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Cyanogenic Glycosides and Cyanolipids
1998The ability to produce cyanide or cyanogenesis has long been recognized in plants. At least 2650 species, from more than 550 genera, and 130 families possess the ability to make cyanogenic glycosides (Hegnauer, 1986; Seigler, 1991). Most reports of cyanogenesis are based on two simple, but reasonably specific, color tests—the Guignard (alkaline picric ...
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Cyanogenic Glycosides from Triticum monococcum.
Planta medica, 2013The cyanogenic glucosides obtained from etiolated seedlings of TRITICUM MONOCOCCUN var. HORNEMANII have been identified by chromatographic and spectroscopic techniques as linamarin, lotaustrahn and epilotaustralin.
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Recent Advances in the Chemistry of Cyanogenic Glycosides
1970The cyanogenic glycosides, here defined as glycosidic derivatives of α-hydroxynitriles, represent a rather limited class of natural products, which are widely distributed in the plant kingdom and, to a small extent, even in animals. A characteristic feature of these glycosides is their ability to release hydrocyanic acid on treatment with dilute acids ...
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Localization and catabolism of cyanogenic glycosides.
Ciba Foundation symposium, 1989The catabolism of cyanogenic glycosides is initiated by cleavage of the carbohydrate moiety by one or more beta-glycosidases, which yields the corresponding alpha-hydroxynitrile. Until recently, the mode by which cyanogenic disaccharides are hydrolysed was largely unclear.
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