Litcius/Paper detail

Cross-species predictive modeling reveals conserved drought responses between maize and sorghum

Jeremy Pardo, Ching Man Wai, Maxwell Harman, Annie L. Nguyen, Karl A. Kremling, M. Cinta Romay, Nicholas Lepak, Taryn L. Bauerle, Edward S. Buckler, Addie Thompson, Robert VanBuren

2023Proceedings of the National Academy of Sciences15 citationsDOIOpen Access PDF

Abstract

Drought tolerance is a highly complex trait controlled by numerous interconnected pathways with substantial variation within and across plant species. This complexity makes it difficult to distill individual genetic loci underlying tolerance, and to identify core or conserved drought-responsive pathways. Here, we collected drought physiology and gene expression datasets across diverse genotypes of the C4 cereals sorghum and maize and searched for signatures defining water-deficit responses. Differential gene expression identified few overlapping drought-associated genes across sorghum genotypes, but using a predictive modeling approach, we found a shared core drought response across development, genotype, and stress severity. Our model had similar robustness when applied to datasets in maize, reflecting a conserved drought response between sorghum and maize. The top predictors are enriched in functions associated with various abiotic stress-responsive pathways as well as core cellular functions. These conserved drought response genes were less likely to contain deleterious mutations than other gene sets, suggesting that core drought-responsive genes are under evolutionary and functional constraints. Our findings support a broad evolutionary conservation of drought responses in C4 grasses regardless of innate stress tolerance, which could have important implications for developing climate resilient cereals.

Topics & Concepts

Drought toleranceBiologySorghumGeneAbiotic componentAbiotic stressGeneticsConserved sequenceQuantitative trait locusEvolutionary biologyEcologyAgronomyBase sequenceGenetic Mapping and Diversity in Plants and AnimalsPlant Stress Responses and ToleranceClimate change impacts on agriculture