水盐胁迫耐受的生物技术。

Biotechnology of water and salinity stress tolerance.

机构信息

Instituto de Recursos Naturales y Agrobiologia (IRNASE), Consejo Superior de Investigaciones Cientificas, Reina Mercedes, 10. Sevilla - 41012, Spain.

出版信息

Curr Opin Biotechnol. 2010 Apr;21(2):185-96. doi: 10.1016/j.copbio.2010.02.005. Epub 2010 Feb 26.

DOI:10.1016/j.copbio.2010.02.005

PMID:20189794

Abstract

Drought and salinity are among the environmental factors that constrain agricultural productivity most dramatically. Classical breeding programs aiming to improve stress tolerance have been hampered by the multigenic nature of the trait and the seemingly scarce natural genetic variability in crop plants. Novel genetic determinants governing the function of stomata and improving the performance of plants under water shortage have been identified and show promise of application in crops. Moreover, receptors of the stress hormone abscisic acid have been characterized and their interplay with key regulatory components is being understood. A critical factor of salinity tolerance in plants is the ability to exclude Na(+) from the shoot, and the modification of specific Na(+) transport processes has yielded enhanced salinity tolerance.

摘要

干旱和盐度是严重限制农业生产力的环境因素之一。旨在提高抗逆性的经典育种计划受到性状的多基因性质和作物中似乎稀缺的天然遗传变异性的阻碍。控制气孔功能和提高植物在缺水条件下性能的新型遗传决定因素已经被确定，并有望在作物中得到应用。此外，应激激素脱落酸的受体已经被描述，并且它们与关键调节成分的相互作用正在被理解。植物耐盐性的一个关键因素是从地上部分排除 Na(+)的能力，并且特定 Na(+)运输过程的修饰已经产生了增强的耐盐性。

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水盐胁迫耐受的生物技术。

Biotechnology of water and salinity stress tolerance.

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