LOCUS       BAB80261.1               889 aa    PRT              BCT 10-MAY-2017
DEFINITION  Clostridium perfringens str. 13 probable copper-transporting
            ATPase protein.
ACCESSION   BA000016-555
PROTEIN_ID  BAB80261.1
SOURCE      Clostridium perfringens str. 13
  ORGANISM  Clostridium perfringens str. 13
            Bacteria; Bacillota; Clostridia; Eubacteriales; Clostridiaceae;
            Clostridium.
REFERENCE   1  (bases 1 to 3031430)
  AUTHORS   Hattori,M., Yamashita,A., Oshima,K. and Shiba,T.
  TITLE     Direct Submission
  JOURNAL   Submitted (15-FEB-2001) to the DDBJ/EMBL/GenBank databases.
            Contact:Masahira Hattori
            Graduate School of Frontier Sciences, University of Tokyo; 5-1-5
            Kashiwanoha, Kashiwa, Chiba 277-8561, Japan
REFERENCE   2
  AUTHORS   Shimizu,T., Ohtani,K., Hirakawa,H., Ohshima,K., Yamashita,A.,
            Shiba,T., Ogasawara,N., Hattori,M., Kuhara,S. and Hayashi,H.
  TITLE     Complete genome sequence of Clostridium perfringens, an anaerobic
            flesh-eater
  JOURNAL   Proc. Natl. Acad. Sci. U.S.A. 99, 996-1001 (2002)
COMMENT     This work was done in collaboration with Tohru Shimizu, Kaori
            Ohtani, Hideo Hayashi (University of Tsukuba), Hideki Hirakawa,
            Satoru Kuhara (Kyushu University), Naotake Ogasawara (Nara
            Institute of Science and Technology), and supported by the
            Research for the Future Program of the Japan Society for the
            Promotion of Science.
FEATURES             Qualifiers
     source          /db_xref="taxon:195102"
                     /mol_type="genomic DNA"
                     /note="anaerobic pathogen for gas gangrene"
                     /organism="Clostridium perfringens str. 13"
                     /strain="13"
     protein         /gene="CPE0555"
                     /note="889 aa, similar to sp:ATCU_BACSU POTENTIAL
                     COPPER-TRANSPORTING ATPASE (EC 3.6.1.36) from Bacillus
                     subtilis (803 aa); 51.6% identity in 808 aa overlap. 7
                     putative transmembrane regions were found by PSORT."
                     /transl_table=11
BEGIN
        1 MSAIIFMINK SIKIKGMSCA ACAARIEKVL GKMNGISKAN VNLATEKLNL EFDENKISFK
       61 EIEEKINKLG FSVVRNLKKE SFRVSGMSCA SCAARIEKVL NKLSGIYNAT VNFANESLQV
      121 EYDEDEISLK EIKEKVKKLG FELKGNNKST SFKVEGMTCS ACAARIEKVT SKMDGVESSN
      181 VNFANSTLNI SFDKDKLSTN DIKAKVEKLG YKLLDASQED EHEKAKENET KRMKNRLIGS
      241 AIFTIPLFII SMGHMVGLHL PNIIDPMHNP LNFALIQLLL TTVVIFICRD FFIHGFKNLF
      301 MRSPNMDSLI AIGSGAAYVY GLFAIYHIYI GDHSYAMQLY FESAGTILTL ISLGKYLETL
      361 TKGKTSDAIK KLMGLAPKTA TLLVDGKEKI VSIDDVKVFD LILVKPGEKL PVDGKVVEGY
      421 TSIDESMLTG ESIPAEKKVG DTVFGASINK NGRIIYEATK VGKDTVISQI VKLVEDAQGS
      481 KAPIAKLADT ISGYFVPIVI SLAVIASLAW YFSGESKTFA LTIFISVLVI ACPCALGLAT
      541 PTAIMVGTGK GAENGILIKS GEALESTQNL NTVVFDKTGT ITEGKPKVTD IICENISKDE
      601 LLLLAASAEK GSEHPLGEAI VRDAEEKNLE LKNVLDFEAI PGKGIKCSIE NKSILLGNYK
      661 LMKDKNINLK NLLATSEELA SKGKTPMFIA INEKIAGIIA VADTVKETSK KAIETLQKMG
      721 LEVVMLTGDN LKTAKAIAKE VGVDRVIAEV LPQEKAEKIK SLQDEGKKVA MVGDGINDAP
      781 ALAIADIGMA IGSGTDIAME SADIVLMKGD ILHVVGAIQL SRQTMKNIKE NLFWAFGYNT
      841 LGIPVAMGVL HIFGGPLLNP MIGAFAMSFS SVSVLLNALR LKKFKPNYK
//