BAQ45628.1

LOCUS       BAQ45628.1              1073 aa    PRT              BCT 16-MAY-2017
DEFINITION  Methylobacterium aquaticum DNA polymerase protein.
ACCESSION   AP014704-2202
PROTEIN_ID  BAQ45628.1
SOURCE      Methylobacterium aquaticum
  ORGANISM  Methylobacterium aquaticum
            Bacteria; Pseudomonadota; Alphaproteobacteria; Hyphomicrobiales;
            Methylobacteriaceae; Methylobacterium.
REFERENCE   1  (bases 1 to 5348274)
  AUTHORS   Tani,A. and Ogura,Y.
  TITLE     Direct Submission
  JOURNAL   Submitted (21-JAN-2015) to the DDBJ/EMBL/GenBank databases.
            Contact:Akio Tani
            Okayama University, Institute of Plant Science and Resources; Chuo
            2-20-1, Kurashiki, Okayama 710-0046, Japan
REFERENCE   2
  AUTHORS   Tani,A., Ogura,Y., Hayashi,T. and Kimbara,K.
  TITLE     Complete Genome Sequence of Methylobacterium aquaticum Strain 22A,
            Isolated from Racomitrium japonicum Moss
  JOURNAL   Genome Announc 3, e00266-15 (2015)
  REMARK    Publication Status: Online-Only
            DOI:10.1128/genomeA.00266-15
COMMENT     ##Genome-Assembly-Data-START##
            Assembly Method       :: Newbler v. 2.7
            Genome Coverage       :: 47x
            Sequencing Technology :: 454 GS FLX; ABI 3730; Illumina PE
            ##Genome-Assembly-Data-END##
FEATURES             Qualifiers
     source          /culture_collection="NBRC:FERM BP-11078"
                     /db_xref="taxon:270351"
                     /mol_type="genomic DNA"
                     /organism="Methylobacterium aquaticum"
                     /strain="MA-22A"
     protein         /EC_number="2.7.7.7"
                     /gene="dnaE"
                     /inference="similar to AA sequence:RefSeq:WP_018259790.1"
                     /locus_tag="Maq22A_c11890"
                     /note="269c0038"
                     /note="DNA polymerase involved in damage-induced
                     mutagenesis and translesion synthesis. It is not the major
                     replicative DNA polymerase; Derived by automated
                     computational analysis using gene prediction method:
                     Protein Homology."
                     /transl_table=11
BEGIN
        1 MTVELQVTTH YSFLRGASSP EELFAAAALL GIRALAVTDR NSLAGLVRAH AAARTTGCRL
       61 VVGCRLDLAE GWSLLVYPTD RAAYGRLCRL LTLGRSRERA PRGGCHLTTA DVAEWSRGLL
      121 AVLPADRADE TLTERLRLLK AIFGKDLSCG LSRRFGVNDH LRLAEIAGLA RAARVPTVAL
      181 GDVLYHVPER RMMQDVVTCI RLKTTIEAAG FARERHAGRH LHEPDETARL FARHPEALAR
      241 AAAIAEACRF SLDELTYTYP DEAGEDGRPA QVRLAAMTWE GAAKRFPAGV PEAVRRQLAD
      301 ELDLVAKKQY APYFLTVEAI VRYARSQGIL CQGRGSAANS AICYCLHITA IDPVDQGLLF
      361 ARFINETRDE PPDIDVDFEH ERREEVIQWI YATYGRARAA LTATVIRYGA RGAVREVGKV
      421 LGVPEDVTGA LARLVWGWSR DGVGEREAKA LGLDLSQRRL RLTLEIARAL IGTPRHFGQH
      481 PGGFVLTLDR LDDLCPVVPA RMENRQIIEW DKDDIETLRF MKVDVLGLGM LGCLRRAFTL
      541 LAEHRPETSP PREIADIPPD DRKTYEMIQK ADTIGVFQIE SRAQMAMLPR MQPKDLYDLT
      601 IEVAIVRPGP IQGDMVHPYL RRRRGIDPVT YPTEALKAVL KRTLGVPLFQ EQAMQVAIVA
      661 AGFSPAQADG LRRAMGTFKG DGTITLYEEK LVGGMIANGY DPDFAARTYR QLEGFGSYGF
      721 PESHAASFAL IAYASSWLKC RHPDVFACAL LNAQPMGFYA PAQIVRDARA HDVEIRPIDV
      781 NASRWDCTLE PAGEGRLAVR LGLRLVRGLG NQDGARIATV READLFRSVE DLWRRAGLSL
      841 KGLRSLAAAD AFAGLGLDRR AALWAIRGLA PEPLPLFAAA DRREAAPLPE IAEPPVRLIP
      901 LGEGAAVVAD YRASGLSLGR HPLAFLRMGL SRDGVSACAA LRRLRDGARV TVAGLVLVRQ
      961 KPGSAKGVMF ITLEDETDTA NLVIWPSLFT RQRTLILQAG LMAARGRVQR EGEVIHLVAE
     1021 HLIDRSDLLA RVAEDAPGEP LAVDGGRGDE ARRGGADARG AARPLRVGSR DFR
//