Variability in drought gene expression datasets highlights the need for paired physiology and community standardization
Robert VanBuren, Annie Nguyen, Rose A Marks, Catherine Mercado, Anna Pardo, Jeremy Pardo, Jenny Schuster, Brian St. Aubin, Mckena Lipham Wilson, Seung Y Rhee

TL;DR
Plant drought studies are inconsistent due to varied experimental designs, and adding physiological data could improve reproducibility and interpretation.
Contribution
The study introduces supervised learning classifiers to identify drought-stressed RNAseq samples and emphasizes the need for paired physiological data.
Findings
Drought gene expression studies are highly variable and difficult to compare even after accounting for genotype and environment.
Many studies, including those on Arabidopsis, lack high-quality physiological data to assess drought stress severity.
Supervised learning classifiers can help identify drought-stressed RNAseq samples in the absence of direct physiological measurements.
Abstract
Physiologically relevant drought stress is difficult to apply consistently, and the heterogeneity in experimental design, growth conditions, and sampling schemes makes it challenging to compare water deficit studies in plants. Here, we reanalyzed hundreds of drought gene expression experiments across diverse model and crop species and quantified the variability across studies. We found that drought studies are surprisingly incomparable, even when accounting for differences in genotype, environment, drought severity, and method of drying. Many studies, including most Arabidopsis (Arabidopsis thaliana) work, lack high-quality phenotypic and physiological datasets to accompany gene expression, making it challenging to assess the severity or consistency of water deficit stress events. To help address this, we developed supervised learning classifiers that can distinguish RNAseq samples that…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant Stress Responses and Tolerance · Plant responses to water stress
