACA CGCGCGACAA CATCGCCGCC
GTGGAACAGG CCGCGCGCGA TGCCACGGCG TCCGCCGCGT CGGCAGAGGC CGCCGGGCAG
GCCATGACCC GCATCGTCAC GCTGGTGGAC GAGACGGCGG GCATGGTCCA GTCCATCGCC
GCCGCCAACG GCCAGCAGGC GGTGGCCAGC GAGGTGGTGG GGCGCAGCGT GGACGAGGTG
AACCGCATTG CCGGGCAGAC CGCCGAGGCC ATGGACCGCT TTACCGGCAC GCTCAGCGAC
ATCTTTGCTC AGGTGCAGGA AATGTTCTCG ATGGTGGAGG TCATCTGCGC CGGGGAAGAC
GGCGTGGCCC TGATGGCCGA TGCCAGCGAC GAAACCCTGG TCCGCTGGAC GGACGAGCTG
TCCAACCTGC CCAGCATCGA CGCGCAGCAC AAGAAGCTGG TGGACTACAT CAACGCCGTG
CACCGCGCCG CGCGCTCCAA CGACATGGCC GCCGTGCTCG AGGTGTTCGG GCAACTGAAA
AGCTACACCG TGGAGCACTT CGGGTACGAG GAACGGCTGT TCGACGTGCA CGGCTACCCG
GAAGGGGCGC AGCACAAGGA CGTGCACCAC CGCTTCGTGC AGCGGGTGCT GGAGTGGGAA
AAGCAGGCGG CGGGCGGCAA TCCCACGGTG GTCATGGAGA TACTGCGCGG GCTGGTGGAC
TGGCTGGTGT CGCACATCAT GAAGGTGGAC AAGCGGTACG AGGCCTTCAT GCGCGAGCGC
GGCGTGGCGT AG
 
Protein sequence
MTLRMKLLAG FIGTQVLTCL LTAGLLWHFG VDGMRRVGDA ATTAMQDRAR DQLTSIRSSK 
ALHVEDIFRR MRNQLLTLAG ELTAREAAQA LPAAWLGVQG EVAGQMDARA VARQLLDVYA
GPAYLRSPEF TANAPSAPGY VPRAPEAYLP ADASGVLLQG MYLLPALAAG QRGASATPDR
HPLPTAYNAL HARCHPVLLH FADTFGYRDI LLLDPGTGAV TYSVRKLPDF GTSLATGPYK
DTGLATVFRK AVAAGKAGER NAAVMTDFAP YEPDRNAPAA FIATPVYDAS GAFLAVMALH
VTETGINRVM TSEGRWKDVG LGESGDAYLV GPDLRVRSLP RGSTNRHILA DVMDTEAARK
AVAGETGCGA VRDHEGRPVL AAWQPLRIEG LTLGLVAEID MDEALAATRD IAAASGKAER
SMLTGALVVL LLGAALGSGV AVALVASISR PLRRLQAYAG EVAEGHLEAR PEGAYPPELD
DMRHSIERMV QNLRQRIEEA DAQRQEAARM AREAHDAMRN ATASESRIKR LMDRMTGAAG
KTRNVSEHVS HSIADLTGQV STVTGGVQTQ RRRMDETAEA VADMRVTVAN VTHNARRAAE
QADLSRGNAD EGARGMRETV AAINGIRERI QRLNEAMARL GVEAENIGQV MSLISDIADQ
TNLLALNAAI EAARAGDAGR GFAVVADEVR KLAEKTMAAT RDVGEAVARI QSHTRDNIAA
VEQAARDATA SAASAEAAGQ AMTRIVTLVD ETAGMVQSIA AANGQQAVAS EVVGRSVDEV
NRIAGQTAEA MDRFTGTLSD IFAQVQEMFS MVEVICAGED GVALMADASD ETLVRWTDEL
SNLPSIDAQH KKLVDYINAV HRAARSNDMA AVLEVFGQLK SYTVEHFGYE ERLFDVHGYP
EGAQHKDVHH RFVQRVLEWE KQAAGGNPTV VMEILRGLVD WLVSHIMKVD KRYEAFMRER
GVA