Entry
Name
(RefSeq) alternative NAD(P)H-ubiquinone oxidoreductase C1, chloroplastic/mitochondrial isoform X1
KO
Organism
vvi Vitis vinifera (wine grape)
Pathway
vvi00130 Ubiquinone and other terpenoid-quinone biosynthesis
vvi01110 Biosynthesis of secondary metabolites
Module
vvi_M00932 Phylloquinone biosynthesis, chorismate (+ phytyl-PP) => phylloquinol
Brite
KEGG Orthology (KO) [BR:vvi00001 ]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00130 Ubiquinone and other terpenoid-quinone biosynthesis
100264660
Enzymes [BR:vvi01000 ]
1. Oxidoreductases
1.6 Acting on NADH or NADPH
1.6.5 With a quinone or similar compound as acceptor
1.6.5.12 demethylphylloquinone reductase
100264660
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SSDB
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Motif
Motif
Other DBs
LinkDB
All DBs
Position
7:join(29749565..29749613,29751094..29751296,29751857..29751952,29756632..29756698,29756839..29757022,29757251..29757344,29757469..29757681,29763194..29763598,29763754..29763830,29772812..29772915,29773022..29773161)
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AA seq
543 aa AA seq DB search
MAQMALSASPTLTLFNRVSGRSKQWGMLFPGSSRKLAINMSILMNFQSKGFSFVASGATQ
WNGGVAELVEGEAASRPYTWPDKKKPRVCILGGGFGGLYTALRLESLVWPEDKKPQVLLV
DQSERFVFKPMLYELLTGEVDAWEIAPRFSDLLANTGVQFFQDRVKVLHPSDHLGMNGPT
VSSCGGTVHLESGLVIEYDWLVLALGAEAKLDVVPGAAEFALPFSTLEDACRVDNRLRTL
ERKRFGRDFPIRVAVVGCGYSGVELAATVSERLQDKGIVQAINVETTICPTAPPGNREAA
LKVLSSRNVELLLGFFVRCIRKASISEVSEKQTESGTLLDAAAEHEPEKLILELQPAERG
LQSQILEADLILWTVGSKPQLPQLEPCEWPHELPLNARGQAETDETLRVKGHPRIFAVGD
SSSLRDSKGKLLPATAQVAFQQADFAGWNLWAAINDRPLLPFRFQNLGEMMTLGRNDAAI
SPSFIEGLTLEGPIGHAARKLAYLIRLPTDEHRLKVGISWLTKSAIDSVAAVQSSVIKVL
SGS
NT seq
1632 nt NT seq +upstream nt +downstream nt
atggcacagatggctctctctgcgtcaccaacactcactctcttcaatagggtttcaggt
agatcaaaacaatgggggatgctatttcctggttcttcgagaaaacttgcaatcaatatg
tcaatacttatgaacttccagagcaaaggattcagttttgttgcttcgggtgcaacacag
tggaatggaggtgttgcagaactagtggaaggtgaagcagcatcacggccctatacatgg
ccagataagaagaagcccagagtgtgcatactaggtggcggctttggaggtttatatacg
gccttaaggctagaatcccttgtatggccagaggacaagaaacctcaggtgcttcttgtt
gatcagtctgaacgttttgtttttaagccaatgttgtatgaacttctaacgggagaagta
gatgcatgggaaatagctccgcgtttctcagatttgctggcaaacactggtgtgcagttt
ttccaagacagggtcaaagtattgcatccctctgaccatttgggaatgaacgggccaaca
gtatctagctgtggaggaaccgtccaccttgaaagtggtctggttattgaatatgactgg
ttggttcttgctttgggagctgaagccaaactggatgttgtcccaggagctgcagaattt
gcattgccattctccaccctggaggatgcatgtagggttgacaataggttaagaacttta
gagcggaagaggtttggtagagactttccgatccgagtagctgttgtaggctgtggttac
tctggagttgagttagctgccacagtatcagagaggctgcaagataaaggaatagtgcaa
gctattaatgtagagaccacaatctgcccaactgccccacctggcaatagggaagctgcc
ttaaaggtgctctcatcccgaaatgttgaacttctactgggtttctttgtccgctgtata
agaaaagctagcatttctgaagtttcagagaagcaaacagagagtggcacacttctggat
gctgcagctgagcatgagcctgaaaaacttattttggaacttcaaccagcggaaaggggc
ttacaaagtcaaattctggaagcagatttaatattatggacagttggttctaaacctcaa
cttcctcaactggaaccctgtgaatggccccatgagcttccccttaatgccaggggacaa
gctgaaacagatgaaactcttcgtgttaagggccatccacgcatatttgcagttggtgat
tcttcttctttgagggattccaaaggaaagcttcttccagcaactgcacaggttgctttt
cagcaagcagactttgctggttggaatctgtgggcagcaatcaatgaccgtcctttactg
ccatttaggtttcagaatttgggtgagatgatgactctaggaagaaatgatgctgctatt
tccccgagcttcattgaggggctaaccttggagggacctattggccatgcagcaaggaaa
ctggcatatttgatcagattgccaacagatgagcaccggctcaaagtggggatcagttgg
ctcacaaagtctgccatagattcagttgcagcagtgcagagcagtgtgatcaaagtcctt
tcgggttcttaa