Endophytic microbiome variation among single plant seeds

IF 3.3 3区 生物学 Q2 MICROBIOLOGY
A. Bintarti, A. Sulesky-Grieb, N. Stopnisek, A. Shade
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引用次数: 19

Abstract

Like other plant compartments, the seed harbors a microbiome. Seed microbiome members are the first to colonize a germinating seedling, and they may initiate the trajectory of microbiome assembly for the next plant generation. Therefore, the members of the seed microbiome are important for the dynamics of plant microbiome assembly and the vertical transmission of potentially beneficial symbionts. However, it remains challenging to assess the microbiome at the individual seed level (and, therefore, for the future individual plants) due to low endophytic microbial biomass, seed exudates that can select for particular members, and high plant and plastid contamination of resulting reads. Here, we report a protocol for extracting microbial DNA from an individual seed (common bean, Phaseolus vulgaris L.) with minimal disruption of host tissue, which we expect to be generalizable to other medium- and large-seed plant species. We applied this protocol to determine the 16S rRNA V4 and rRNA ITS2 amplicon composition and examine the variability of individual seeds harvested from replicate common bean plants grown under standard, controlled conditions to maintain health. Using DNA extractions from individual seeds, we compared seed-to-seed, pod-to-pod, and plant-to-plant microbiomes, and found highest microbiome variability at the plant level. This suggests that several seeds from the same plant could be pooled for microbiome assessment, given experimental designs that apply treatments at the parent plant level. This study adds protocols and insights to the growing toolkit of approaches to understand the plant-microbiome engagements that support the health of agricultural and environmental ecosystems.
单株种子内生微生物组的变异
和其他植物隔室一样,种子也有微生物群。种子微生物组成员是第一个定植发芽幼苗的,它们可能启动下一代植物微生物组组装的轨迹。因此,种子微生物组的成员对于植物微生物组组装的动态和潜在有益共生体的垂直传播是重要的。然而,由于内生微生物生物量低,种子分泌物可以选择特定的成员,以及结果读取的高植物和质体污染,在单个种子水平(因此,对于未来的单个植物)评估微生物组仍然具有挑战性。在这里,我们报告了一种从单个种子(普通豆,Phaseolus vulgaris L.)中提取微生物DNA的方案,该方案对宿主组织的破坏最小,我们希望该方案可推广到其他中型和大型种子植物物种。我们应用该方案确定了16S rRNA V4和rRNA ITS2扩增子的组成,并检查了在标准控制条件下生长的复制普通豆植株收获的单个种子的变异性。利用单个种子的DNA提取,我们比较了种子到种子、豆荚到豆荚以及植物到植物的微生物组,发现植物水平上微生物组的变异性最高。这表明,如果实验设计在亲本植物水平上施用处理,可以将同一植物的几粒种子集中起来进行微生物组评估。这项研究为不断增长的方法工具包增加了协议和见解,以了解支持农业和环境生态系统健康的植物-微生物组参与。
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
CiteScore
7.40
自引率
6.80%
发文量
42
审稿时长
4 weeks
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