KEGG   Camellia sinensis (tea plant): 114319217
Entry
114319217         CDS       T07364                                 
Name
(RefSeq) glycine dehydrogenase (decarboxylating), mitochondrial-like
  KO
K00281  glycine cleavage system P protein (glycine dehydrogenase) [EC:1.4.4.2]
Organism
csin  Camellia sinensis (tea plant)
Pathway
csin00260  Glycine, serine and threonine metabolism
csin00630  Glyoxylate and dicarboxylate metabolism
csin00670  One carbon pool by folate
csin00785  Lipoic acid metabolism
csin01100  Metabolic pathways
csin01110  Biosynthesis of secondary metabolites
csin01200  Carbon metabolism
Module
csin_M00532  Photorespiration
csin_M00621  Glycine cleavage system
Brite
KEGG Orthology (KO) [BR:csin00001]
 09100 Metabolism
  09101 Carbohydrate metabolism
   00630 Glyoxylate and dicarboxylate metabolism
    114319217
  09105 Amino acid metabolism
   00260 Glycine, serine and threonine metabolism
    114319217
  09108 Metabolism of cofactors and vitamins
   00785 Lipoic acid metabolism
    114319217
   00670 One carbon pool by folate
    114319217
Enzymes [BR:csin01000]
 1. Oxidoreductases
  1.4  Acting on the CH-NH2 group of donors
   1.4.4  With a disulfide as acceptor
    1.4.4.2  glycine dehydrogenase (aminomethyl-transferring)
     114319217
SSDB
Motif
Pfam: GDC-P GcvP2_C Aminotran_5 Beta_elim_lyase Cys_Met_Meta_PP
Other DBs
NCBI-GeneID: 114319217
NCBI-ProteinID: XP_028122026
LinkDB
Position
Unknown
AA seq 1050 aa
MDRARRLANRAILRRLVSESKQYRPNESLTSSSSSPVMYSPSRYVSSLSAYVFHGKSSRS
DLLLGRNVLYNVGSQFRSISVEALKPSDTFPRRHNSATPEEQTKMAEVCGFNSLDSLIDA
TVPKSIRLDKMKFSKFDEGLTESQMIEHMKNLASKNKVYKSFIGMGYYNTFVPPVILRNI
MENPGWYTQYTPYQAEIAQGRLESLLNYQTMISDLTGLPMSNASLLDEGTAAAEAMAMCN
NILKGKKKTFIIASNCHPQTIDVCKTRADGFDLKVVVADLKDLDYTSGDVCGVLVQYPGT
EGEVLDYGEFVKNAHAKGVKVVMATDLLALTMLKPPGEFGVDIVVGSAQRFGVPLGYGGP
HAAFLATSQEYKRMMPGRIIGVSVDSSGKPALRMAMQTREQHIRRDKATSNICTAQALLA
NMAAMYAVYHGPEGLKTIAQRVHGLAGTFAAGLKKLGAVEVQGLPFFDTVKVKCVDSKAI
ADDACKNQMNLRIVDQNTVTVAFDETTTLEDVDKLFKNFACGKPVTFTAASLAPEVRNMI
PSGLVRQSPYLTHPIFNSYHTEHELLRYLHKLQSKDLSLCHSMIPLGSCTMKLNATTEMM
PVTWPGFSDMHPFAPSEQAEGYQEMFKDLGELLCTITGFDSFSLQPNAGAAGEYAGLMVI
RAYHKARGDHHRNVCIIPVSAHGTNPASAAMCGMKIVAVGTDAKGNINIEELRKAAEANR
ANLSALMVTYPSTHGVYEEGIDEICKIIHDNGGQVYMDGANMNAQVGLTSPGFIGADVCH
LNLHKTFCIPHGGGGPGMGPIGVKKHLAPFLPSHPVVSTGGIPSPDKMQPLGTISAAPWG
SALILPISYTYIAMMGSKGLTEASKIAILNANYMAKRLENHYPVLFRGVNGTVAHEFIVD
LRGFKNTAGIEAEDVAKRLMDYGFHGPTMSWPVPGTLMIEPTESESKAEMDRFCDSLISI
REEIAHIEKGKADINNNVLKGAPHPPSLLMADTWSKPYSREYAAFPASWLRSAKFWPTTG
RVDNVYGDRNLICTLLPTSQVAEEQAAATA
NT seq 3153 nt   +upstreamnt  +downstreamnt
atggatcgtgctcggcggctcgcaaaccgggcaattctcagacgcctggtttctgagtct
aagcagtaccgcccaaatgaatctctgacgagctcttcatcatcgccggtaatgtattcg
ccttcgaggtatgtttcttcattgtctgcctatgtgtttcatggaaaaagtagtagatca
gatttgttactagggaggaatgtgttatacaatgttgggtctcagtttcgatcaatatcg
gttgaagctttgaaaccaagtgatacttttccccgccgccataactctgcaacccctgaa
gaacaaaccaaaatggctgaggtttgtggattcaatagtcttgattcgcttatagatgcg
