大豆铁元素吸收转运和利用生理与分子机制研究进展
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作者:
作者单位:

安徽农业大学农学院,合肥230036

作者简介:

研究方向为大豆耐逆遗传育种,Email:15705652352@163.com

通讯作者:

李佳佳,研究方向为大豆耐逆遗传育种,Email: lijia6862@163.com
王晓波,研究方向为大豆分子遗传育种,Email: wxbphd@163.com。

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基金项目:

国家重点研发计划项目(2021YFD1201603-4);安徽省自然科学基金项目(2208085MC61);安徽省高校自然科学研究项目(KJ2021A0200);安徽省现代农业产业技术体系建设专项;安徽农业大学引进与稳定人才项目(yj2018-38)


Research Progress on Physiological and Molecular Mechanisms of Absorption, Transport and Utilization of Iron in Soybean
Author:
Affiliation:

College of Agriculture, Anhui Agricultural University, Hefei 230036

Fund Project:

Foundation projects: National Key Research and Development Program of China (2021YFD1201603-4); Natural Science Foundation of Anhui Province (2208085MC61);Natural Science Research Project of Colleges and Universities in Anhui Province (KJ2021A0200); Special Fund for Anhui Agriculture Research System; Talent Introduction and Stabilization Project of Anhui Agricultural University (yj2018-38)

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    摘要:

    铁是植物细胞生命过程中必不可少的微量元素之一,参与呼吸作用、叶绿素生物合成、光合作用等生命过程。土壤中含有大量的铁元素,但是有效铁的利用受到限制,导致植物缺铁,而植株缺铁直接关系到其生长发育和花粉活力及品质形成,进而造成产量损失。解决该问题的重要举措在于提高大豆对铁元素的吸收转运和高效利用。因此,掌握大豆铁吸收转运和利用规律并明确其分子遗传机制是实现大豆铁营养高效的重要前提。铁营养高效性属于数量性状,受多基因控制,基于其相关功能基因研究培育“高铁大豆”是未来热点之一;此外,通过轮回选择和定向选择也可以有效改良大豆的缺铁失绿症。基于此,本文重点阐述了铁元素在大豆体内的作用、吸收、分配和转运及其过剩产生的毒害现象以及铁元素参与大豆固氮作用,缺铁和高铁对大豆生长发育的影响等内容,并综述了国内外大豆铁元素吸收、转运机制和分子调控机理方面的进展及重要科学问题,旨在为大豆铁营养高效利用提供理论信息。

    Abstract:

    Iron is one of the essential trace elements in the life process of plant cells, which is involved in respiration, chlorophyll biosynthesis, photosynthesis and other life processes. The soil contains a large amount of iron, but the use of available iron is limited, which leads to iron deficiency in plants. Iron deficiency in plants is directly related to their growth and development, pollen viability and quality formation, resulting in yield loss. An important measure to solve this problem is to improve the absorption and efficient utilization of iron in soybeans. Therefore, mastering the law of soybean iron absorption and utilization and clarifying the molecular genetic mechanism behind it are important prerequisites for achieving efficient utilization of iron in soybean. The high efficiency of iron nutrition is a quantitative trait controlled by multiple genes. Research and cultivation of “high-iron soybean” based on its related functional genes is one of the future hotspots. In addition, iron deficiency chlorosis in soybeans can be effectively improved through cycle selection and targeted selection. Based on this, this study focuses on the role, absorption, distribution, and transportation of iron in soybean, as well as the toxic phenomena caused by excess. It also discusses the involvement of iron in soybean nitrogen fixation, and the effects of iron deficiency and high iron on soybean growth and development. The progress and important scientific problems of iron absorption, transport mechanism and molecular regulation mechanism in soybean at home and abroad are reviewed in order to provide theoretical information for the efficient utilization of iron nutrition in soybean.

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鲁云,姚术,胡晓渝,等.大豆铁元素吸收转运和利用生理与分子机制研究进展[J].植物遗传资源学报,2024,25(12):2020-2030.

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  • 收稿日期:2024-02-07
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  • 在线发布日期: 2024-12-06
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