Entry
Name
(RefSeq) thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X1
KO
Organism
vvi Vitis vinifera (wine grape)
Pathway
Module
vvi_M00897 Thiamine biosynthesis, plants, AIR (+ NAD+) => TMP/thiamine/TPP
vvi_M00899 Thiamine salvage pathway, HMP/HET => TMP
Brite
KEGG Orthology (KO) [BR:vvi00001 ]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00730 Thiamine metabolism
100249214
Enzymes [BR:vvi01000 ]
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
100249214
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.49 hydroxymethylpyrimidine kinase
100249214
2.7.4 Phosphotransferases with a phosphate group as acceptor
2.7.4.7 phosphooxymethylpyrimidine kinase
100249214
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SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
12:complement(join(21590500..21591031,21592132..21592388,21594207..21594334,21594473..21594537,21596269..21596403,21596507..21596582,21596668..21596743,21599470..21599544,21599876..21600190,21600870..21600908))
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AA seq
565 aa AA seq DB search
MASEILSSSFFNKNVFPCSPIPVASQGFAQYRISRLHFANSRSNRSFRTKIFTVMQEDRP
STVKDDSKMKIPHVLTVAGSDSGAGAGIQADLKACAARGVYCSTVITAVTAQNTVGVQGV
NIVPEDFVAEQLKSVLSDMHVDVVKTGMLPTIGIVKVLHHSLKEFPVQALVVDPVMVSTS
GDVLAGPSILAAFREELLPMADIVTPNLKEASALLGGLQLETVSDMCTAAKLIHDMGPRN
VLVKGGDLPSSLDAVDIFFDGDDFYELRSSRIKTRNTHGTGCTLASCIAAELAKGSQILS
AVKAAKHYIETALDYSKDIAIGNGFQGPFDHLLKLKSNIRNSFRKQAFNPANLFLYAVTD
SGMNKKWGRSITEAVKAAIEGGATIVQLREKDAETRDFLEAAKACVEICHSHGVPLLIND
RIDVALACDADGVHVGQSDIPARVVRTLLGPEKIIGVSCKTPEQAEKAWIDGADYIGCGG
VYPTNTKANNITVGLDGLKTVCLASKLPVVAIGGINASNARTVMEIGVPNLKGVAVVSAL
FDRECVLTETQKLHGDLTQAAAMVK
NT seq
1698 nt NT seq +upstream nt +downstream nt
atggcttcagaaatcctttctagttccttcttcaacaagaatgtttttccatgcagcccg
atcccagttgcttcacaagggtttgcacaatataggatttcaagactacattttgcaaat
tcaagaagcaatagaagcttccgaacaaagattttcacagtgatgcaggaagataggcct
tcaacagtgaaagatgactctaagatgaaaattccacatgttttgactgttgctggctct
gattcaggagctggggctggaatacaagctgatcttaaggcttgtgcagcacgtggagtt
tactgttccacagtgattactgctgttacagcacaaaatactgttggggttcagggtgta
aacattgtgcctgaggattttgttgcagagcaattgaaatctgtgctctctgacatgcat
gttgatgtggtgaaaacaggcatgcttccaactattggcatagtcaaggttcttcatcac
agtctcaaggagttcccagttcaagctttagtggtcgatcccgtcatggtgtctacaagt
ggagatgtactggctggtccttccattcttgctgcatttcgagaggaacttcttcccatg
gctgacattgtaaccccaaatttgaaagaggcatctgctttacttggtggtctacaactg
gagactgtttctgatatgtgtactgctgcaaaattgatacatgatatgggcccacgaaat
gtacttgttaaaggcggtgatctcccttcttcattagatgctgttgatattttctttgat
ggtgatgatttctatgagctgcgttcatcacgcataaaaactcggaatacccatggtact
ggctgcactttggcatcttgtatagcagctgagctagcaaagggttctcaaatactatca
gctgtcaaggcagctaaacactatattgaaactgccttggattacagcaaagacattgct
ataggaaatgggtttcaaggccctttcgaccacctactgaagcttaagagtaatatccgc
aattccttcaggaagcaggcattcaatccagccaacctattcttgtatgctgttacagat
tcagggatgaataagaagtggggtcgttccattacagaagctgttaaagctgccatagaa
ggtggtgctaccattgttcagctgagggagaaggatgctgaaacacgagactttctggaa
gcagccaaagcatgtgtagaaatttgccactcccatggagtacctctattgataaatgac
cgaatcgatgttgcccttgcctgtgacgctgatggtgtgcatgttggccagtctgatatc
cctgctcgtgtcgtccgcacacttcttgggcccgaaaagattattggggtatcatgcaag
acaccagagcaagccgagaaagcatggatcgatggtgctgattacattggctgtggtggc
gtatatccaactaatacaaaagcaaacaacattactgttggcttggatggtctgaaaact
gtttgtttagcttctaagttacccgtggttgccattggtggcatcaatgcttcaaatgct
cgtaccgtgatggaaatcggcgtcccaaatttaaaaggtgttgcagttgtatctgctctg
tttgacagggaatgtgttttgactgagacccagaagctgcatggagatctgacacaggca
gcagcaatggtaaaataa