Entry |
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Name |
(RefSeq) bifunctional 3-dehydroquinate dehydratase/shikimate dehydrogenase, chloroplastic
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KO |
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Organism |
vvi Vitis vinifera (wine grape)
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Pathway |
vvi00400 | Phenylalanine, tyrosine and tryptophan biosynthesis |
vvi00999 | Biosynthesis of various plant secondary metabolites |
vvi01110 | Biosynthesis of secondary metabolites |
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Module |
vvi_M00022 | Shikimate pathway, phosphoenolpyruvate + erythrose-4P => chorismate |
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Brite |
KEGG Orthology (KO) [BR:vvi00001]
09100 Metabolism
09105 Amino acid metabolism
00400 Phenylalanine, tyrosine and tryptophan biosynthesis
100248678
09110 Biosynthesis of other secondary metabolites
00999 Biosynthesis of various plant secondary metabolites
100248678
Enzymes [BR:vvi01000]
1. Oxidoreductases
1.1 Acting on the CH-OH group of donors
1.1.1 With NAD+ or NADP+ as acceptor
1.1.1.25 shikimate dehydrogenase (NADP+)
100248678
4. Lyases
4.2 Carbon-oxygen lyases
4.2.1 Hydro-lyases
4.2.1.10 3-dehydroquinate dehydratase
100248678
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SSDB |
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Motif |
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Other DBs |
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LinkDB |
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Position |
14:complement(join(4836945..4836988,4837082..4837244,4837355..4837503,4837655..4837798,4838325..4838430,4838521..4838584,4838671..4839020,4839112..4839330,4839544..4839649,4840075..4840310,4840447..4840461))
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AA seq |
531 aa
MGSLPFTVSDLQTSVSGVRSNPTLLCTPLMGTTVEQMLTEMRKAKEIGADIVEIRLDCLR
NFSPAQDLQILIKQSPLPTLVTYRPIWEGGQYEGDENKRQDALRLAMELGASYIDVELEV
AHEFNNSIYGKKPQNFKVIVSSHNFHNTPSTEAIGNLVARIQASGADIVKIATTALDITD
VARVLQVTVHSQVPTIAIVMGERGLISRLLSPKFGGYLTYGALEAGAISAPGQPTAKDLL
DLYNFRLIKPDTKVYGIIGKPVGHSKSPLLFNAAFKKVGLNAVYVHLLVDDVEKFFNTYS
APDFISGCSCTIPHKEVAIKCMDTIDPIARKIGAINNIVRKPDGKLTAFNTDYIGAIEAI
EDGLRESNGSSPAVGSPLAGKLFVVLGAGGAGKSLAYGAKEKGARVVVANRTFERAKDLA
DKVGGQALTLAEIENFHPEEGMILANTTSVGMKPKINDTPIPKHALKHYSLVFDAIYTPK
DTRLLREAKESGKIIVYGTEMLIRQGFEQYKNFTGLPAPEELFRELMSKHA |
NT seq |
1596 nt +upstreamnt +downstreamnt
atggggagcctcccatttactgtttcagatcttcagacaagtgttagtggagttaggagc
aaccccactttgctatgcaccccattgatgggtaccacagtggagcagatgctgaccgag
atgagaaaagcaaaggaaattggtgcagatattgtggaaatcaggctggattgtttgagg
aacttcagtcctgcacaagatcttcaaattcttatcaaacaatctcctttgccaactcta
gtgacttatagacctatatgggagggtggtcagtatgaaggtgatgaaaacaagcgacaa
gatgcacttcgactcgcaatggaactgggtgcaagttacattgatgttgagcttgaggtt
gctcatgaattcaataattcaatttatgggaagaagccccaaaacttcaaagtcattgtt
tcttctcacaatttccacaacaccccatctactgaggctattgggaatctggtggccaga
atccaagccagtggagctgatatagtgaagattgcaacaactgcattagacatcacagat
gtggctcgggttcttcaagtaactgtgcattctcaagttccaacaatagcaattgtcatg
ggggagaggggtttgatttcacggttacttagccccaaatttggtggatatctcacttat
ggtgcacttgaagctggtgcaatatcagctcctgggcaaccaacagccaaagacttgttg
gatttgtacaacttcaggcttattaaacccgataccaaagtatatggcatcattgggaag
cctgttggacacagcaagagtcctcttttgttcaatgcagcatttaagaaagtcggtctt
aatgctgtttatgtgcatttgctggtggatgatgttgagaagttcttcaacacctattca
gcccctgattttatctctggatgcagttgtacaatccctcacaaggaggttgcaatcaaa
tgcatggatactattgaccccattgcacggaaaattggagctattaacaatattgttagg
aaaccagatggaaagttaactgcttttaacaccgactacattggtgccatagaagccata
gaggatggactaagagaatcaaatggttcaagccctgcagttggctcacccttagccggg
aaattgttcgttgtcttgggagctggtggtgctggcaagtcactcgcttatggtgctaaa
gaaaagggagcaagagtggtagttgccaaccgaacatttgaaagagctaaggatctagct
gacaaagttgggggccaagctttgacccttgcagaaatagagaacttccacccagaagaa
gggatgattcttgcaaacactacatctgtgggaatgaaaccgaaaattaatgacactccc
attcccaagcatgctttgaagcattactccctagtatttgatgccatatacacaccaaaa
gacactagactcttgagggaagcaaaagagagtggaaaaattatagtttatgggacagag
atgttgatccgccaaggctttgaacaatacaagaacttcactggtttgcctgcccctgaa
gaattgtttagggagcttatgtcgaaacacgcataa |