WebJul 1, 2014 · The enzymes catalyzing the different steps are CYP79D3/4, CYP736A2, and UGT85K2/K3 in L. japonicus, and CYP79D2, CYP71E7, and UGT85K4/5 in cassava. The rhodiocyanoside locus ( Rho) in L. japonicus, involved in the production of the non-cyanogenic hydroxynitrile glucosides, rhodiocyanosides A and D, is located in the same … WebOct 1, 2024 · Darbani et al. reported that the cyanogenic glycoside (CG) gene cluster comprises four different genes: CYP79D3, CYP79D4, CYP736A2, and UGT85K3. …
(PDF) Cyanogenic Glycosides: Synthesis, Physiology, and Phenotypic ...
The genomic region surrounding CYP79D3 contains genes encoding the CYP736A2 protein and the UDP-glycosyltransferase UGT85K3. In combination with CYP79D3, these genes encode the enzymes that constitute the entire pathway for cyanogenic glucoside biosynthesis. WebAug 7, 2015 · Therefore CYP736A2 catalyses the second step in the pathway for biosynthesis of the majority of α-HNGs in both leaves and flowers. The remaining α-HNG biosynthesis may be attributed to an unidentified cytochrome P450 enzyme that is most active for catalysis of the second step of rhodiocyanoside biosynthesis (Takos et al. … how is melina characterized on page 144
Biosynthesis and regulation of cyanogenic glycoside …
WebMar 29, 2024 · Darbani et al. reported that the cyanogenic glycoside (CG) gene cluster comprises four different genes: CYP79D3, CYP79D4, CYP736A2, and UGT85K3. Another study showed that SbMATE2, which encodes a transporter that is required for the transport of non-endogenous CGs, is located within the same cluster in Sorghum bicolor WebMar 3, 2024 · More recently, Lai et al. [ 24] combined the CYP79D71 gene from lima bean ( Phaseolus lunatus) with the CYP736A2 and UGT85K3 genes from Lotus japonicus to have the complete set of enzymes required for the synthesis of linamarin and lotaustralin, two CNglcs derived from Val and Ile, respectively. WebAug 2, 2024 · The CYP-mediated molecular oxygen activation can lead to the formation of alcohols, ketones, aldehydes, carboxylic acids, and epoxides, but other types of reactions, such as oxidative rearrangement of carbon skeletons (e.g., Nasomjai et al., 2009 ), oxidative C–C bond cleavage (e.g., Irmler et al., 2000 ), dehydration (e.g., Hansen et al., 2024 … how is melchizedek related to jesus