Gene Dde_3261 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDde_3261 
Symbol 
ID3758238 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDesulfovibrio desulfuricans subsp. desulfuricans str. G20 
KingdomBacteria 
Replicon accessionNC_007519 
Strand
Start bp3257558 
End bp3259399 
Gene Length1842 bp 
Protein Length613 aa 
Translation table11 
GC content57% 
IMG OID637784174 
Productmethyl-accepting chemotaxis sensory transducer 
Protein accessionYP_389750 
Protein GI78358301 
COG category[T] Signal transduction mechanisms
[N] Cell motility 
COG ID[COG0840] Methyl-accepting chemotaxis protein 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones35 
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
GTGGTACCTG TTTTACCAAA GGAGTCTGCA GTGCTCAGAA AGTTTACTAT TGCAAGCCGC 
ATCATTTTTC TGCTGGTGTT GATGCTGGTG TTCTCTACCA TCGTCGGTGG CATTTATACG
TATTTTCTCT ACAAAGTGCA GGACAGGTCG CTTACGGAAA CAGAAGCCGT GCTGCATGAA
GGGTATGAGC GGAGCATGAA GTTTGCCGTG CAGACTCTGG CCACCAACCT TGCCCATGTG
GCGCAGACGG CGCGCAGCAG CGGGCAGGAT CCCGTGGAAG CGATGCGTGC GGCCATAGCG
CCGGTGCGTT TCGGCGGAGA CGGGTATTAT TTTATCTATA ATACGCAGGG GTACACCGTG
GCCCATCCGC TGCGGCCCGA TTTTAACGGG CAGCCCGGTA TGGATAAGAA AGACCAGAAA
GGCAACCAGT ACATCAGGCA GCTCAATGAA AAAGCCATGA GCGGCGGGGG CTTTGTCACC
TACTGGTTCA ACAAGCCCAA TGAGCGCGAG CCCAGCCCCA AACTGGCATA CGCCCAGATG
ATCGAAGGCA CTGATCTGTG GCTTTCCACC GGTGTGTATG TGGATGATAT TCAGGAGGAG
CGGGAGCGCA TACGGGCAAC ACTTGAGGCT CTGCTGGATG AGGCCCGCAA TATTGCGCTG
ACAGTTGTCG GTGTGCTCTT TTTGCTGCTG GTACTGCCTT TTGCCATAAG CATCGTGCGC
AGTATTCTGC TGCCGCTGCG CGCGGCCACA GGCAACGCAC AGCAGGTAGC TGCGGGTAAT
CTTGATGTGG TCATTGCCGT GGAGGGCAGG GACGAAATCA CCCGTCTGGA AGAAGCGCTG
CATACCATGC TGGCCACGCT GAACAACAAC ATTAAAGAAA TTGAAGTGAA AAGCCGCCAT
GCCGAAGAGC AGGCCAGAGC GGCAGAACAG GCGGCAAAAC AAGCGGATGA AGCCAGAAAG
GCTGCGGAAA ATGCCAAAAG CGAAGGCATG CGCGCTGCTG CTGCCAGACT GGAAACCATT
ATGCACCATG TGACCTCGGC GTCCGAGAGC ATTTCCGGTC AGGCGGAGGA AATGCGTCAG
GGGGCCGAAC TGCAGGCCGA GCGCATAGCA GGCACTGCCA CCGCCATGGA AGAGATGAAT
GCCACTGTGT TCGAGATTGC GCGCAACTCT GCGGAGGCGG CCGAAGCAGG CATGCAGGCC
GGTGAAAAAG CCAACGCGGG CGCCGACACC GTGCGTATGT CCATCAAATC CATGCTGCAC
ACGCAGGAGC AGGCCGAACG GCTTAAAACC AACATGGCGC ATCTGGGTAC ACAGGCTGAA
TCCATCGGCA TGATTATGAC CGTTATTGAA GACATAGCCG ACCAGACAAA CCTGCTGGCG
CTCAATGCCG CCATCGAGGC GGCGCGGGCC GGCGATGCCG GACGCGGTTT TGCCGTGGTG
GCCGACGAGG TGCGCAAACT TGCGGAAAAA ACCATGGGGG CCACCAAACA GGTCGGCGAT
TCCATAGGGG CCATCCAGCA GGTGGCGCGT GAAAATATCG ATTCCGTGGA AGCTGCCGTG
GCCAGCCTGA ACGAAGCTGT GGGCCTTACG GAAGAATCCG GCACGGCGCT TAAGGAAATC
GTGGACAGCG TGGAGCGTAC CGCAGGACAG ATTCAGCAGA TAGCCACGGC CGCGGAAGAA
CAGTCGGCCA CCTCTGAAGA AATCAACAGA GCCATTGAGG AAATAAGCAA CATCACCAGA
GAGACATCCG AAGGTGTGAG CAGCACGGTT TCTTCTCTCA GCGACCTTGC AGAACAGCTG
GACACGTTGA ACAGTCTTGT TCAGGAACTG AAAAGCAGCT GA
 
Protein sequence
MVPVLPKESA VLRKFTIASR IIFLLVLMLV FSTIVGGIYT YFLYKVQDRS LTETEAVLHE 
GYERSMKFAV QTLATNLAHV AQTARSSGQD PVEAMRAAIA PVRFGGDGYY FIYNTQGYTV
AHPLRPDFNG QPGMDKKDQK GNQYIRQLNE KAMSGGGFVT YWFNKPNERE PSPKLAYAQM
IEGTDLWLST GVYVDDIQEE RERIRATLEA LLDEARNIAL TVVGVLFLLL VLPFAISIVR
SILLPLRAAT GNAQQVAAGN LDVVIAVEGR DEITRLEEAL HTMLATLNNN IKEIEVKSRH
AEEQARAAEQ AAKQADEARK AAENAKSEGM RAAAARLETI MHHVTSASES ISGQAEEMRQ
GAELQAERIA GTATAMEEMN ATVFEIARNS AEAAEAGMQA GEKANAGADT VRMSIKSMLH
TQEQAERLKT NMAHLGTQAE SIGMIMTVIE DIADQTNLLA LNAAIEAARA GDAGRGFAVV
ADEVRKLAEK TMGATKQVGD SIGAIQQVAR ENIDSVEAAV ASLNEAVGLT EESGTALKEI
VDSVERTAGQ IQQIATAAEE QSATSEEINR AIEEISNITR ETSEGVSSTV SSLSDLAEQL
DTLNSLVQEL KSS