BAQ43615.1

LOCUS       BAQ43615.1               949 aa    PRT              BCT 16-MAY-2017
DEFINITION  Methylobacterium aquaticum glycine dehydrogenase protein.
ACCESSION   AP014704-94
PROTEIN_ID  BAQ43615.1
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="1.4.4.2"
                     /gene="gcvP"
                     /inference="similar to AA sequence:RefSeq:WP_017487236.1"
                     /locus_tag="Maq22A_c00535"
                     /note="121c0006"
                     /note="acts in conjunction with GvcH to form
                     H-protein-S-aminomethyldihydrolipoyllysine from glycine;
                     Derived by automated computational analysis using gene
                     prediction method: Protein Homology."
                     /transl_table=11
BEGIN
        1 MPMDKYDPYD FANRRHIGPS VDEIARMLEV VGADSLDALI DEILPAGIRQ REATEFGAAL
       61 SERRAIERLR ATANKNTLLT SLIGQGYHGT TMPPAIQRNI FENPAWYTAY SPYQPEISQG
      121 RLEALLNFQT CVGDLTGLDI ANASLLDEAT AAAEAMGMAR RIATAKPDIF FVDAQCLPQT
      181 IAVLKTRAEP FGWRIVVGDP FTDLDPASVF GAIVQYPGVE GAAHDFTDVI AKLHESGAIA
      241 VVAADPLALT VLKPPGEMGA DIAVGSMQRF GVPMGYGGPH AAYMATRDAH KRALPGRIVG
      301 VSVDSRGNRA YRLSLQTREQ HIRREKATSN ICTSQVLLAV IASMYAVFHG PRGLKAIAMR
      361 IHRDATRLAA GLNQLGFETH PDAFFDTITV TVGPFQGVIL KNAVANGINL RKVGNDRIGI
      421 TVDERTRPDI IEAVWRAFGG DSLAYDESWP EPRLPADLVR TSEYLTHPIF HMNRAESEMT
      481 RYMRRLADRD LALDRAMIPL GSCTMKLNAT AEMLPISWPE FSELHPFAPK DQAEGYAEMI
      541 QDLSQKLADI TGYAAISMQP NSGAQGEYAG LLAIRAYHLS RGEGHRTICL IPSSAHGTNP
      601 ASAQMCGMTV VVVGADRNGN VDVADFRAKA EKHGDNLAAC MITYPSTHGV FEEAVREICD
      661 ITHAHGAQVY LDGANLNALV GLARPGDIGA DVSHINLHKT FCIPHGGGGP GMGPIGVKAH
      721 LIPFLPGHVE TDGREFSVSA APYGSAAILP ISWSYCLLMG GRGLTQATRI AILNANYIAK
      781 RLAGAYEVLY TGTHGRVAHE CIIDARPLMK SAGISVEDIA KRLIDCGFHP PTMSWPVAGT
      841 LMIEPTESET KGEIDRFCDA MLAIREEIRA IEEGRMDRAD NPLKNAPHTV EDLIGPWERP
      901 YSREAACFPA GAFRVDKYWP PVNRVDNAYG DRNLVCACPP VESYVKAAE
//