Macroscopic variation in Arabidopsis mutants despite stomatal uniformity across soil nutrient environments.

IF 1.3 4区生物学 Q4 GENETICS & HEREDITY

Genetica Pub Date : 2021-12-01 Epub Date: 2021-10-04 DOI:10.1007/s10709-021-00133-7

Jamison Lee, Courtney J Murren

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引用次数: 1

Abstract

Stomata are essential pores flanked by guard cells that control gas exchange in plants. We can utilize stomatal size and density measurements as a proxy for a plant's capacity for gas exchange. While stomatal responses to stressful environments are well studied; data are lacking in the responses across mutant genotypes of the same species in these trait and treatment interactions or genetic variation in phenotypic plasticity. We evaluated the effects of soil nutrient variation on macroscopic and stomatal traits of Arabidopsis thaliana T-DNA insertion mutants for which prior performance in a single benign growing condition were available. Nutrient-induced stress significantly impacted traits including plant biomass, height, fruit number, and leaf number which we denote as macroscopic traits. We found evidence that genotype by environment effects exist for macroscopic traits, yet total stomatal area variation, or "microscopic variation" across environments was modest. Divergence from the wildtype line varied by mutant background and these responses were variable among traits. These findings suggest that Arabidopsis employs a strategy of physiological compensation, sacrificing morphological traits to maintain stomatal production.

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拟南芥突变体在不同土壤养分环境下气孔均匀性的宏观变化。

气孔是植物中必不可少的气孔，两侧是控制气体交换的保护细胞。我们可以利用气孔大小和密度测量作为植物气体交换能力的代表。虽然气孔对压力环境的反应得到了很好的研究;在这些性状和处理的相互作用或表型可塑性的遗传变异中，同一物种的突变基因型之间的反应缺乏数据。我们评估了土壤养分变化对拟南芥T-DNA插入突变体宏观性状和气孔性状的影响，这些突变体在单一良性生长条件下具有良好的表现。营养胁迫对植物生物量、株高、果数和叶数等宏观性状有显著影响。我们发现，宏观性状的基因型受环境影响，但总气孔面积的变化，或“微观变异”在不同环境中是适度的。与野生型系的分化因突变体背景不同而不同，这些反应在性状上也不同。这些发现表明拟南芥采用生理补偿策略，牺牲形态特征来维持气孔产生。

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

Genetica 生物-遗传学

CiteScore

2.70

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Genetica publishes papers dealing with genetics, genomics, and evolution. Our journal covers novel advances in the fields of genomics, conservation genetics, genotype-phenotype interactions, evo-devo, population and quantitative genetics, and biodiversity. Genetica publishes original research articles addressing novel conceptual, experimental, and theoretical issues in these areas, whatever the taxon considered. Biomedical papers and papers on breeding animal and plant genetics are not within the scope of Genetica, unless framed in an evolutionary context. Recent advances in genetics, genomics and evolution are also published in thematic issues and synthesis papers published by experts in the field.