Plants responses to drought lead to numerous changes at transcriptional, translational, and posttranslational levels. In this context, the wide application of transcriptomics approaches has helped to explore the mechanisms of the plant response to water scarcity in diverse plant genotypes and to identify target genes for biotechnological tools. Here, the complexity of the molecular signaling network underlying drought stress has been explored, focusing on the exploitation of transcriptomics results for the development of more flexible and climate-resilient plants.
Drought stress and the effectiveness of transcriptomics in identifying drought tolerance mechanisms in plants
Chitarra W.Primo
;Sillo F.;Balestrini R.
Penultimo
;Pagliarani C.Ultimo
2025
Abstract
Plants responses to drought lead to numerous changes at transcriptional, translational, and posttranslational levels. In this context, the wide application of transcriptomics approaches has helped to explore the mechanisms of the plant response to water scarcity in diverse plant genotypes and to identify target genes for biotechnological tools. Here, the complexity of the molecular signaling network underlying drought stress has been explored, focusing on the exploitation of transcriptomics results for the development of more flexible and climate-resilient plants.File in questo prodotto:
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