Gene Dtox_3495 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagDtox_3495 
Symbol 
ID8430490 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameDesulfotomaculum acetoxidans DSM 771 
KingdomBacteria 
Replicon accessionNC_013216 
Strand
Start bp3694872 
End bp3697679 
Gene Length2808 bp 
Protein Length935 aa 
Translation table11 
GC content46% 
IMG OID645035719 
ProductS-layer domain protein 
Protein accessionYP_003192837 
Protein GI258516615 
COG category 
COG ID 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0139036 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones58 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGAGGATAC TGCGGATCAG GAAAAATCTA TTATGTATCT TAATGATTTT AGCGATATTG 
TTGCCGTTAA CCGGTGTTGG TTACGCCGGT AACCAGGGTG TCGCTGTAAA TCTGACTTCT
CCTGGTGCCC ATCAAGTGTA CAAGCCCGGT GACACTGTAG AGATAAGCGG CACGGCCCAG
GGATTAGCCG AAGTATCAAT AGCTGTTCGG AATGAACAGG GGGGCCTGGC ATTTACGGCC
CAACCCCGGG TGCAAGACGG TGTTTTTACC ACTGGCTTTA CATTGGAGGC TTCGGCGGCC
GAAGGTCAAT ATACCATTAA TATCGGTTGC CTGGGCTTGC CTGATCTGAG AATTTACCGG
TTTCAGGTGC AAAGTGCGGG TGGAGCCGCC GTTTCTCTGA ACAAACCTGT AGCCGATAGT
TCTTTTAAAG CAGGTGACGT TGTTGAAATA GAAGGTACAG CTCAGAGAAC AGGTTCAATT
GCTATTTGTG TTCGCAACAG TAATAACGGG CGGGTTTACG TGGCCCAACC GCCGATAGAA
AACGGTAGTT TTGCCACCGC TTTTACCCTG GCGGCTGACG CCGTCGGCGG TACTTATACA
ATTAATGTAA CCGGGGATGG GTTGGCTGCA GCCCAAATTT ATCAGTTTAC TGTAACTTCT
GGTGGTACAG GCCCGGGGGG CGGTACTTCT GACAAACCGG ATGCTATTCT TTTCATAAAC
GGCAACGGGG TGGCTAAACA AGTGTCTTAT ACCCGTGCCG AGTTGGAAGC TATGGATCAG
GAAAGAGATC TGTTCTCAGC CACAAATGAT TGGCCTCAAG ATTTATTTGA GGCTGCTGAA
GGTGTGCCGC TGCGCACCTT ATTGGATCAG GCTGAAATGA GTCCGGGGGC CCAGATGATT
ACTTTTACCG GCAGTGACGG TTACTATTGG AACTATACCG TAGATGAATT ATTGAATACA
ACACGATATA AATTTCCCGG TCAAACACCG GTGGAGCCGT TAATAGCCTT GAAACGGGTA
GAGGCTTCTT CTAATTTTGG CAATATGACA GAAAGTGAAA CACCGGTTTT GTGTTTCGGA
CAGCGTATAA AATCGGATTA TACCCTTATG GGTTTTGTTA AACATTTGAA ATATATTACT
GTTAATACGA ATTCTCCGGG TAAATGGTCC AAGCCGACAG CACAAATTAT CGATCCCGAT
ACCAAGCAAA AAACTGCGAC GCAGGGTGGC CAAATTAAAA GCGGTTCCAA AATTGTTTTG
CAAAGTGAGC CGAGAACAAA ACTTCGTTAT ACCACTGATG GTAGTAATCC GGACATTAAC
AGCAAGATGT ACAATGTCAG CGCCCATGTT CCCTCTTTAA ACGTACCGAT TGTAGTGAAT
CAAGACACTA CGATTAAAGC GATGGCTGAG GGAAACGGCA AGCTGGGCAG TGATGTTCTA
ACCTTGATGT TTACGGTTGC CGGAGGAACA CCGGTGGCTC CCGTTGGTGG TAGCGGTGGT
TTAGTCCCTC AACAAACCGT TAGTGAAGAG AATATCAAAA AAGAAGAAAT AAGCCTGGAA
