Entry
Name
(RefSeq) thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X1
KO
Organism
cit Citrus sinensis (Valencia orange)
Pathway
Module
cit_M00899 Thiamine salvage pathway, HMP/HET => TMP
Brite
KEGG Orthology (KO) [BR:cit00001 ]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00730 Thiamine metabolism
102610242
Enzymes [BR:cit01000 ]
2. Transferases
2.5 Transferring alkyl or aryl groups, other than methyl groups
2.5.1 Transferring alkyl or aryl groups, other than methyl groups (only sub-subclass identified to date)
2.5.1.3 thiamine phosphate synthase
102610242
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.49 hydroxymethylpyrimidine kinase
102610242
2.7.4 Phosphotransferases with a phosphate group as acceptor
2.7.4.7 phosphooxymethylpyrimidine kinase
102610242
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
5:complement(join(8040134..8040665,8041334..8041590,8042275..8042402,8042519..8042583,8043661..8043795,8044357..8044432,8044518..8044593,8044813..8044887,8045007..8045246,8045474..8045518))
Genome browser
AA seq
542 aa AA seq DB search
MACSIVPSSLFFFHKLTNSSYGTLTFVAMQDDCGAASATTTEQYKMKIPHVLTVAGSDSG
AGAGIQADLKACAARGVYCSTVITAVTAQNTAGVQGVNIVPEDFVAAQLKSVLSDMQVDV
VKTGMLPSTDLVKVLLQSLSEFPVRALVVDPVMVSTSGDVLAGPSTITGLRENLLPMADI
VTPNVKEASALLGGMQVVTVADMCSAAKLLHNLGPRTVLVKGGDLPDSSDAVDIFFDGED
FHELRSSRVNTRNTHGTGCTLASCIAAELAKGSPMLSAVKVAKCFVETALDYSKDIVIGS
GPQGPFDHLLRLKSTSHQSHRAEAFNPSDLFLYAVTDSGTNKKWGRSITDAVKAALEGGA
TIIQLREKDADTRGFLEAAKACLQICCVHGVPLLINDRIDIALACDADGVHLGQSDMPAR
TARALLGPDKIIGVSCKTPEEAHQAWIDGANYIGCGGVYPTNTKANNLTVGLDGLKTVCL
ASKLPVVAIGGIGISNASDVMKIGVSNLKGVAVVSALFDRECILPESKKLHAVLMDAVQR
VK
NT seq
1629 nt NT seq +upstream nt +downstream nt
atggcctgctctattgtcccttccagtctcttcttcttccacaagttgacaaattcaagt
tacggaacgctgacgtttgtcgcaatgcaagacgattgcggtgctgcttcggcgacgacg
acagaacagtataagatgaaaattccacacgttctgactgtcgccggctccgattccggc
gctggcgccggaattcaagccgatctcaaagcgtgcgccgctcgtggagtttattgttct
accgttatcactgccgttaccgctcagaacactgctggtgttcagggtgtaaatattgtg
cctgaagattttgtcgcggctcagttgaagtccgtgctctctgatatgcaagttgatgtg
gtgaaaacaggcatgctaccttctactgacctagtcaaggttcttcttcagagtcttagt
gagtttccagttcgagctttggtggttgatcctgttatggtatctacgagtggggacgtg
ctggctggcccttccactatcactgggcttcgtgagaatcttcttcccatggctgacata
gtaacccctaatgtaaaagaggcatctgctttacttggtggtatgcaagtggttactgtt
gcagacatgtgttctgctgcaaagttgttacacaatttgggcccacgaactgtgcttgtc
aaaggtggtgacctgcctgattcatccgatgctgttgatattttctttgacggtgaggac
ttccacgagctgcgttcttctcgtgtaaacactcgtaacactcatggtactggttgcact
ttggcgtcgtgtatagcagctgagctagcaaaaggttctccaatgctatcagctgttaag
gtggctaaatgtttcgttgaaacagccttggattacagcaaagacattgtaattggaagt
gggcctcaagggccctttgaccacctgctgagacttaaaagtacttctcaccagtctcat
agagcggaggcattcaatccaagtgacctatttttgtatgctgtcacagattcagggacg
aacaagaagtggggccgttctataacggatgcagttaaagctgccttagaaggaggtgct
accattattcaattaagagagaaagatgctgacacaaggggctttctcgaagcagcgaaa
gcatgtcttcaaatttgttgtgtccatggagtacctctgctgattaatgaccgcatcgat
attgcccttgcttgtgatgctgatggtgtgcatctaggtcagtctgacatgcctgctcgt
actgcccgtgctcttcttggtcctgataagatcattggcgtatcatgcaaaacacctgaa
gaagcccatcaagcttggattgatggtgccaattacattggttgtggtggagtatatcca
actaacacaaaggcaaataatctcactgtcggtttggatggattgaaaactgtttgtttg
gcttccaagttacctgtggttgcaattggtggcatcggcatttcaaatgcatctgacgtg
atgaaaattggtgtatcaaatcttaaaggtgttgccgttgtgtcagctctttttgatagg
gaatgtatcttgcccgagagcaagaagttgcacgctgtgctgatggatgcagtacaaagg
gtaaaatga