Gene Dred_2982 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDred_2982 
Symbol 
ID4956481 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDesulfotomaculum reducens MI-1 
KingdomBacteria 
Replicon accessionNC_009253 
Strand
Start bp3238575 
End bp3241040 
Gene Length2466 bp 
Protein Length821 aa 
Translation table11 
GC content50% 
IMG OID640182170 
Productheavy metal translocating P-type ATPase 
Protein accessionYP_001114310 
Protein GI134300814 
COG category[P] Inorganic ion transport and metabolism 
COG ID[COG2217] Cation transport ATPase
[COG2608] Copper chaperone 
TIGRFAM ID[TIGR01494] ATPase, P-type (transporting), HAD superfamily, subfamily IC
[TIGR01511] copper-(or silver)-translocating P-type ATPase
[TIGR01525] heavy metal translocating P-type ATPase
[TIGR00003] copper ion binding protein
[TIGR01512] heavy metal-(Cd/Co/Hg/Pb/Zn)-translocating P-type ATPase 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.000528062 
Plasmid hitchhikingYes 
Plasmid clonabilityhitchhiker 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
GTGGACATTC ATAAAGTATC CTTAAAAATA CTGGGTATGG AGTGTGCTGC TTGTGCAGCC 
AAAGTAGAAC GCACACTCAA AAAATTGGAT GGGGTTACAG AGGTATCAGT GAACCTGGCG
GTGGAAAAGG TAACCGTTAA TTTCCAGCCC AACCGTGTTG GCATTGACCA GATCATAAAA
ACCATTGTTG ATCTGGGCTA CCAGGTTCCT ACGGAGAAAG TTGATCTCAA AATAAGCGGC
ATGACCTGTG CCGCCTGTGC GGCCAGGGTG GAAAGGGCTC TGGGGAAAAG GGAGGGTGTT
CTCAGGGCCA ATGTAAACTT TGCGATGGAA CGGGCGGCGG TAGAGTTTGA CTCGACGGTG
GTTACTGTTA CCGAATTAAA AAGAACCGTG GCTGATGCAG GCTATCAGGC GGAGGAGGGA
GCCAAGTGCT TTGACGGGGA TCATGAGAAA CGGGAACGGG AAACCCGCAA GCAGATTCGC
CTTTTGATTA TGTCAGCTGT GTTGTCCCTG CCCCTTCTGG CGGTTATGTT TGCTGAATTA
TTTAATTTCC CACTACCCAT GCTGTTACAC AATAAGATAT TCCAATTTGC CCTGGCCACG
CCAGTACAAT TTATTGCCGG ATTCCAATTT TACCGGGGGG CCTATCGTTC ACTGAGACAT
GGCAGTGCCA ATATGGATGT GCTAATTGCT CTGGGAACAA GCGCTGCTTA CCTTTACAGC
GCAGGTGCCA CATTCTTTTA CCCCGGCCAT GTTTATTACG AAACAGGAAC TATCATCATC
ACATTAATTA TCCTTGGTAA AATGCTGGAG TCCATTGCCA AGGGCCGTAC CTCTGAAGCT
ATCAAAAAGC TGATGGGGCT CCAGGCTAAG ACTGCTCGGG TGGTCCGGAA CGGGCAAGAG
ATGGACATCC CTGTTGAAGA AGTCCAGGTA GGAGACCTGG TGCTGGTACG TCCGGGTGAA
AAGGTACCAG TGGACGGCGT TATGAAAGAA GGGTTTTCCA CTGTGGACGA ATCCATGCTA
ACCGGCGAGA GCATACCAGT GGATAAAAAG ATAGGCGACG AGGTGATCGG CGGCACCATC
AACAAGCATG GCAGTTTCAA GTTTGAAGCT ACCAAAGTGG GTTCGGATAC TGCTCTGGCG
