Metabolic and genetic responses to simulated overwintering conditions of alfalfa-rhizobia associations contrasted in their freezing tolerance

IF 2.1 3区生物学 Q3 MICROBIOLOGY

Symbiosis Pub Date : 2023-07-01 DOI:10.1007/s13199-023-00939-3

Emmanuelle D’Amours, Annick Bertrand, Jean Cloutier, Annie Claessens, Solen Rocher, Philippe Seguin

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Abstract

Abstract The study of winter stress tolerance in perennial legumes needs to consider the complete symbiotic system including both plants and bacteria since these two partners are differentially affected by stress conditions. Here, we compared the regrowth after a freezing stress of four different associations of two alfalfa populations differing in freezing tolerance (A-TF0 and A-TF7) inoculated with two Sinorhizobium (Ensifer) meliloti strains (B399 and NRG34) of contrasted adaptation to cold. To understand the contribution of each partner to a better regrowth performance of an association after freezing, we identified molecular traits having major roles in cold acclimation, freezing tolerance, and those involved in the crosstalk between alfalfa and its symbiotic partner. Regrowth after exposure to a freezing stress was 35% larger in the A-TF7 × NRG34 than in the A-TF0 × B399 association. The metabolomic study of roots, crowns and, more specifically, nodules, revealed profound changes in these organs, switching from a sink to support cold acclimation to a source of reserves enabling regrowth after deacclimation. Marked increases in concentrations of stachyose and raffinose, two sugars of the raffinose-family oligosaccharides (RFO), and in the expression level of a gene of the RFO synthetic pathway were observed in response to cold acclimation supporting the importance of a protective role for RFO in alfalfa. Both cold-adapted partners of the symbiotic association contributed to increases in arginine concentration in nodules in response to cold acclimation and deacclimation underscoring the importance of N storage and remobilization for a successful overwintering in alfalfa.

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在模拟越冬条件下，苜蓿-根瘤菌组合的代谢和遗传反应在抗冻性方面进行了对比

摘要:多年生豆科植物的耐冬性研究需要考虑包括植物和细菌在内的完整的共生系统，因为这两个伙伴受胁迫条件的影响是不同的。本研究比较了两个抗冻性不同的苜蓿群体(a - tf0和a - tf7)接种两种不同抗冻性的Sinorhizobium (Ensifer) meliloti菌株(B399和NRG34)后的4种不同组合在低温胁迫下的再生情况。为了了解每个伙伴在冷冻后对更好的结合体再生性能的贡献，我们确定了在苜蓿及其共生伙伴之间的冷驯化、抗冻性和串扰中起主要作用的分子性状。冷冻胁迫后，a - tf7 × NRG34的再生能力比a - tf0 × B399的再生能力高35%。对根、冠，特别是根瘤的代谢组学研究揭示了这些器官的深刻变化，从支持冷驯化的汇转变为支持脱驯化后再生的储备来源。在低温驯化条件下，紫花苜蓿的水苏糖和棉子糖(RFO家族的两种糖)的浓度显著增加，RFO合成途径的一个基因的表达水平也显著增加，这表明RFO在紫花苜蓿中具有重要的保护作用。这两个共生关系的冷适应伙伴都有助于提高根瘤中精氨酸浓度，以响应冷驯化和去驯化，强调氮储存和再动员对苜蓿成功越冬的重要性。

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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来源期刊

Symbiosis 生物-微生物学

CiteScore

4.80

自引率

8.00%

发文量

审稿时长

>12 weeks

期刊介绍： Since 1985, Symbiosis publishes original research that contributes to the understanding of symbiotic interactions in a wide range of associations at the molecular, cellular and organismic level. Reviews and short communications on well-known or new symbioses are welcomed as are book reviews and obituaries. This spectrum of papers aims to encourage and enhance interactions among researchers in this rapidly expanding field. Topics of interest include nutritional interactions; mutual regulatory and morphogenetic effects; structural co-adaptations; interspecific recognition; specificity; ecological adaptations; evolutionary consequences of symbiosis; and methods used for symbiotic research.