Recent molecular breeding advances for improving aluminium tolerance in maize and sorghum.

Molecular breeding in wheat, maize and sorghum: strategies for improving abiotic stress tolerance and yield Pub Date : 1900-01-01 DOI:10.1079/9781789245431.0018

C. T. Guimarães, J. Magalhaes

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引用次数: 1

Abstract

Abstract Citrate transporters belonging to the multidrug and toxic compound extrusion (MATE) family of membrane transporters in sorghum and maize, SbMATE and ZmMATE1, respectively, play a major role in aluminium (Al) tolerance. However, these MATE members show regulatory differences, as well as peculiarities in their genetic effect and mode of action. These aspects, which are discussed in this chapter, have to be considered to design successful breeding programmes in order to achieve maximum Al tolerance and, consequently, to improve grain and biomass production in regions of the world with Al toxicity. As shown in this chapter, target genes with major effects and molecular tools are available for marker-assisted breeding for improving Al tolerance both in sorghum and maize. However, wide adaptation to acid soils should be sought by pyramiding genes controlling different traits such as drought tolerance, P acquisition, resistance to diseases and other stresses commonly found in each agroecological environment.

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提高玉米和高粱耐铝性的分子育种新进展。

枸橼酸转运体属于高粱和玉米的多药毒性复合挤压(MATE)膜转运体家族，分别为SbMATE和ZmMATE1，在铝(Al)耐受性中起主要作用。然而，这些MATE成员在其遗传效应和作用方式上表现出调控差异以及独特性。本章讨论的这些方面必须加以考虑，以便设计成功的育种方案，以实现最大限度的铝耐受性，从而改善世界上有铝毒性地区的粮食和生物量生产。如本章所示，具有主要效应的靶基因和分子工具可用于提高高粱和玉米耐铝性的标记辅助育种。然而，对酸性土壤的广泛适应应该通过控制不同性状的基因来寻求，如抗旱性、磷获取、抗病性和在每种农业生态环境中常见的其他胁迫。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Molecular breeding in wheat, maize and sorghum: strategies for improving abiotic stress tolerance and yield

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