Entry
Name
(RefSeq) serine hydroxymethyltransferase, mitochondrial
KO
Organism
csv Cucumis sativus (cucumber)
Pathway
csv00260 Glycine, serine and threonine metabolism
csv00630 Glyoxylate and dicarboxylate metabolism
csv01110 Biosynthesis of secondary metabolites
csv04981 Folate transport and metabolism
Module
Brite
KEGG Orthology (KO) [BR:csv00001 ]
09100 Metabolism
09101 Carbohydrate metabolism
00630 Glyoxylate and dicarboxylate metabolism
101222240
09105 Amino acid metabolism
00260 Glycine, serine and threonine metabolism
101222240
09106 Metabolism of other amino acids
00460 Cyanoamino acid metabolism
101222240
09108 Metabolism of cofactors and vitamins
00670 One carbon pool by folate
101222240
09150 Organismal Systems
09154 Digestive system
04981 Folate transport and metabolism
101222240
Enzymes [BR:csv01000 ]
2. Transferases
2.1 Transferring one-carbon groups
2.1.2 Hydroxymethyl-, formyl- and related transferases
2.1.2.1 glycine hydroxymethyltransferase
101222240
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Motif
Motif
Other DBs
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All DBs
Position
6:complement(26507609..26512481)
Genome browser
AA seq
519 aa AA seq DB search
MALAMAMALRRLSSSIHSPLRHLHGASFRYLSSLPNEAVYDKERPRVPWPKQLNDPLEVI
DPEIADIIELEKARQWKGLELIPSENFTSVSVMQAVGSVMTNKYSEGYPGARYYGGNEYI
DMAESLCQKRALEAFRLDPEKWGVNVQSLSGSPSNFQVYTALLKPHERIMALDLPHGGHL
SHGYQTDTKKISAVSIFFETMPYRLDESTGYIDYDQLERSATLFRPKLIVAGASAYARLY
DYARIRKVCDKQKAIMLADMAHISGLVAADVIPSPFEYADIVTTTTHKSLRGPRGAMIFF
RKGVKEINKQGREVLYDYEDKINQAVFPGLQGGPHNHTITGLAVALKQATTPEYKAYQEQ
VLRNCSNFAQSLAEKGYELVSGGTDNHLVLVNLKNKGIDGSRVEKVLESVHIAANKNTVP
GDVSAMVPGGIRMGTPALTSRGFVEEDFAKVAEFFDAAVNIAVKIKAETKGTKLKDFLTT
MESTPYFQSEIKNLKQDVEEYAKKFPTIGFEKETMKYKS
NT seq
1560 nt NT seq +upstream nt +downstream nt
atggcactggcaatggccatggcgctacgtaggctttcttcttccattcacagccccctt
cgtcacctccatggagcctctttccgttatctgtcttctttgcccaacgaagctgtctat
gataaggagagaccgcgcgttccgtggccgaaacaactgaacgatccgctcgaggtaatt
gatccagaaattgcggacataatcgaactcgagaaggccaggcaatggaagggcctggaa
ctcataccatctgagaacttcacttccgtctctgtgatgcaagcagttggatctgttatg
actaacaaatatagtgaaggttatcctggggctagatactatggaggaaacgagtacatc
gacatggccgaatccttgtgtcagaaacgtgctctggaagcatttcgattggatccagaa
aaatggggagtgaatgttcaatctttatctggctctccatccaattttcaagtttatact
gcattgctaaaaccccacgaaagaattatggcgcttgatcttcctcatggtggacatctc
tctcatggttaccagactgataccaaaaagatctctgcagtatctatattttttgagaca
atgccatacagattggatgagagcacgggctatattgactatgatcagttggagagaagt
gctactcttttccggcctaagttaattgttgctggtgccagtgcctatgcacgcttatat
gattatgcacgtatacgcaaggtctgtgataaacaaaaagctataatgttggcagatatg
gcacatatcagtggattggttgcagctgatgttatcccttcaccatttgaatatgctgat
attgtaaccaccacgactcacaagtcacttcgtggcccacgtggagccatgatatttttt
aggaaaggagtgaaagagataaataaacaagggcgggaggtgttatatgactacgaggac
aaaatcaatcaggctgtctttcctggtctacaaggtggtccgcacaaccacacaattact
ggtttagcagttgcactgaaacaggcaacaactccagaatacaaagcctatcaagagcaa
gttcttaggaattgctcaaattttgcacagtctctcgctgagaaaggctatgaacttgta
tctggtggaactgataatcatctggttctagtaaatttgaagaataagggtattgatggt
tcaagagttgaaaaggtgctggaatcagttcatatcgctgccaacaaaaacactgttcct
ggagatgtctcagctatggttcccggtggtatcaggatgggaactcccgctcttacctcc
agaggatttgttgaggaagacttcgctaaggtagcagagttctttgatgctgctgtgaac
atagccgtaaagatcaaagcagaaaccaaaggaacaaaattgaaggactttcttaccaca
atggaatcaactccttacttccagtccgagatcaaaaatctaaaacaggatgttgaggaa
tatgcaaagaaatttcctactattggttttgaaaaggaaacaatgaaatacaagagctga