LOCUS       UCS39634.1               727 aa    PRT              PLN 13-OCT-2021
DEFINITION  Nakaseomyces glabratus ATM1 protein.
ACCESSION   CP060155-604
PROTEIN_ID  UCS39634.1
SOURCE      Nakaseomyces glabratus (Candida glabrata)
  ORGANISM  Nakaseomyces glabratus
            Eukaryota; Fungi; Dikarya; Ascomycota; Saccharomycotina;
            Saccharomycetes; Saccharomycetales; Saccharomycetaceae;
            Nakaseomyces.
REFERENCE   1  (bases 1 to 1453064)
  AUTHORS   Xu,Z., Green,B., Benoit,N., Sobel,J., Schatz,M., Wheelan,S. and
            Cormack,B.
  TITLE     Genome dynamics and non-allelic homologous recombination in Candida
            glabrata
  JOURNAL   Unpublished
REFERENCE   2  (bases 1 to 1453064)
  AUTHORS   Xu,Z., Sobel,J., Schatz,M., Wheelan,S. and Cormack,B.
  TITLE     Direct Submission
  JOURNAL   Submitted (12-AUG-2020) Molecular Biology and Genetics, Johns
            Hopkins Medical Institution, 725 N Wolfe St, Baltimore, MD 21205,
            USA
COMMENT     ##Genome-Assembly-Data-START##
            Assembly Method        :: Canu v. 1.5
            Genome Representation  :: Full
            Expected Final Version :: Yes
            Genome Coverage        :: 40.0x
            Sequencing Technology  :: PacBio RSII
            ##Genome-Assembly-Data-END##
FEATURES             Qualifiers
     source          /organism="Nakaseomyces glabratus"
                     /mol_type="genomic DNA"
                     /strain="BG3994"
                     /isolation_source="vaginal"
                     /host="Homo sapiens"
                     /db_xref="taxon:5478"
                     /chromosome="M"
                     /geo_loc_name="USA: Detroit"
                     /collection_date="2003-12-02"
                     /collected_by="Jack Sobel"
     protein         /gene="ATM1"
                     /locus_tag="HLK62_M13673"
                     /note="CAGL0M13739g; Ortholog(s) have ATPase activity,
                     coupled to transmembrane movement of substances activity,
                     role in cellular iron ion homeostasis and mitochondrial
                     inner membrane localization"
BEGIN
        1 MLIGGAQNRL YQLRTSNILG LLRTRSALRV GSKVELRCPY NNWTNLGRSH FSSTSIPPTF
       61 KSKTFGREKG LLAHNINVKR LSSTVSKSKL PNEDTAHNAS EKNSKKTDTK AVNISELKIL
      121 KDLFKYIWPR GNTKVKVRVL LALALLIGAK VLNVQVPFFF KQIIDGMNVD WSDATVALPA
      181 ALGLTIMCYG LARFGAVLFG ELRNAIFARV AQNAIRNVSL QTFEHLMKLD LGWHLSRQTG
      241 GLTRAMDRGT KGISYVLSAM VFHIIPITFE ISVVCGILTY QFGASFAGIT FTTMLLYSIF
      301 TIRTTAWRTR FRKEANKADN KGASVALDSL INFEAVKYFN NESYLANKYH NSLIKYRDSQ
      361 VKVAQSLAFL NSGQSLIFTT ALTGMMYMGC TGVIGGDLTV GDLVLINQLV FQLSVPLNFL
      421 GSVYRELKQS LIDMESLFKL RKNQVKIQNC SQPKSISKSD GPFEIKFENV TFGYDGQRKI
      481 LKNASFTIPA GMKTAIAGPS GSGKSTILKL VFRFYDPEEG RVLVNGVDVR EYDIDQLRKA
      541 IGVVPQDTPL FNDTIWENVK FGRIEASDEE ITRVIDKAQL SDLIAKLPQG SSTIVGERGL
      601 MISGGEKQRL AIARVLLKDA DIMFFDEATS ALDTHTEQSL LRTIRRNFNS GEKTSVYIAH
      661 RLRTIADADK IIVLEEGTVR EEGTHQELLA RENSLYKELW RIQEDLDLLE DEINHEKETL
      721 EKLNKSI
//