ACL_RS07180
| Uniprot: A9NF35
Description: ABC transporter ATPase EC number: Annotation score: 2 out of 5 Miscellaneous [CC]: Protein existence: Inferred from homology Catalytic activity: Cofactor: Enzyme regulation: Function [CC]: Pathway: Active site: Binding site: Calcium binding: DNA binding: Metal binding: Nucleotide binding: Site: Gene names (primary): Gene names (synonym): Mass: 107,113 Subunit structure [CC]: SUBUNIT: Homodimer. {ECO:0000256|SAAS:SAAS00573685}. Gene ontology (GO): integral component of membrane [GO:0016021]; plasma membrane [GO:0005886]; ATP binding [GO:0005524]; ATPase activity [GO:0016887]; response to antibiotic [GO:0046677]; transport [GO:0006810] Gene ontology IDs: GO:0005524; GO:0005886; GO:0006810; GO:0016021; GO:0016887; GO:0046677 Chain: Signal peptide: Domain [CC]: Sequence similarities: SIMILARITY: Belongs to the ABC transporter superfamily. Macrolide exporter (TC 3.A.1.122) family. {ECO:0000256|SAAS:SAAS00573709}.; SIMILARITY: Contains 1 ABC transporter domain. {ECO:0000256|RuleBase:RU363033}. Protein families: ABC transporter superfamily, Macrolide exporter (TC 3.A.1.122) family Coiled coil: Domain [FT]: DOMAIN 2 239 ABC transporter. {ECO:0000259|PROSITE:PS50893}. Motif: Region: EMBL: CP000896 ProteinModelPortal: A9NF35 MEROPS: EnsemblBacteria KO: ABX80965 UniPathway: CDD: Gene3D: HAMAP: 3.40.50.300 InterPro: PANTHER: IPR003593;IPR003838;IPR003439;IPR017871;IPR027417 PIRSF: PRINTS: PROSITE: Pfam: PS00211;PS50893 ProDom: PF00005;PF02687 SMART: SUPFAM: SM00382 TIGRFAMs: SSF52540 |
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357290-360119(+) >nucleotide sequence GCTTTAGATAATGTCAGTGTCGTCTTTGGTAAGACTGGACTGGTTTTTGTCACAGGAAAA TCCGGATCGGGTAAATCAACGCTCCTTAATTTAATTGGCGGACTAGACACTTATGATACT GGGGATATGATTATTAATCAAAAATCCAGTCAAGATTTTAAACAAAAGGATTTTGATTCC TATAGAAATACGATGGTTGGATTTATATTCCAAGAATATAATATTCTAGAAGAGTTTAGT GTTGCTCAAAATATCGGTTTAGCACTTGCACTGCAAGGTCAAAAAGTGAGTGATGAAGCA GTCAATGATTTACTAAAAAAATTAGATATTGAAGGTTTAGGCAATCGTAGTCCAAATGAA TTATCTGGTGGACAAAAACAAAGAGTAGCCATTGCGCGTGCACTAGTTAAAAACCCTCAA ATTATTTTGGCAGATGAACCAACTGGTGCACTAGATAGTAACACCGGTATTCAGTTACTT GAAACTCTAAAATCATTATCTAAAGACAGATTAGTCATTGTAATTTCTCATGATTTAGAG TTTGCACGTAAATATGCAGACAGAATTGTGCATTTTGTAGATGGTAAGATTGCTTATGAT ATTACTTATACTGGAGAAGAAAGCCAAAGTGATGAACCAGTTAAGTTTACGGATAAAGGC ATTACGATTGAACCTAAATATCAATTAACGGCAGAAGATTTAAAAGTAATCAATGCGTAC TTACAAAACCAAACCAAACCGACACACATAAAGAAGATAAGTGATCAAACGTATAGTGGG TTTAGTACAACAGATACATCAGATATAGAACAAAGTAGTGAACCATTTAAGTTAGTAAAA TCCAAACTACCATTTAAAGCATCACTTTCTATGTCTTTAAATGCTTTAATACATAAAAAA ATAAGACTGGTTTTTACAATACTTCTTACAACCATTTCTTTAGTTATGTTTGGTAGTGTA GATACACTATCAAACTTTAATGCAGAAGATAAATCCTATGAAGTATTTGAAAAAAATAAC