acggtgcctaagtcgattcgtttagataaaatgaagttttctaagtttgatgaaggttta
actgagagccaaatgattgagcacatgaaaaatttagcttctaagaataaggtttacaag
tctttcattgggatgggttactataacacctttgttccacctgtgattttgaggaacatt
atggaaaatcctggttggtatacccagtacactccgtaccaggctgagattgcgcagggt
cgtcttgagtccctgctcaattatcagaccatgatttcggatcttactggtctccccatg
tcaaatgcttccttacttgatgaaggaactgctgcagccgaggcaatggctatgtgtaat
aatattctaaagggaaagaagaaaactttcattattgccagtaactgtcacccgcagaca
attgatgtgtgtaagactagagccgatggttttgatcttaaagtagttgttgctgatctc
aaagaccttgattacacatcaggcgatgtttgtggggtactggtacagtatccgggaaca
gagggtgaagttttggactatggggagttcgtaaagaatgcacatgcaaaaggggttaag
gttgtcatggcaactgatttgttggcgttgacaatgttaaagcctcctggtgaatttggt
gtagatattgttgttggctcggctcaaaggtttggggttcctttggggtatggtggtcct
catgcagccttccttgccacttcccaagagtacaaaaggatgatgccaggaagaattatc
ggtgtgagtgttgattcttcaggaaaacctgctctgcgcatggcaatgcagacgagggaa
caacatatccggagggacaaggctaccagcaacatctgcactgctcaggcactccttgca
aacatggctgcaatgtatgctgtttaccatggtccagagggccttaaaaccattgcccaa
agggtacatggtcttgcagggacatttgctgctgggctgaagaaactcggggcagtagag
gttcagggccttcccttctttgacactgtgaaggttaaatgtgttgactctaaggcaatt
gcagatgatgcttgcaagaaccagatgaatttgcggatagtggaccagaatactgtcact
gttgcttttgacgaaacaaccaccttagaggatgtggacaagctatttaaaaattttgcc
tgtggcaagcctgtgacatttactgctgcgtctcttgcaccagaggttcggaacatgatc
ccttcgggccttgtaaggcagagcccgtatctgactcacccaatcttcaactcataccat
acggagcatgagctgcttagataccttcataaactacaatcaaaagatctttcactatgt
catagcatgattcccctgggttcgtgtacaatgaagttgaatgcaacaacagagatgatg
cctgtgacatggcctggctttagtgatatgcacccttttgcgcctagtgagcaggctgaa
gggtatcaggagatgttcaaagatttaggtgaactattgtgtactatcactggatttgac
tcattctctttgcaacccaatgctggtgctgctggggagtacgctggtctcatggtcatc
cgcgcatatcataaggcaagaggagaccatcaccgcaatgtttgcattatacctgtctct
gcacatgggacaaatcctgctagtgctgctatgtgcggaatgaaaattgttgctgtagga
actgatgccaagggaaacatcaacattgaagagttaaggaaggcagctgaagcaaatagg
gcaaatctatctgcccttatggttacatatccttcaacacatggtgtttacgaagaaggc
attgatgagatatgcaagataatacatgacaacggaggtcaagtttacatggatggtgcc
aatatgaatgcacaggttggtttgactagcccgggttttattggtgctgatgtttgtcat
ctcaatctccacaaaacattctgtattccacatggtggaggcggtcccggcatgggtcct
attggtgtgaagaaacatttggcaccttttctgccatcacatcctgtggtatctacagga
ggtataccatcccccgacaagatgcagccacttggcaccatatccgctgcgccttggggc
tctgcacttattttgccaatatcttacacctacattgccatgatggggtccaaggggctc
acagaggcatcaaagatagctatcttgaatgcaaactacatggcaaaacgattggagaac
cattacccagttcttttccgtggtgtcaatggaacagtcgcccatgaattcatcgttgat
ttgaggggcttcaagaatactgccggaatagaggctgaagatgttgctaaacgtcttatg
gactatggatttcatggaccaacaatgtcatggcccgttccaggcacactgatgattgaa
cctactgaaagtgagagcaaggcagagatggacaggttttgtgattctctaatttccatc
agagaagaaattgcacatattgagaaaggaaaagctgatattaacaacaatgtcctcaag
ggagctcctcatccaccatcactgctgatggcagatacatggtcaaaaccatactctcgg
gaatatgctgccttccctgcttcttggctccgctcagccaagttctggcctaccacagga
cgtgtcgacaatgtgtatggcgatcgcaacctcatctgcacccttctccccacatcccag
gttgctgaagaacaagccgctgctactgcttaa

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