谷类作物固氮模型。

A Model for Nitrogen Fixation in Cereal Crops.

机构信息

Department of Plant Sciences, University of California, Davis, CA, USA.

Department of Agronomy, University of Wisconsin-Madison, Madison, WI, USA.

出版信息

Trends Plant Sci. 2020 Mar;25(3):226-235. doi: 10.1016/j.tplants.2019.12.004. Epub 2020 Jan 15.

DOI:10.1016/j.tplants.2019.12.004

PMID:31954615

Abstract

Nitrogen-fixing microbial associations with cereals have been of intense interest for more than a century (Roesch et al., Plant Soil 2008;302:91-104; Triplett, Plant Soil 1996;186:29-38; Mus et al., Appl. Environ. Microbiol. 2016;82:3698-3710; Beatty and Good, Science 2011;333:416-417). A recent report demonstrated that an indigenous Sierra Mixe maize landrace, characterized by an extensive development of aerial roots that secrete large amounts of mucilage, can acquire 28-82% of its nitrogen from atmospheric dinitrogen (Van Deynze et al., PLoS Biol. 2018;16:e2006352). Although the Sierra Mixe maize landrace is unique in the large quantity of mucilage produced, other cereal crops secrete mucilage from underground and aerial roots and we hypothesize that this may represent a general mechanism for cereals to support associations with microbial diazotrophs. We propose a model for the association of nitrogen-fixing microbes with maize mucilage and identify the four main functionalities for such a productive diazotrophic association.

摘要

固氮微生物与谷物的共生关系已经引起了一个多世纪的强烈关注（Roesch 等人，《植物土壤》2008 年；302:91-104；Triplett，《植物土壤》1996 年；186:29-38；Mus 等人，《应用环境微生物学》2016 年；82:3698-3710；Beatty 和 Good，《科学》2011 年；333:416-417）。最近的一份报告表明，一种土生土长的 Sierra Mixe 玉米地方品种，其特点是大量发育的气生根分泌大量黏液，可以从大气氮中获得 28-82%的氮（Van Deynze 等人，《公共科学图书馆生物学》2018 年；16:e2006352）。虽然 Sierra Mixe 玉米地方品种在产生大量黏液方面是独一无二的，但其他谷物作物也从地下和气生根分泌黏液，我们假设这可能代表了谷物与微生物固氮生物共生的一种普遍机制。我们提出了一个固氮微生物与玉米黏液共生的模型，并确定了这种高效固氮共生的四个主要功能。

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谷类作物固氮模型。

A Model for Nitrogen Fixation in Cereal Crops.

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