AAAGGTCGCA AAGGGGAGAA GCTAACTTTA CAGGAAGGAG TTCTGGAAGA CATAGAAAAG
GGAACCCAGG GGAGCAGACT GGCGGTTAAT TCTACTGCTT TAGTGGATGA AGTAAACACC
GAAGTTTCAT CAACTATACT GCAAAAAGCC AAAGAAAAAG GGATGTTGTT GGGTATAAAT
AGTGCTATAG GTAATTATAC ACTGCCGCTT GATTCTCTAA ACCTTGATGA AATAGCGGCC
GGAATGGATG TCAAGCCGAA AGAATTGAAT ATGAATATTG TTATCTCCAG GGCAGCTGAA
GATGTTAAAA ATAAACTGGT TGCCGGTATT CAGGCGGGAC AAGAAATGTT GGTTGATCCG
GTGGAGTTCA GCATAGAAAT TAGTGCTCCA GGCGGTAAAA AAGTGGAGTA TAAATCATTC
GGCAGTAATT ATGTGGAGCG TGAAATCGAG CTGGACAAAG GCGTAAATGC CGGGTGTGCC
ACGGGTGCTG TTTGGAACGA GGCGAAAAAT AGATTTAAAC CTGTGCCTAC CCGCTTTGAA
ACCAGGGACG GTAAGAGCTA CGCAATTATT TTAAACCGTA CCAACAGTTT GTATACTGTT
TTGCAGTCAA GCAAGAGCTT TTCAGATATT CAAGGAAACT GGGCCAAGGA TGATATTGAA
ATGCTGGCTG GCAAGATGTT GATTTCCGGT AAAAATGACA CTACTTATGA ACCGGACAGC
AATATTACCC GGGCTGAATT TGCAACCCTC TTAGTCAGAG CTCTGGCCCT GGAAGAAGGA
GTTTTGCATG AAGGGCAATT TAAGGATGTA TTGGTTAGCG ACTGGTATGC CGGCAGTGTT
GCCGCTGCTA CAGGTGAAAA CATCATTGCG GGTTATGACG GCGGCTTATT TAAGCCGGCT
GACAACATTA CCAGGGAGAA AGTGGCGGTC ATGATCGCCC GGGCAGCGCG AGTTGCGGGG
AAAGAAGATA CTTTATCCGC CAGCGAGCAG GTTCAGCAGT TGGACCAGTT TAAGGACAAG
AAAGAGATTG CCTCCTGGGC AACAAAGGAT GTGGCTCTGG CTGTCAAGAT AGGGATTATC
GAAGGAATGC CGGGTGGTAA TTTTGCGCCC AAGGCAAATG CCGACAGAGC TCAAAGTGCG
GTAATGTTGA AACGGTTCTT AACCTATATT AATTTTATCA GCACTGACCA GCCTGTTGAG
CAGCAAATAG ACAATAATCA ATCAACAGGG GAGGGGGATA AAACATAG
 
Protein sequence
MRILRIRKNL LCILMILAIL LPLTGVGYAG NQGVAVNLTS PGAHQVYKPG DTVEISGTAQ 
GLAEVSIAVR NEQGGLAFTA QPRVQDGVFT TGFTLEASAA EGQYTINIGC LGLPDLRIYR
FQVQSAGGAA VSLNKPVADS SFKAGDVVEI EGTAQRTGSI AICVRNSNNG RVYVAQPPIE
NGSFATAFTL AADAVGGTYT INVTGDGLAA AQIYQFTVTS GGTGPGGGTS DKPDAILFIN
GNGVAKQVSY TRAELEAMDQ ERDLFSATND WPQDLFEAAE GVPLRTLLDQ AEMSPGAQMI
TFTGSDGYYW NYTVDELLNT TRYKFPGQTP VEPLIALKRV EASSNFGNMT ESETPVLCFG
QRIKSDYTLM GFVKHLKYIT VNTNSPGKWS KPTAQIIDPD TKQKTATQGG QIKSGSKIVL
QSEPRTKLRY TTDGSNPDIN SKMYNVSAHV PSLNVPIVVN QDTTIKAMAE GNGKLGSDVL
TLMFTVAGGT PVAPVGGSGG LVPQQTVSEE NIKKEEISLE KGRKGEKLTL QEGVLEDIEK
GTQGSRLAVN STALVDEVNT EVSSTILQKA KEKGMLLGIN SAIGNYTLPL DSLNLDEIAA
GMDVKPKELN MNIVISRAAE DVKNKLVAGI QAGQEMLVDP VEFSIEISAP GGKKVEYKSF
GSNYVEREIE LDKGVNAGCA TGAVWNEAKN RFKPVPTRFE TRDGKSYAII LNRTNSLYTV
LQSSKSFSDI QGNWAKDDIE MLAGKMLISG KNDTTYEPDS NITRAEFATL LVRALALEEG
VLHEGQFKDV LVSDWYAGSV AAATGENIIA GYDGGLFKPA DNITREKVAV MIARAARVAG
KEDTLSASEQ VQQLDQFKDK KEIASWATKD VALAVKIGII EGMPGGNFAP KANADRAQSA
VMLKRFLTYI NFISTDQPVE QQIDNNQSTG EGDKT