TATAACTATTTGATGCTTAAAAACTATAAACGTGGTGGTGATAGTAGTTGGTATTACTAT ACTGAAGTGAATTTAGATGAGGAAGTTTTTCAAAGTGCTTCAGATTTATATAGTAACTCC ATACTTATACCCGTATATCCACTAAGTCTTAGTTTGGATGCATACATTAAATATGATTGG AATAAACCTAGTTTTTATGATGCATATTATTATACAAGCTTCATTGAAATTGATAATGAA ACACTTCTAGGTACAAACTTTGAAGTCACTGGTAGATTACCACAAAACTTGAATGAAGTT GTTGTACCAATGCACTTTTATCAAAGTGTAGCGTATTACGGTTTTAATAAAGAAGATAGT GTTAAAGATATTAATGAGATGGACGATCTCATTGGCGAGATGCTGTATTTTAATGAAAGA AATATGAAGATTGTAGGTATTATAGACTACAAAGATGATTTATCAGTCTATGAGGAACTT AAAGTATCTGGTTGGAATCAAGGTGTTGATACACCTCAAAATTACTATAAGTATGTAAAT CGATTAAGAGAAGGAACACTGGGACTATTTATATTTGGTGAAGGTTACTATGAAAGTCTT AGACACGTTAAGAATTCTCGTGTAGAGGCAGTTTTTTATTTAGAAAATGAACGGATGCAT CAATTTAGCACGGTAGCTAAAATAACGGATGTAGATGCCGAAACTATTAAATACTTTGAT AGTGTAGATCCATTGAATTTAGGTGAGAATGATATTGTAATTAATGAATATCATTTGGGT AACATGATACATCGAGATTTAGGTGATTATCAGTATAATACAATCATCGTGGATTTTCTA GTAGAAACCTACTATGATGAACTAAATTTATTATTAGCAGAACACTTTCCGATGTATGAG ACAGTAGATGATATTCCTGACGAGGATAGAATTGCTATCATTGGTTATGAATTATATGGA TACATATCTGATGCAGAAAGATATACTAAAGCATTCAATGCTGTGGTTGAATTCTATCTA TCAACAAGTGAAGCGCCTAGTTTTCAAGTTGATTTTTTCAAAGATTATTACACAAACTAC CCAATTATAGGACTTCGTGTTGTAGGATTTACTAGTGATGAGGATAATGTTTATGCATAC CATGTAAGTAATGAACTTTATGACGAATTATATATTGAAGGTGAAATAATCTATAACTTT ATTCTAGTAAGCACTAAAGATATGAAGCGTGAAGATTTTAATAAGATGGTTCAACAAAGT ATGAATAAAGGTTTGTTATATAAGGTATCCTTACAAGATGAAAATATTGATTACATGATT ATGCTTAGTGAAACTGTATATGGTATGCAACAATTCTTTTTCTGGACAGCTGTCATACTT GCAGGATTTGCAGCACTCTTGATGTTTACCTTTATTAGTTCTAGTGTGAGCCATAGTAAA CAAGAAATTGGCATCTTACGTGCAATTGGTGCAAGTAGTAGAGATGTCTTAGGCATTTTC TCAAAAGAAACACTGATGATTTCTATTATGAATGCGGTATTAGGTGTGATTGGGACTGTT ATTATAACAAAACTCTTGAATGATTCTATGATATATAATCTAAATCTAGGTACCACACTA TTTGATGTTGGCATCAGACAAATCATATTAGTTACCTTAATTAGTATTGTTATAGGCTAT CTATCCAGTGCATTACCAGTCTTAAAAACAGCATCTAAAAAACCAATTGATGCGATCAAA AATAAATAA >protein sequence GDMIINQKSSQDFKQKDFDSYRNTMVGFIFQEYNILEEFSVAQNIGLALALQGQKVSDEA VNDLLKKLDIEGLGNRSPNELSGGQKQRVAIARALVKNPQIILADEPTGALDSNTGIQLL ETLKSLSKDRLVIVISHDLEFARKYADRIVHFVDGKIAYDITYTGEESQSDEPVKFTDKG ITIEPKYQLTAEDLKVINAYLQNQTKPTHIKKISDQTYSGFSTTDTSDIEQSSEPFKLVK SKLPFKASLSMSLNALIHKKIRLVFTILLTTISLVMFGSVDTLSNFNAEDKSYEVFEKNN YNYLMLKNYKRGGDSSWYYYTEVNLDEEVFQSASDLYSNSILIPVYPLSLSLDAYIKYDW NKPSFYDAYYYTSFIEIDNETLLGTNFEVTGRLPQNLNEVVVPMHFYQSVAYYGFNKEDS VKDINEMDDLIGEMLYFNERNMKIVGIIDYKDDLSVYEELKVSGWNQGVDTPQNYYKYVN RLREGTLGLFIFGEGYYESLRHVKNSRVEAVFYLENERMHQFSTVAKITDVDAETIKYFD SVDPLNLGENDIVINEYHLGNMIHRDLGDYQYNTIIVDFLVETYYDELNLLLAEHFPMYE TVDDIPDEDRIAIIGYELYGYISDAERYTKAFNAVVEFYLSTSEAPSFQVDFFKDYYTNY PIIGLRVVGFTSDEDNVYAYHVSNELYDELYIEGEIIYNFILVSTKDMKREDFNKMVQQS MNKGLLYKVSLQDENIDYMIMLSETVYGMQQFFFWTAVILAGFAALLMFTFISSSVSHSK QEIGILRAIGASSRDVLGIFSKETLMISIMNAVLGVIGTVIITKLLNDSMIYNLNLGTTL FDVGIRQIILVTLISIVIGYLSSALPVLKTASKKPIDAIKNK |
© Fisunov Lab of Proteomics, 2016.