LOCUS       AIG79856.1               426 aa    PRT              BCT 01-OCT-2014
DEFINITION  Amycolatopsis japonica Thymidine phosphorylase protein.
ACCESSION   CP008953-6915
PROTEIN_ID  AIG79856.1
SOURCE      Amycolatopsis japonica
  ORGANISM  Amycolatopsis japonica
            Bacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae;
            Amycolatopsis; Amycolatopsis japonica group.
REFERENCE   1  (bases 1 to 8961318)
  AUTHORS   Stegmann,E., Albersmeier,A., Spohn,M., Gert,H., Weber,T.,
            Wohlleben,W., Kalinowski,J. and Ruckert,C.
  TITLE     Complete genome sequence of the actinobacterium Amycolatopsis
            japonica MG417-CF17(T) (=DSM 44213T) producing
            (S,S)-N,N'-ethylenediaminedisuccinic acid
  JOURNAL   J. Biotechnol. (2014) In press
   PUBMED   25193710
  REMARK    Publication Status: Available-Online prior to print
REFERENCE   2  (bases 1 to 8961318)
  AUTHORS   Ruckert,C., Stegmann,E., Spohn,M., Gert,H., Weber,T., Wohlleben,W.
            and Kalinowski,J.
  TITLE     Direct Submission
  JOURNAL   Submitted (17-JUL-2014) CeBiTec, Bielefeld University,
            Universitaetsstr. 27, Bielefeld, NRW 33615, Germany
COMMENT     ##Genome-Assembly-Data-START##
            Assembly Method       :: Newbler v. 2.5.3
            Genome Coverage       :: 23.56x
            Sequencing Technology :: 454
            ##Genome-Assembly-Data-END##
FEATURES             Qualifiers
     source          /organism="Amycolatopsis japonica"
                     /mol_type="genomic DNA"
                     /strain="MG417-CF17"
                     /isolation_source="soil"
                     /culture_collection="DSM:44213"
                     /type_material="type strain of Amycolatopsis japonica"
                     /db_xref="taxon:208439"
                     /country="Japan"
     protein         /gene="deoA"
                     /locus_tag="AJAP_35245"
                     /EC_number="2.4.2.4"
                     /function="The enzymes which catalyze the reversible
                     phosphorolysis of pyrimidine nucleosides are involved in
                     the degradation of these compounds and in their
                     utilization as carbon and energy sources, or in the rescue
                     of pyrimidine bases for nucleotide synthesis."
                     /transl_table=11
BEGIN
        1 MSAFAAVDVI RAKRDGGRLS DEQIDWTIDA YTRGDIAEEQ MAALAMAIFL RGMDSGEIAR
       61 WTGAMISSGE RLDLKVSRPT IDKHSTGGVG DKITLPLAPL VAACGAAVPQ LSGRGLGHTG
      121 GTLDKLESIP GWRASLSTSE IIRQLDEVGA VVCAATEGLA PADKKLYALR DVTSTVESIP
      181 LIASSIMSKK IAEGSAGLVL DVKTGSGAFM KTVPQARELA RTLVEIGTAH GVATTALITD
      241 MNVPLGHAVG NAIEVAESVE VLRGGGPSDV VELTVALARE MLALAGLSDV DPAEVLASGR
      301 AYETWCRMIA AQGGDPEAAL PRPRYVHVVP APADGVLTSL DAYAVGVAAW RLGAGRARKE
      361 DPVQAAAGVL CLAKPGDKVA AGQPLLELHT DTPEAVPSAL AALEDAYAVS SEAPASAPLV
      421 LETVRP
//