Gene Lreu_0180 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagLreu_0180 
Symbol 
ID5189010 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameLactobacillus reuteri DSM 20016 
KingdomBacteria 
Replicon accessionNC_009513 
Strand
Start bp212835 
End bp214643 
Gene Length1809 bp 
Protein Length602 aa 
Translation table11 
GC content43% 
IMG OID640589975 
Productheavy metal translocating P-type ATPase 
Protein accessionYP_001270787 
Protein GI148543417 
COG category[P] Inorganic ion transport and metabolism 
COG ID[COG2217] Cation transport ATPase 
TIGRFAM ID[TIGR01494] ATPase, P-type (transporting), HAD superfamily, subfamily IC
[TIGR01512] heavy metal-(Cd/Co/Hg/Pb/Zn)-translocating P-type ATPase
[TIGR01525] heavy metal translocating P-type ATPase 


Plasmid Coverage information

Num covering plasmid clones54 
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
ATGAAAAAAC TATCTAATAA ACAAAAATTA ATCATTATCC TAGTAATTGC AGCAATCGCA 
GTCGTGCTCC AATTTGGATT TCATTTACAA CTTTTTGCTC AAATTCTAGT TACTGTCGTC 
GGCGCAATTG TTGCTTTTTC AATGTTTATT GGCATGATAA AAACTATCCG TAGTGGTAAA 
TATGGCGTTG ATCTGCTTGC CATTATGGCT GTCGTCGCAA CGCTAGCTGT TAGCGAATAC 
TGGGCAGCGA TGGTTATTCT TGTAATGTTA ACCGGAGGAG ATGCCTTAGA AGATTATGCT 
GCCAAAAAAG CAAGCACCGA ATTAAAAGCA TTACTTAATA ACTCACCACA AACGGCGCAT 
TTAATCACCA ATGGCAAAAC CAGCGACATC CCAGTTAACG ATGTCAAAGT TGGTGACCAG 
CTTATCGTTA AGCCTGGAGA ATTAGTACCA GTCGATGGAA TCATTAAAAT CGGCGAAGGT 
TTATTTGATG AGTCTTCATT AACTGGTGAA TCACGGCCAG TTTCCAAAAC AACCGGTGAT 
GAAGTGATGT CTGGATCTGT TAATGGTGAT AATGCCATCA CTTTACAGGT CACCAAGCTA 
GCCAAAGATA GTCAATATCA GCAACTCGTT AAATTGGTTA AGGAGGCTGA ATCCACCCCT 
GCCCACTTTG TTCGATTAGC CGACCGATAT GCTGTTCCAT TTACGATTAT TGCCATTATT 
ATCTCTTCAC TCGCATGGGT GCTTTCTGGC CGTCCCGAAC GATTTGCGGA GGTTCTCGTT 
GTTGCTTCAC CATGTCCGTT AATTCTCGCA GCTCCAGTGG CAATGGTTTC TGGAATGAGT 
CGGGCTTCAC GAAACGGAAT TGTGGTCAAG ACAGGGAGCG TACTGGAAAA ACTAGCGGTT 
GCTAAAACTG GTGCATTTGA TAAAACAGGA ACTATTACAA GTGGTCAATT GACTGTTGAT 
AAAATCTTGC CGACAGGAAA AATTGACTCA ACTCAGCTCC TCCATTACGC CGTAAGCGCT 
GAACAACAAT CATCACATAT CCTAGCACGC TCACTGCTTT CTTACGCCAC TGCGTATAAT 
GTTTCCTTAT CACCTGTCGA TCAACTTACA GAAATAACCG GTAAAGGAAT TTTAGCAACT 
GTTGATGGAC GGGAAGTTAA AGTAGGAAAA TTAAAATTCG TATCACCAGA AAATCTTAAC 
CAGATGTTAG CATCAACGGC TATCTATGTG AGCGTCGATG GGCAATACTA TGGTGCAATT 
ACTTTTACCG ATCATATTCG TCCTGAAGCA AAGCAAACAA TGAACCAGTT AAAAAAGCTT 
GGGGTTACCA ATCTATTAAT GTTAACGGGA GACCAAGCTG TTATTGCAGA TAAAGTTGCC 
CAACAAGTAG GGATCACGCA GGTTAAAGCC GACCTTCTTC CCCAAGATAA AATCAATGCA 
CTTAAAGCTA TTCCAACAAA TGAACATCCT GTTTTCATGG TTGGTGACGG CGTAAACGAC 
GCACCTTCTC TTGTGACAGC TGATGTTGGA ATTGCGATGG GAGCTCACGG ATCAACTGCT 
GCTAGTGAAT CCGCTGCCGT TGTTATCCTA AAAGATGACC TTTCGCGAGT CGCAAAAGCC 
GTTAGCATTT CTCAGGAAAC TCTGCGGATT GCAAAACAGG CGGTCCTAAT CGGAATCGCA 
ATCTGTACCA TCCTAATGCT TGTTGCTAGC ACCGGAATCA TTCCGGCCTT TTTCGGCGCC 
ATGTTACAGG AAGTAATTGA TACTGTCTCT ATCCTATGGG CACTAAAAGC ACGGAAAATG 
ACAGACTAA
 
Protein sequence
MKKLSNKQKL IIILVIAAIA VVLQFGFHLQ LFAQILVTVV GAIVAFSMFI GMIKTIRSGK 
YGVDLLAIMA VVATLAVSEY WAAMVILVML TGGDALEDYA AKKASTELKA LLNNSPQTAH 
LITNGKTSDI PVNDVKVGDQ LIVKPGELVP VDGIIKIGEG LFDESSLTGE SRPVSKTTGD 
EVMSGSVNGD NAITLQVTKL AKDSQYQQLV KLVKEAESTP AHFVRLADRY AVPFTIIAII 
ISSLAWVLSG RPERFAEVLV VASPCPLILA APVAMVSGMS RASRNGIVVK TGSVLEKLAV 
AKTGAFDKTG TITSGQLTVD KILPTGKIDS TQLLHYAVSA EQQSSHILAR SLLSYATAYN 
VSLSPVDQLT EITGKGILAT VDGREVKVGK LKFVSPENLN QMLASTAIYV SVDGQYYGAI 
TFTDHIRPEA KQTMNQLKKL GVTNLLMLTG DQAVIADKVA QQVGITQVKA DLLPQDKINA 
LKAIPTNEHP VFMVGDGVND APSLVTADVG IAMGAHGSTA ASESAAVVIL KDDLSRVAKA 
VSISQETLRI AKQAVLIGIA ICTILMLVAS TGIIPAFFGA MLQEVIDTVS ILWALKARKM 
TD