Abstract: | Cassava is the most agronomically important of the cyanogeniccrops. Linamarin, the predominant cyanogenic glycoside in cassava,can accumulate to concentrations as high as 500 mg kg1fresh weight in roots and to higher levels in leaves. Recently,the pathway of linamarin synthesis and the cellular site oflinamarin storage have been determined. In addition, the cyanogenicenzymes, linamarase and hydroxynitrile lyase, have been characterizedand their genes cloned. These results, as well as studies onthe organ- and tissue-specific localization of linamarase andhydroxy-nitrile lyase, allow us to propose models for the regulationof cyanogenesis in cassava. There remain, however, many unansweredquestions regarding the tissue-specific synthesis, transport,and accumulation of cyanogenic glycosides. The resolution ofthe sequestions will facilitate the development of food processing,biochemical and transgenic plant approaches to reducing thecyanogen content of cassava foods. Key words: Cyanide, cyanogenic glycosides, linamarin, cyanogens |