作物的硫胺素生物强化

Thiamin biofortification of crops.

作者信息

Goyer Aymeric

机构信息

Department of Botany and Plant Pathology, Oregon State University, Corvallis, OR 97330, United States; Hermiston Agricultural Research and Extension Center, Oregon State University, Hermiston, OR 97838, United States.

出版信息

Curr Opin Biotechnol. 2017 Apr;44:1-7. doi: 10.1016/j.copbio.2016.09.005. Epub 2016 Oct 14.

DOI:10.1016/j.copbio.2016.09.005

PMID:27750185

Abstract

Thiamin is essential for human health. While plants are the ultimate source of thiamin in most human diets, staple foods like white rice have low thiamin content. Therefore, populations whose diets are mainly based on low-thiamin staple crops suffer from thiamin deficiency. Biofortification of rice grain by engineering the thiamin biosynthesis pathway has recently been attempted, with up to 5-fold increase in thiamin content in unpolished seeds. However, polished seeds that retain only the starchy endosperm had similar thiamin content than that of non-engineered plants. Various factors such as limited supply of precursors, limited activity of thiamin biosynthetic enzymes, dependence on maternal tissues to supply thiamin, or lack of thiamin stabilizing proteins may have hindered thiamin increase in the endosperm.

摘要

硫胺素对人体健康至关重要。虽然植物是大多数人类饮食中硫胺素的最终来源，但像白米这样的主食硫胺素含量较低。因此，饮食主要基于低硫胺素主食作物的人群会患硫胺素缺乏症。最近有人尝试通过改造硫胺素生物合成途径对水稻籽粒进行生物强化，未加工种子中的硫胺素含量最多可增加5倍。然而，仅保留淀粉质胚乳的精米种子的硫胺素含量与未经过基因工程改造的植物相似。诸如前体供应有限、硫胺素生物合成酶活性有限、依赖母体组织供应硫胺素或缺乏硫胺素稳定蛋白等各种因素可能阻碍了胚乳中硫胺素含量的增加。

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作物的硫胺素生物强化

Thiamin biofortification of crops.

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