Gene DvMF_2693 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDvMF_2693 
Symbol 
ID7174631 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDesulfovibrio vulgaris str. 'Miyazaki F' 
KingdomBacteria 
Replicon accessionNC_011769 
Strand
Start bp3406530 
End bp3408245 
Gene Length1716 bp 
Protein Length571 aa 
Translation table11 
GC content65% 
IMG OID643541225 
Producthistidine kinase 
Protein accessionYP_002437100 
Protein GI218887779 
COG category[K] Transcription
[T] Signal transduction mechanisms 
COG ID[COG0642] Signal transduction histidine kinase
[COG0745] Response regulators consisting of a CheY-like receiver domain and a winged-helix DNA-binding domain 
TIGRFAM ID[TIGR00229] PAS domain S-box 


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 clones65 
Fosmid unclonability p-value0.0909214 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGAGTGAGC AAGAGACGGC GTTGAATGCG CCCGCACAGG GGACGGGAAT GGTGTTCGAA 
GATGCCGGGA CAGCACGCGA GGCCGCACTG GAGGCGGAAA TCGCGCGGTT GCGAGGCGAG
CGTGACGCCG CGCGTTCCGC CGAGCGTACT TTGCGCGACA TCTTGACCTC GATTCCCGAC
CTGCTGACGG TGCACGATCG GGCGGAACAG GTGGTGTTCA GCAACTGGCA GGGCGACAAC
GTGCGCTGGG AGACGCAGGG CGGCGACCAG CACGGAAGAA GCTGCTTCGG CTGCTATTTT
CGCGGCGAGA AGTCCTGCGA CGCCTGCCAG ATAGCAGAGG TGTTCGATAC AGGACGCCAA
AAGATCATCG AGTTGTACAA TCCCGATTCG CGCACCTTTC GCTCCATCAC CGTGTTTCCG
GTGCGCAACG CCGCCGGTCA GGTGGCCATG GTGGCGGAAT ACGTGCGCGA CGTGACCGAG
ACCCGCCGCA TGGAACGCGA GTTGCGCGTG GCCAAGGAGG CCGCCGAGGC GGCGGACAAG
GCCAAGAGCG AGTTCCTGGC CTCCATGAGC CACGAAATAC GCACCCCCAT GAACGGCGTG
CTCGGCATGC TGGACCTTGC GCTGGACACC CCGCTGGACG AGGAACAGCG CGAATACCTG
GAGGCGGCGC AGAATTCCGC CGAATCGCTG CTGGCGCTGA TCAACGACAT CCTCGACTTT
TCCAAGATCG AGGCAGGGAT GGTGGAACTG GACAGCCAGG TGTTCCGCCT GCGCAAGCGC
CTGTCCACCC TGCACACCAT GTTCGTGCAC CGGGCCGAGG AAAAGGGGCT GGGCTTTGCC
TTTCTGGTGC CCGAAGGCGT GCCCGACGGC CTTGTGGGCG ACCCCATGCG CCTGCGCCAG
GTGCTGGTGA ACCTGCTGGA CAACGCCCTG AAGTTCACCG AGGCGGGCCG CGTGTCGCTT
GCCGTGCGCA CCGTGCAGGC CACGCCGGAA TCCATGCTGC TGGAATTTTC CGTCACCGAT
TCCGGGCCCG GCATTCTGGA CAAGCACCGC GAGCACATCT TCGAGCGGTT CGTGCAGGCG
GACGGATCAC TTTCGCGCCG TCACAAGGGT ACGGGCCTTG GGCTGGCCAT CTGCAAGCGG
CTGGCCCTGC TCATGGGCGG GGACATTCGC GTGGACAGCG CGCCGGGGCA GGGCAGCACC
TTCCACTTCA CGGCGCGCTT CGCCACGGCA CGCCTGGAAG GCGAAGAAGC CGCCCGCGCG
CCGGTGCAGA CGCCCGAACC GGAATGCCGG GCGCGCATCC TGGTGGCGGA AGACCACCCC
ATGAACCTGA TGTTCATCGA GAAATTTCTG CAAAAGCAGG GCTACGAGGT GCAGTCCGTG
ACGGATGGCA GCGAGGTGGT GCCTGCGCTG CGCAAGCAGG AATTCGACCT GGTGCTGATG
GATATCGCCA TGCCGGTCAT GGATGGCATG GAGGCCACGC GCATGGTGCG CAAGGCCCAG
GGCATGGCCA CCAGCAGCGG CGTGCCCATC ATCGCCATGA CCGCCCACGC CATGAAGGGC
GACCGCGAGC AGTTTCTGGC GGCGGGAATG GACGACTACA TCGGCAAGCC CATCAATTCC
GACAACCTGC GCAGCCTGCT GCTGAAGCAC ATCCAGAAGT GCCGCCGGGG CGGGGCCGCG
GGGGCGGGGG ACGGAGCTTT GGGCGGTGCC GGGTAG
 
Protein sequence
MSEQETALNA PAQGTGMVFE DAGTAREAAL EAEIARLRGE RDAARSAERT LRDILTSIPD 
LLTVHDRAEQ VVFSNWQGDN VRWETQGGDQ HGRSCFGCYF RGEKSCDACQ IAEVFDTGRQ
KIIELYNPDS RTFRSITVFP VRNAAGQVAM VAEYVRDVTE TRRMERELRV AKEAAEAADK
AKSEFLASMS HEIRTPMNGV LGMLDLALDT PLDEEQREYL EAAQNSAESL LALINDILDF
SKIEAGMVEL DSQVFRLRKR LSTLHTMFVH RAEEKGLGFA FLVPEGVPDG LVGDPMRLRQ
VLVNLLDNAL KFTEAGRVSL AVRTVQATPE SMLLEFSVTD SGPGILDKHR EHIFERFVQA
DGSLSRRHKG TGLGLAICKR LALLMGGDIR VDSAPGQGST FHFTARFATA RLEGEEAARA
PVQTPEPECR ARILVAEDHP MNLMFIEKFL QKQGYEVQSV TDGSEVVPAL RKQEFDLVLM
DIAMPVMDGM EATRMVRKAQ GMATSSGVPI IAMTAHAMKG DREQFLAAGM DDYIGKPINS
DNLRSLLLKH IQKCRRGGAA GAGDGALGGA G