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Metatranscriptomic response of the wheat holobiont to decreasing soil water content

Agriculture

Metatranscriptomic response of the wheat holobiont to decreasing soil water content

P. M. Pande, H. Azarbad, et al.

This groundbreaking study by Pranav M. Pande, Hamed Azarbad, Julien Tremblay, Marc St-Arnaud, and Etienne Yergeau reveals the pivotal role of the microbiome in wheat's response to drought. Through intricate transcriptomic analysis, the research highlights the robust responses of fungal and bacterial partners in the wheat holobiont as soil water content dwindles. A must-listen for anyone interested in plant biology and sustainable agriculture!

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Playback language: English
Abstract
This study investigated the transcriptomic response of the wheat holobiont to decreasing soil water content. Wheat was grown under rainout shelters with varying precipitation levels (100%, 75%, 50%, and 25%). RNA was extracted from roots and rhizosphere and sequenced. Differential abundance analysis comparing 100% and 25% treatments revealed a stronger transcriptomic response in fungal (roots) and bacterial (rhizosphere) partners than in the plant itself. Most differentially abundant transcripts in roots belonged to fungi, while those in the rhizosphere were primarily bacterial. These findings suggest a significant role of the microbiome in the wheat plant's response to drought.
Publisher
ISME Communications
Published On
Apr 15, 2023
Authors
Pranav M. Pande, Hamed Azarbad, Julien Tremblay, Marc St-Arnaud, Etienne Yergeau
Tags
wheat holobiont
transcriptomic response
soil water content
fungi
bacteria
drought response
microbiome

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