Entry
Name
(RefSeq) UDP-glucose 6-dehydrogenase 1
KO
Organism
csv Cucumis sativus (cucumber)
Pathway
csv00040 Pentose and glucuronate interconversions
csv00053 Ascorbate and aldarate metabolism
csv00520 Amino sugar and nucleotide sugar metabolism
csv00541 Biosynthesis of various nucleotide sugars
csv01250 Biosynthesis of nucleotide sugars
Module
csv_M00997 UDP-Xyl/L-Ara biosynthesis, UDP-Glc => UDP-Xyl => UDP-L-Ala
csv_M00999 UDP-GlcA/GalA biosynthesis, UDP-Glc => UDP-GlcA => UDP-GalA
Brite
KEGG Orthology (KO) [BR:csv00001 ]
09100 Metabolism
09101 Carbohydrate metabolism
00040 Pentose and glucuronate interconversions
101206505
00053 Ascorbate and aldarate metabolism
101206505
09107 Glycan biosynthesis and metabolism
00520 Amino sugar and nucleotide sugar metabolism
101206505
00541 Biosynthesis of various nucleotide sugars
101206505
Enzymes [BR:csv01000 ]
1. Oxidoreductases
1.1 Acting on the CH-OH group of donors
1.1.1 With NAD+ or NADP+ as acceptor
1.1.1.22 UDP-glucose 6-dehydrogenase
101206505
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Motif
Motif
Other DBs
LinkDB
All DBs
Position
1:1751448..1754803
Genome browser
AA seq
480 aa AA seq DB search
MVKICCIGAGYVGGPTMAVIALKCPTIEVAVVDISVAKILAWNSDQLPIYEPGLDEVVKQ
CRGKNLFFSTDVERHVSEADIIFVSVNTPTKTRGLGAGKAADLTYWESAARMIADVSKTD
KIVVEKSTVPVKTAEAIEKILTHNSKGIKYQILSNPEFLAEGTAIKDLFNPDRVLIGGRE
TPDGLKAIQALKSVYAQWVPDERILTTNLWSAELSKLAANAFLAQRISSINAMSALCEAT
GADVSQVSHAVGKDTRIGPKFLNASVGFGGSCFQKDILNLIYICECNGLNEVAGYWKQVI
KVNDYQKNRFVNRVVSSMFNTVSGKKIAILGFAFKKDTGDTRETPAIDVCKGLLGDKAKL
SVYDPQVTADQIQRDLSMNKFDWDHPIHLQPVSPTAAKEVSFAWDPYEATKDAHGVCILT
EWDEFKTLDFQRIFKQMQKPAFVFDGRNVVDVQKLREIGFIVYSIGKPLDPWLKDMPVMA
NT seq
1443 nt NT seq +upstream nt +downstream nt
atggtgaagatctgctgcattggagctgggtatgttggtgggcctactatggcagtgata
gcattaaaatgtcccacaattgaagtagcagttgttgatatctctgtcgcgaagatctta
gcctggaatagtgatcaactccccatatatgagcctggtcttgatgaagtagtgaagcag
tgcagaggaaagaatctatttttcagtacagatgttgaaaggcacgtctcagaggcagat
ataatctttgtttcagttaacactccaacaaaaactcgaggccttggagctggaaaagct
gcagatctcacctattgggagagtgcggccaggatgattgccgatgtatcgaaaacagac
aagattgttgttgaaaaatcaactgttccagttaaaacagctgaggcaatagaaaagatc
cttactcacaacagcaaaggaatcaaatatcagattctatcaaatccagagttccttgct
gagggtactgctattaaagatttatttaatcccgacagggttctcataggaggaagagaa
actccggatggtctcaaggcaattcaggctttgaagagtgtatatgcccagtgggtgcct
gatgaaagaattctcaccacgaatctgtggtcagcagagctctcaaagttagctgctaat
gcatttttggctcaaaggatctcttctatcaatgccatgtcagcactctgtgaggctact
ggtgcagatgtgtcacaggtatcccacgctgttgggaaagataccagaattggacccaag
ttcctaaatgctagtgtcggttttggtggatcgtgttttcagaaggacattctcaatttg
atttatatttgtgaatgcaatggcttgaatgaagttgcagggtactggaaacaagtgata
aaggtcaacgactaccaaaagaatcgatttgtgaaccgggttgtctcttcaatgttcaat
acagtttcaggaaaaaagatagcgatccttggatttgctttcaagaaagatacaggtgac
acaagggaaactccagcaattgatgtctgtaagggacttttaggggacaaggcaaaactg
agtgtatatgatccacaagtaactgcggatcagattcaaagggacttgtctatgaacaag
tttgattgggaccatccaatccacttgcagccagtgagcccaactgcagcaaaggaagtc
agttttgcttgggacccatatgaggcgactaaagatgctcatggagtctgcattctaact
gaatgggatgaattcaagactcttgattttcaaaggatttttaaacaaatgcagaaacct
gcatttgtctttgacggcagaaatgttgttgatgttcaaaagctgagggagattggattc
atagtgtattccattggaaaaccactggatccatggctcaaggatatgcctgttatggca
tag