Journal
BMC PLANT BIOLOGY
Volume 23, Issue 1, Pages -Publisher
BMC
DOI: 10.1186/s12870-023-04450-1
Keywords
Abscisic acid; