木薯产氢制氰的可能原因及分子基础

N. K. Josphert
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引用次数: 1

摘要

木薯(Manihot esculenta)是继大米和玉米之后碳水化合物的主要来源,为超过5亿人提供基本饮食。它是一种一年生作物,属于大戟科。它生产可食用的块根块茎,主要是热带和亚热带国家的发展中国家居民的主食。这是一种非常耐旱的作物,分为苦木薯和甜木薯。然而,它会产生有毒的氰化氢(HCN)。这种蚂蚁的营养成分会导致部分瘫痪,在非洲曾造成许多家庭的死亡和灭绝。令人惊讶的是,农民们似乎更喜欢苦味的品种,因为它们淀粉含量更高,可以阻止害虫和野生动物。目前还没有足够的研究来评价木薯生产氰化氢的原因和分子基础。本文从豪猪对木薯根的取食方式、木薯的防御机制以及宏观层面上对木薯代谢的研究结果来解释木薯发蓝的分子表观遗传联系。研究结果解释了木薯加工过程中HCN的外源释放及其随后的去除。为粮食安全选择和改进木薯产品提供依据。
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Possible Causes and the Molecular Basis of Hydrogen Cyanogenesis Production in Cassava
Cassava (Manihot esculenta), is a major source of carbohydrates after rice and maize providing a basic diet to over half a billion people. It is an annual crop belonging to the family Euphorbiaceae. It produces edible root tubers which form the staple food for inhabitants in the developing world mainly in the tropical and subtropical countries. It is a very drought tolerant crop which is classified as either bitter or sweet cassava. However, it produces Hydrogen Cyanide (HCN) which is toxic. This ant nutritional component can cause partial paralysis and have been known to kill and wipe out families in Africa. It is surprising that farmers seem to prefer the bitter varieties as they are starchier, deter pests and wild animals. There have not been adequate studies to evaluate the causes and molecular basis of the production of Hydrogen cyanide by cassava. Observations of feeding patterns of porcupines on cassava roots, defense mechanisms in cassava and macro level results on cassava metabolism were hereby used to explain the molecular epigenetic link of cyanogenesis of cassava. The results explain the exogenous release and its subsequent removal of HCN during cassava processing. It shall form the basis for the selection and improvement of cassava products for food security.
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