KEGG   Ailuropoda melanoleuca (giant panda): 100467466
Entry
100467466         CDS       T01329                                 
Symbol
MTHFD1
Name
(RefSeq) C-1-tetrahydrofolate synthase, cytoplasmic isoform X1
  KO
K00288  methylenetetrahydrofolate dehydrogenase (NADP+) / methenyltetrahydrofolate cyclohydrolase / formyltetrahydrofolate synthetase [EC:1.5.1.5 3.5.4.9 6.3.4.3]
Organism
aml  Ailuropoda melanoleuca (giant panda)
Pathway
aml00670  One carbon pool by folate
aml01100  Metabolic pathways
aml01240  Biosynthesis of cofactors
aml04981  Folate transport and metabolism
Module
aml_M00141  C1-unit interconversion, eukaryotes
Brite
KEGG Orthology (KO) [BR:aml00001]
 09100 Metabolism
  09108 Metabolism of cofactors and vitamins
   00670 One carbon pool by folate
    100467466 (MTHFD1)
 09150 Organismal Systems
  09154 Digestive system
   04981 Folate transport and metabolism
    100467466 (MTHFD1)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04147 Exosome [BR:aml04147]
    100467466 (MTHFD1)
Enzymes [BR:aml01000]
 1. Oxidoreductases
  1.5  Acting on the CH-NH group of donors
   1.5.1  With NAD+ or NADP+ as acceptor
    1.5.1.5  methylenetetrahydrofolate dehydrogenase (NADP+)
     100467466 (MTHFD1)
 3. Hydrolases
  3.5  Acting on carbon-nitrogen bonds, other than peptide bonds
   3.5.4  In cyclic amidines
    3.5.4.9  methenyltetrahydrofolate cyclohydrolase
     100467466 (MTHFD1)
 6. Ligases
  6.3  Forming carbon-nitrogen bonds
   6.3.4  Other carbon-nitrogen ligases
    6.3.4.3  formate---tetrahydrofolate ligase
     100467466 (MTHFD1)
Exosome [BR:aml04147]
 Exosomal proteins
  Exosomal proteins of other body fluids (saliva and urine)
   100467466 (MTHFD1)
SSDB
Motif
Pfam: FTHFS THF_DHG_CYH_C THF_DHG_CYH OCD_Mu_crystall
Other DBs
NCBI-GeneID: 100467466
NCBI-ProteinID: XP_011216113
Ensembl: ENSAMEG00000003781
UniProt: G1LB74
LinkDB
Position
14:6686355..6739891
AA seq 935 aa
MAPAEILNGKVVSAQIRERLKNQVTQMKEQIPGFIPGLAILQVGDRDDSNLYINVKLKAA
EEIGIKATHVKLPRTATESEVLKYVTSLNEDQTVHGFIVQLPLDSENPINTEAVVNAIIP
EKDVDGLTSISAGKLARGDLNDCFIPCTPKGCLELIKETGVQIAGRHAVVVGRSKIVGAP
MHDLLLWNHATVTTCHSKTANLGEEVNKGDILVVATGQPEMVKGEWIKPGAIVIDCGINY
IPDDTKPNGKKVVGDVAYDEAKEKAGFITPVPGGVGPMTVAMLMQSTVESAKRFLEKCKP
GKWMIQYNHLNLKTPVPSDIDVSRSCKPKPIGSLAREIGLFSEEVELYGETKAKVLLSTL
ERLKHQPDGKYVVVTGITPTPLGEGKSTTTIGLVQALGAHLSQNVFACVRQPSQGPTFGI
KGGAAGGGYSQVIPMEEFNLHLTGDIHAITAANNLVAAAIDARMFHELTQTDKALFNRLV
PSVNGVRKFSDIQIRRLQRLGIEKTDPTTLTDDEINRFARLDIDPETITWQRVLDTNDRF
LRKITIGQAPTEKGYTRTAQFDISVASEIMAVLALTSSLEDMRDRLSRMVVASSKKGEPI
STEDLGVSGALTVLMKDAIKPNLMQTLEGTPVFVHAGPFANIAHGNSSIIADRIALKLVG
PEGFVVTEAGFGADIGMEKFFNIKCRYSGLRPHVVVLVATVRALKMHGGGPTVTAGLPLP
KAYTEENLELVEKGFSNLRKQIENARMFGVPVVVAVNAFKTDSEAELDLVSRLAKEHGAF
DAVKCTHWAEGGKGALALAQAVQRAAQAPSSFQLLYDLKLPVEDKIRIIAQKIYGADDIE
LLPEAQHKAEVYTKQGFGDLPICMAKTHLSLSHNPEQKGVPTGFVLPIRDIRASVGAGFL
YPLVGTMSTMPGLPTRPCFYDIDLDPETEQVNGLF
NT seq 2808 nt   +upstreamnt  +downstreamnt
