LOCUS       CDQ51333.1               445 aa    PRT              BCT 04-FEB-2016
DEFINITION  Vibrio anguillarum putative Multi antimicrobial extrusion
            protein MatE (IPR 002528) protein.
ACCESSION   LK021130-2415
PROTEIN_ID  CDQ51333.1
SOURCE      Vibrio anguillarum
  ORGANISM  Vibrio anguillarum
            Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales;
            Vibrionaceae; Vibrio.
REFERENCE   1  (bases 1 to 3119695)
  AUTHORS   Holm K.
  JOURNAL   Submitted (26-MAR-2014) to the INSDC. Norstruct, Dept of Chemistry,
            University of Tromso, Science Park 3, NO-9037 Tromso, NORWAY.
REFERENCE   2
  AUTHORS   Holm K.O., Nilsson K., Hjerde E., Willassen N.P., Milton D.L.
  TITLE     Complete genome sequence of Vibrio anguillarum strain NB10, a
            virulent isolate from the Gulf of Bothnia
  JOURNAL   Stand Genomic Sci 10, 60-60(2015).
   PUBMED   26380645
FEATURES             Qualifiers
     source          /organism="Vibrio anguillarum"
                     /chromosome="1"
                     /host="Rainbow trout"
                     /strain="NB10"
                     /mol_type="genomic DNA"
                     /country="Sweden:Baltic Sea, Norrbyn Umeaa"
                     /isolation_source="clinical isolate, Rainbow trout"
                     /serovar="O1"
                     /db_xref="taxon:55601"
     protein         /transl_table=11
                     /locus_tag="VANGNB10_cI2421"
                     /old_locus_tag="TVA0173"
                     /note="user locus_tag: VANGcI2421"
                     /note="Characterized members of the Multi Antimicrobial
                     Extrusion (MATE) family function as drug/sodium
                     antiporters. These proteins mediate resistance to a wide
                     range of cationic dyes, fluroquinolones, aminoglycosides
                     and other structurally diverse antibodies and drugs. MATE
                     proteins are found in bacteria, archaea and eukaryotes.
                     These proteins are predicted to have 12 alpha-helical
                     transmembrane regions, some of the animal proteins may
                     have an additional C-terminal helix."
BEGIN
        1 MHDKHGLLTA PIPNVLTQMT IPMIFGLIAI LMFNLVDTFF ISLLGTESLA AISFTFPVTF
       61 AVNCITMGIG IGLSTSIGRL LGQGDAKNAA RFSSHGVLLA VVLVTFASIL GLLTIKPLFL
      121 LLGATDDLIP LIEQYMQVWY LTIPLLVIPM AGNSAIRATG DTKTPAKIMM LAGCINGLLD
      181 PLLIFGYGPF PELGIQGAAI ASAFSWLGAL CGSLYVLIKR EKLLAWPYFP TLWHDWQQIL
      241 KVGTPAALSN AMNPLSGALL MIMLASHGTA AVAAYGAAQR IESILILVLM SLTSALTPFM
      301 AQNIGAKNIE RSFAGLFLSM RFSIVFQLMI FAMMVPLSIP LSALFSQEPS VRDLLWHYLL
      361 VVPLSYGFQG IVMMLVSGLN ALHQPMRAFQ WSVMRLFVFT LPAAWLGSYL YDVEGLFIGI
      421 AAGNTLGGLL GYYYALRLKR TYLFR
//