CAAATCATTA AAATTGTGGA AGAGGCCCAG GGATCCAAGG CTCCTATCCA GCGATTGGCA
GATATAATTT CCGCCTATTT TGTGCCTGCG GTGGTGGGTA TAGCTGTCGT CACCTTTGCG
GTGTGGTATT TCTTTGCCGA CCCCGGCAAC CTGGCAAGGG CCTTAATTAA CTTTACGGCC
GTGCTGGTTA TTGCCTGCCC CTGTGCCCTA GGTCTTGCTA CACCTACCTC GATTATGGTA
GGTACCGGAA AAGGTGCGGA AAACGGTATT CTCATTAAGG GAGGCGAACA CCTGGAAAAA
GCCCATGCAT TAAATGCAAT TGTTTTGGAC AAGACAGGCA CCATCACCAA AGGAGAGCCC
TCACTGACAG ATGTCATAAC CATCGATAAG GGAATCAGCG AAGACGAATT AATTCGTTTA
GTTGCCTCTG CTGAAAGGGG CTCGGAACAC CCTCTGGGTG AAGCCATTGT TAAGGGGGCC
AGGGAAAGAG GTATAGAGTT AGCCGAACCA CAGGAATTTG AAGCCATTCC AGGACACGGT
ATTGCTTCAC GCATTGGGGA GAACATAGTA CTCATTGGTA ATAGAAGGCT GATGTATTCA
CAAAATATCG ATATATCCAG ACTGGCAAAA CAGGTGGATG CTCTGGAAGA GGAAGGGAAG
ACTGCTATGC TGGTGGCCGT GGGTGGCAGG GCTACAGGTA TAGTGGCAGT GGCAGACACG
GTAAAAGAGA CTTCTGCAGA AGCCATCCGT GCCCTAAGAG ACATGGGGAT AAAAACTTTG
ATGATTACGG GAGATAACCG TCGTACTGCC GAGGCCATTG CCAAGCAGGT GGGAATACCA
CCGGAAGATG TGTTGGCCGA GGTACTGCCC CAAGACAAGG CAAAGGAAGT AAGCCAGCTA
AAGGAAAGTG GAGAAGTGGT GGGAATGGTT GGTGACGGCA TTAACGATGC CCCGGCCCTG
GCTACTGCCG ATGTAGGTTT TGCCATCGGT ACCGGTACCG ATGTGGCGAT GGAAGCTGCT
GACATTACCC TGATGCGAGG GGATCTGAGG GGAGTCGCGG CCAGTATCAA GTTAAGCCGG
GCGACTATGT GCAACATCAA ACAAAACCTG TTCTGGGCCT TAATTTATAA TACACTGGGC
ATTCCGGTAG CTGCCCTGGG CTTCCTCTCT CCTGTATTGG CGGGAGGTGC AATGGCCTTT
AGTTCGGTTT CAGTGGTTAC CAATGCCTTA AGATTAAAAC GATTTGATCC TTACAGAGAC
TTTCGTAGAG AAGAAAAAAA GGTTCCTCAC CGTCTGATAC CCGAACCGGC GCGACGTCCG
GAATAA
 
Protein sequence
MDIHKVSLKI LGMECAACAA KVERTLKKLD GVTEVSVNLA VEKVTVNFQP NRVGIDQIIK 
TIVDLGYQVP TEKVDLKISG MTCAACAARV ERALGKREGV LRANVNFAME RAAVEFDSTV
VTVTELKRTV ADAGYQAEEG AKCFDGDHEK RERETRKQIR LLIMSAVLSL PLLAVMFAEL
FNFPLPMLLH NKIFQFALAT PVQFIAGFQF YRGAYRSLRH GSANMDVLIA LGTSAAYLYS
AGATFFYPGH VYYETGTIII TLIILGKMLE SIAKGRTSEA IKKLMGLQAK TARVVRNGQE
MDIPVEEVQV GDLVLVRPGE KVPVDGVMKE GFSTVDESML TGESIPVDKK IGDEVIGGTI
NKHGSFKFEA TKVGSDTALA QIIKIVEEAQ GSKAPIQRLA DIISAYFVPA VVGIAVVTFA
VWYFFADPGN LARALINFTA VLVIACPCAL GLATPTSIMV GTGKGAENGI LIKGGEHLEK
AHALNAIVLD KTGTITKGEP SLTDVITIDK GISEDELIRL VASAERGSEH PLGEAIVKGA
RERGIELAEP QEFEAIPGHG IASRIGENIV LIGNRRLMYS QNIDISRLAK QVDALEEEGK
TAMLVAVGGR ATGIVAVADT VKETSAEAIR ALRDMGIKTL MITGDNRRTA EAIAKQVGIP
PEDVLAEVLP QDKAKEVSQL KESGEVVGMV GDGINDAPAL ATADVGFAIG TGTDVAMEAA
DITLMRGDLR GVAASIKLSR ATMCNIKQNL FWALIYNTLG IPVAALGFLS PVLAGGAMAF
SSVSVVTNAL RLKRFDPYRD FRREEKKVPH RLIPEPARRP E