Entry
Name
(RefSeq) bifunctional dihydrofolate reductase-thymidylate synthase-like
KO
Organism
mdm Malus domestica (apple)
Pathway
Module
mdm_M00938 Pyrimidine deoxyribonucleotide biosynthesis, UDP => dTTP
Brite
KEGG Orthology (KO) [BR:mdm00001 ]
09100 Metabolism
09104 Nucleotide metabolism
00240 Pyrimidine metabolism
103440375
09108 Metabolism of cofactors and vitamins
00790 Folate biosynthesis
103440375
00670 One carbon pool by folate
103440375
Enzymes [BR:mdm01000 ]
1. Oxidoreductases
1.5 Acting on the CH-NH group of donors
1.5.1 With NAD+ or NADP+ as acceptor
1.5.1.3 dihydrofolate reductase
103440375
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.45 thymidylate synthase
103440375
SSDB
Ortholog Paralog GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
10:join(9487819..9488243,9488327..9488726,9488834..9488878,9489080..9489145,9489622..9489683,9489766..9489840,9489934..9490099,9490178..9490301,9490454..9490560,9490687..9490797)
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AA seq
526 aa AA seq DB search
MAGELLVSANGNGNTQPNPQRTYQVVVAATREMGIGKDGKLPWRLPSDLKFFKDVTVTTS
DPAKKNAIIMGRKTWESIPSEHQPLPGRLNVVLTRSGSFDIATAENVVICGSMASALELL
AASPYCLSIERVFLIGGGQILREALNAPGCEAIHITEIETNIECDTFIPAIDSSVFQPWY
SSFPKVENSIRHSFTTYVRVRSSAVESLCENNDLISNSKSGSIKCEVKNFSFLPKMIFEK
HEEHMYLRLVREVLSDGTSKDDRTGTGTLSKFGCQMRFNLRRTFPLLTTKKVFWRGVVEE
LLWFISGSTNAKVLQEKGIHIWDGNASRDYLDSVGLTDKEEGDLGPVYGFQWRHFGARYT
DMHADYTGQGFDQLLDVIDKIKNKPDDRRIILSAWNPSDLKLMALPPCHMFAQFYVANGE
LSCQMYQRSADLGLGVPFNIASYALLTCMIAHVCGLVPGDFIHALGDAHVYRTHIRPLKE
QLEKLPKPFPILKINPEKKNIDSFVAADFKLIGYDPHQKIEMKMAV
NT seq
1581 nt NT seq +upstream nt +downstream nt
atggctggtgaattgttggtgagtgcgaatggaaatggtaacacccagcccaatccacag
aggacttaccaagttgttgtggctgcgacccgagaaatgggtattggaaaggatgggaaa
ctaccttggagactgccctctgatctcaagttctttaaggacgtcactgtgaccacatca
gatcctgcgaaaaagaatgcgattataatgggtagaaaaacatgggagagcattccatct
gagcatcaacctctacctggccgccttaatgttgttctgactcgttctgggagttttgat
attgctactgcagagaatgttgtgatatgcggaagcatggcatctgctttggaattgtta
gctgcttctccttactgtctgtcaattgagagagtgtttctcattggaggtggccagata
ttaagggaagctctcaatgcgcctggctgtgaagccattcacattacagaaatagagaca
aacattgaatgtgacacttttatccctgcaattgattcctctgtgtttcagccgtggtat
tcatcctttcccaaggttgaaaatagcattcgtcattccttcacaacttatgttcgtgta
aggagttctgcagttgaatccctttgtgaaaacaatgatctgatctctaatagtaagtca
ggctccattaaatgtgaggtgaagaatttctcttttcttccaaagatgatttttgagaaa
catgaggagcacatgtatctaaggctggtacgagaagtactctcagatggcacttctaag
gatgacaggacagggactggtactttgtcaaaattcggttgccagatgcggtttaacctg
cgcagaacttttccacttctgacaaccaagaaagtattttggcgaggggttgttgaagaa
cttctgtggttcatcagtggttcaacaaatgccaaggtccttcaggagaaaggtattcac
atttgggatggaaatgcatctagagactaccttgacagtgttggtttaactgacaaggaa
gagggcgacttgggaccagtatatgggttccagtggcgacactttggtgccaggtatact
gacatgcatgctgactataccggtcaaggatttgatcagttgctagatgttattgacaag
attaaaaataagccagatgatcggcggattatactgtcagcatggaatccttctgatctc
aaattgatggcactcccaccttgtcacatgtttgctcagttctatgtagccaacggagag
ttatcatgtcaaatgtatcagcgttctgctgacctcggccttggtgttccatttaacatt
gcatcatatgctcttctgacatgcatgattgctcatgtttgtggtcttgttccaggtgat
ttcattcatgccttaggggatgctcatgtttaccgcactcacatcaggcctttgaaggag
cagcttgaaaagctgcccaagccttttccaattttgaagatcaatcctgagaaaaagaat
atagattcgtttgtggcggctgatttcaaactgataggttatgatcctcatcagaagata
gaaatgaaaatggccgtatag