豆类品尝者:共生根瘤菌宿主偏好和智能接种剂配方

Q3 Agricultural and Biological Sciences
L. Cangioli, A. Checcucci, A. Mengoni, C. Fagorzi
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引用次数: 4

摘要

共生相互作用在生态学中具有重要意义,遗传信息通过共生伙伴内部以及伙伴与环境之间的相互作用形成。众所周知,宿主相关微生物组的变化有助于缓冲宿主在面对不同环境条件时的生理适应挑战。在农业中,关键的例子是共生固氮根瘤菌,已知对寄主(豆科植物)的适应和寄主生产力有很大贡献。提高作物产量和抵抗生物和非生物胁迫的整体观点是微生物组工程,通过合理设计操纵合成微生物群落来开发与宿主相关的微生物组。然而,一些研究强调,宿主中所需表型的表达存在于共生伙伴之间的物种特异性甚至基因型特异性相互作用中。因此,有必要剖析这种亲密的相互作用水平,旨在确定双方在共生差异/宿主偏好中发挥作用的主要遗传成分。本文在综述植物-微生物相互作用和根瘤菌研究进展及面临的挑战的基础上,旨在促进根瘤菌与寄主植物基因型x基因型相互作用的研究,为合理设计合成共生固氮微生物群落,实现豆科植物产量的可持续提高提供依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Legume tasters: symbiotic rhizobia host preference and smart inoculant formulations
Mutualistic interactions have great importance in ecology, with genetic information that takes shape through interactions within the symbiotic partners and between the partners and the environment. It is known that variation of the host-associated microbiome contributes to buffer adaptation challenges of the host’s physiology when facing varying environmental conditions. In agriculture, pivotal examples are symbiotic nitrogen-fixing rhizobia, known to contribute greatly to host (legume plants) adaptation and host productivity. A holistic view of increasing crop yield and resistance to biotic and abiotic stresses is that of microbiome engineering, the exploitation of a host-associated microbiome through its rationally designed manipulation with synthetic microbial communities. However, several studies highlighted that the expression of the desired phenotype in the host resides in species-specific, even genotype-specific interactions between the symbiotic partners. Consequently, there is a need to dissect such an intimate level of interaction, aiming to identify the main genetic components in both partners playing a role in symbiotic differences/host preferences. In the present paper, while briefly reviewing the knowledge and the challenges in plant–microbe interaction and rhizobial studies, we aim to promote research on genotype x genotype interaction between rhizobia and host plants for a rational design of synthetic symbiotic nitrogen-fixing microbial communities to be used for sustainably improving leguminous plants yield.
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来源期刊
Biological Communications
Biological Communications Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
1.70
自引率
0.00%
发文量
21
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