Nutritionally Enhanced Staple Food Crops

Plant breeding reviews Pub Date : 2012-09-26 DOI:10.1002/9781118358566.CH3

S. Dwivedi, K. Sahrawat, K. Rai, M. Blair, Meike S. Andersson, W. Pfeiffer

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引用次数: 73

Abstract

Crop biofortification is a sustainable and cost-effective strategy to address malnutrition in developing countries. This review synthesizes the progress toward developing seed micronutrient-dense cereals and legumes cultivars by exploiting natural genetic variation using conventional breeding and/or transgenic technology, and discusses the associated issues to strengthen crop biofortification research and development. Some major QTL for seed iron and zinc, seed phosphorus, and seed phytate in common bean, rice,J;md wheat have been mapped. An iron reductase QTL associated with seed-iron ~QTL is found in common bean where the genes coding for candidate enzymes involved in phytic acid synthesis have also been mapped. Candidate genes for Ipa co segregate with mutant phenotypes identified in rice and soybean. The Gpe-B1 locus in wild emmer wheat accelerates senescence and increases nutrient remobilization from leaves to developing seeds, and another gene named TtNAM-B1 affecting these traits has been cloned. Seed iron-dense common bean and rice in Latin America; seed iron-dense common bean in eastern and southern Africa;.....

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营养增强的主粮作物

作物生物强化是解决发展中国家营养不良问题的一项可持续和具有成本效益的战略。本文综述了利用常规育种和/或转基因技术利用自然遗传变异培育种子型微量营养素密集的谷物和豆类品种的研究进展，并讨论了加强作物生物强化研究与开发的相关问题。已绘制了蚕豆、水稻、小麦和小麦种子铁锌、磷和植酸的主要QTL图谱。在普通豆中发现了一个与种子铁相关的铁还原酶QTL，并定位了参与植酸合成的候选酶的编码基因。在水稻和大豆中发现Ipa候选基因与突变型共分离。野生二粒小麦的Gpe-B1基因座加速了小麦衰老，增加了叶片向发育中的种子的养分再运输，而另一个影响这些性状的基因TtNAM-B1也被克隆出来。拉丁美洲的铁密集的普通豆和水稻种子;非洲东部和南部的一种铁密集的普通豆;.....

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Plant breeding reviews

CiteScore

2.60

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0.00%

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