Abstract
β- and γ-Hydroxynitrile glucosides are structurally related to cyanogenic glucosides (α-hydroxynitrile glucosides) but do not give rise to hydrogen cyanide release upon hydrolysis. Structural similarities and frequent co-occurrence suggest that the biosynthetic pathways for these compounds share common features. Based on available literature data we propose that oximes produced by CYP79 orthologs are common intermediates and that their conversion into β- and γ-hydroxynitrile glucosides is mediated by evolutionary diversified multifunctional orthologs to CYP71E1. We designate these as CYP71 βγ and CYP71 αβγ; in combination with the classical CYP71 α (CYP71E1 and orthologs) these are able to hydroxylate any of the carbon atoms present in the amino acid and oxime derived nitriles. Subsequent dehydration reactions and hydroxylations and a final glycosylation step afford the unsaturated β- and γ-hydroxynitrile glucosides. This scheme would explain the distribution patterns of α-, β- and γ-hydroxynitrile glucosides found in plants. The possible biological functions of these hydroxynitriles are discussed.
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