| ULS00368 |
dhurrin from L-tyrosine |
None - {{∅}} |
None - {{∅}} |
Unexplained |
|
| UER00744 |
dhurrin from L-tyrosine: step 1/3~2 H(+) + 1 L-tyrosine + 2 NADPH + 2 O(2) => 1 (Z)-(4-hydroxyphenyl)acetaldehyde oxime + 1 CO(2) + 3 H(2)O + 2 NADP(+). |
None - {{∅}} |
None - {{∅}} |
Unexplained |
|
| UER00745 |
dhurrin from L-tyrosine: step 2/3~1 (Z)-(4-hydroxyphenyl)acetaldehyde oxime + 1 H(+) + 1 NADPH + 1 O(2) => 1 (S)-4-hydroxymandelonitrile + 2 H(2)O + 1 NADP(+). |
None - {{∅}} |
None - {{∅}} |
Unexplained |
|
| UER00746 |
dhurrin from L-tyrosine: step 3/3~1 (S)-4-hydroxymandelonitrile + 1 UDP-alpha-D-glucose => 1 UDP + 1 dhurrin. |
None - {{∅}} |
None - {{∅}} |
Unexplained |
|
| UPA00757 |
dhurrin biosynthesis~Biosynthesis of dhurrin, a tyrosine derived cyanogenic glucoside. Dhurrin functions as a plant defense compound. Cyanogenic glucosides are amino-acid-derived natural products. The ability to synthesize these glucosides is common across many plant genera, including several plant species that are important crop plants like sorghum (Sorghum bicolor), cassava (Manihot esculenta), flax (Linum usitatissimum) and almonds (Prunus dulcis). . |
None - {{∅}} |
None - {{∅}} |
Unexplained |
|