Entry
Name
(RefSeq) UDP-glucose 6-dehydrogenase 5-like
KO
Organism
vun Vigna unguiculata (cowpea)
Pathway
vun00040 Pentose and glucuronate interconversions
vun00053 Ascorbate and aldarate metabolism
vun00520 Amino sugar and nucleotide sugar metabolism
vun00541 Biosynthesis of various nucleotide sugars
vun01250 Biosynthesis of nucleotide sugars
Module
vun_M00997 UDP-Xyl/L-Ara biosynthesis, UDP-Glc => UDP-Xyl => UDP-L-Ala
vun_M00999 UDP-GlcA/GalA biosynthesis, UDP-Glc => UDP-GlcA => UDP-GalA
Brite
KEGG Orthology (KO) [BR:vun00001 ]
09100 Metabolism
09101 Carbohydrate metabolism
00040 Pentose and glucuronate interconversions
114176894
00053 Ascorbate and aldarate metabolism
114176894
09107 Glycan biosynthesis and metabolism
00520 Amino sugar and nucleotide sugar metabolism
114176894
00541 Biosynthesis of various nucleotide sugars
114176894
Enzymes [BR:vun01000 ]
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
114176894
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Motif
Motif
Other DBs
LinkDB
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Position
3:complement(53859111..53861577)
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AA seq
461 aa AA seq DB search
MVKICGIGAGYVGGPTMAVIALKCPSIEVAVVDISESRISAWNSNKLPIYEPGLEEVVNQ
CRGKNLLFSTDVEKHVHEADIIFVSVNTPTKIKGLGAGKAADLTYWESAARMIAHVSNSD
KIVIEKSTVPVRTAEAIGKILTHNTKTKGINYQILSNPEFLSEGTAIQDLLNPDRVLIGG
NQDPQGLDAIQKLKAIYTHWVPQDRIITTNLWSAELSKLADNAFLAQRISSINAMSALCE
ATGAEVSQVSLALSKNTKIGPKFLNASVGFGGSCFQKDILNLVYICESNGLTEVANYWRE
VIKVNEYQKSRFVHRVVTSMFNTVSGKKIAILGFAFKKDTGDTRKTPAIDVCKGLLGDDA
CLSIYDPRVTQNQIEKDLSMSCSGVKHVNVVGDAYEATRDAHGVCILTEWDEFKTIDYER
VYENMVKPAFVFDGRNMLDVDKLRKIGFIVYSIGKPLDQCG
NT seq
1386 nt NT seq +upstream nt +downstream nt
atggtgaagatatgtggcattggagctgggtacgtggggggtcctacaatggctgtgatt
gctctgaaatgtccctcaattgaagtggctgtggttgacatctccgagtctcgcatatca
gcttggaatagcaacaaactcccaatttatgagcctggccttgaagaagtggtgaatcag
tgtagaggaaagaacctcctcttcagcaccgatgtggaaaagcacgttcatgaggcagac
ataatctttgtttcagtgaacactcccacaaaaatcaaaggacttggagctggtaaggct
gcagacttaacctattgggaaagtgcagctaggatgattgctcatgtttccaactctgat
aagattgttattgagaaatccactgtcccagtcagaacagctgaggcaattgggaaaatt
ctaactcacaacactaaaaccaagggcatcaactaccaaattctgtcaaatcctgagttt
ctctctgagggaacagctattcaggaccttctaaaccccgaccgggttctcattggaggg
aaccaagaccctcaaggtttagatgcaatccaaaagttgaaggccatatacactcattgg
gtgcctcaagacagaatcataacaaccaatttgtggtcagcagaactctccaagttagct
gataatgccttcttggctcaaaggatttcatctatcaatgcaatgtctgctttatgtgaa
gccactggggctgaagtctcacaagtttctcttgctctcagcaaaaacaccaaaattggg
ccaaagttcctcaatgccagtgttggttttggtggttcttgctttcaaaaggacatactc
aacttggtgtacatatgtgagagcaatggcctcactgaagtggcaaattattggagagaa
gtgatcaaggtgaatgagtaccagaagagtaggtttgtgcacagggttgtgacctcaatg
ttcaacacggtttctggtaagaagattgcaattctgggatttgccttcaagaaggacacc
ggtgacacaaggaaaactcctgctattgatgtttgcaaaggccttttgggagatgatgct
tgcttgagcatctatgatccacgcgttactcagaatcagattgaaaaggacttgtcaatg
agttgcagtggtgtgaaacatgttaatgttgttggagatgcttatgaggcaactagagat
gctcatggagtatgcattcttacagagtgggatgagttcaagacaattgactatgaaaga
gtgtacgagaacatggttaaaccagcattcgtgtttgatggtagaaacatgttggatgtt
gacaagttaaggaaaattggattcattgtttactcaattgggaagcctttagaccaatgt
ggctga