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Physiological and Molecular Modulations to Drought Stress in the Brassica Species

Mi‐Jeong Yoo, Yoojeong Hwang, Yoo-Min Koh, Fanchao Zhu, Aaditya Deshpande, Tyler Bechard, Silvana Andreescu

2024International Journal of Molecular Sciences16 citationsDOIOpen Access PDF

Abstract

Climate change, particularly drought stress, significantly impacts plant growth and development, necessitating the development of resilient crops. This study investigated physiological and molecular modulations to drought stress between diploid parent species and their polyploid progeny in the Brassica species. While no significant phenotypic differences were observed among the six species, drought stress reduced growth parameters by 2.4% and increased oxidative stress markers by 1.4-fold. Drought also triggered the expression of genes related to stress responses and led to the accumulation of specific metabolites. We also conducted the first study of perfluorooctane sulfonic acid (PFOS) levels in leaves as a drought indicator. Lower levels of PFOS accumulation were linked to plants taking in less water under drought conditions. Both diploid and polyploid species responded to drought stress similarly, but there was a wide range of variation in their responses. In particular, responses were less variable in polyploid species than in diploid species. This suggests that their additional genomic components acquired through polyploidy may improve their flexibility to modulate stress responses. Despite the hybrid vigor common in polyploid species, Brassica polyploids demonstrated intermediate responses to drought stress. Overall, this study lays the framework for future omics-level research, including transcriptome and proteomic studies, to deepen our understanding of drought tolerance mechanisms in Brassica species.

Topics & Concepts

PolyploidPloidyBiologyBrassicaTranscriptomeDrought stressDrought toleranceBotanyPhenotypeGeneGeneticsGene expressionPhotosynthetic Processes and MechanismsGenetic Mapping and Diversity in Plants and AnimalsPlant nutrient uptake and metabolism