atggcaccggcggaaatcctgaacgggaaggtggtctccgcgcaaataagggagaggctg
aagaaccaagtcactcagatgaaggagcaaattcctgggtttataccaggcctggcgatt
ttacaggttggcgacagagatgattctaatctttatataaatgtgaagctgaaggctgct
gaagagattgggatcaaagccacgcacgttaagttaccaagaacagccacagaatctgag
gtgttaaagtatgttacatcattgaatgaagaccagactgtccacggtttcatagtacag
ctgcctttagactcggagaaccccattaacactgaagcagtggtcaatgcgatcataccc
gaaaaggatgtggatgggttaactagcattagtgctggaaaacttgctagaggtgacctc
aatgactgtttcatcccttgtacgcctaaaggatgcttggaactcatcaaagagacaggg
gtgcagatcgctggaaggcacgcggttgtggtcgggcgcagtaagatagtcggtgcccca
atgcatgacttgcttctgtggaaccatgccaccgtgaccacctgccactccaagacggcc
aatctaggcgaggaggtaaataaaggtgacatcctggtggttgcaactggtcagccggaa
atggtaaaaggggagtggatcaagcctggggcaatagtcatcgactgcgggatcaattac
atcccggatgatacaaaaccaaatgggaaaaaagtggtgggtgatgtggcctacgatgag
gccaaagagaaggcgggcttcatcactcctgttcctggtggcgtggggcccatgacggtg
gcaatgctgatgcagagcacagtcgagagcgcaaagcgtttcttggagaaatgtaagcca
ggaaagtggatgattcagtataaccaccttaacctcaagactcctgttccaagtgacatt
gatgtatcacgatcttgcaagccgaagcccattggcagcctggcccgggaaattggtctg
ttttctgaagaggtggaattgtacggtgagacaaaggccaaggttctgctgtccacactg
gaacgcctaaagcaccagcctgacgggaaatacgtggtggtgacggggatcactccaacg
cccctgggagaagggaagagcacgaccaccattggactggtgcaagccctcggcgcccat
ctttctcagaacgtctttgcgtgtgtgcgacagccttctcagggccccacctttggaata
aaaggtggcgctgcaggaggcggctactcacaggtcattcccatggaagagtttaatctc
cacctcactggtgacattcatgccatcactgcagcgaataaccttgtcgccgcggccatc
gatgcccggatgttccacgaactgacgcagacagacaaggctctcttcaaccgtttggta
ccgtctgtaaatggagtgagaaagttctctgatatccaaatccgaaggttacagagacta
ggcattgagaaaaccgaccctaccacactgaccgatgacgagataaacagatttgcaaga
ttggacattgatccagaaaccataacttggcaaagagtattggataccaatgacagattc
ctgaggaagatcaccatcggacaggctccaacagagaaaggatacacacggacggcccag
tttgatatctctgtggccagtgaaatcatggctgtgctggctctcaccagttcgctggaa
gacatgagagacagactgagcagaatggtggtggcatccagcaagaagggggagcccatc
agtaccgaagatctgggggtgagtggtgcattgacagtgctcatgaaggatgcaatcaag
cccaatctcatgcagacgctggagggcactccagtatttgttcatgctggaccgtttgcc
aacatcgcacatgggaattcctctatcatcgcagaccggattgcactcaagcttgttggc
cctgaagggtttgtggtgactgaagcaggatttggagcagacattggaatggaaaagttt
tttaacatcaagtgccggtattctggtctccgccctcacgtggtggtgcttgtggccacg
gtcagggcccttaagatgcacggaggcggccccacggttactgctggactgcctctcccc
aaggcttacacagaggagaacctggagctggttgaaaaaggtttcagtaacttaaggaaa
caaattgaaaatgccagaatgtttggagttccagtggtagtggccgtgaacgcattcaag
acagattcggaggctgagctggaccttgtcagccgccttgccaaagaacatggggctttt
gatgctgtgaagtgcacgcactgggcagaagggggcaagggcgccttagccctagctcag
gccgtccagagagcagctcaggctcccagcagcttccagctcctttatgacctcaagctc
ccagttgaggataaaatcaggatcattgctcagaagatttatggggctgatgacattgaa
ctgcttcctgaagctcaacacaaagccgaagtctacacaaaacagggctttggggacctg
cccatctgcatggccaaaacacacttgtccttgtctcataacccagagcagaagggtgtg
cccacaggctttgtcttgcccatccgtgacattcgcgccagcgtcggggccggttttctg
taccctttggtagggacgatgagcacaatgcctggactccccacgcggccctgtttctat
gatattgatttggaccctgaaactgaacaggtgaatgggttgttctaa

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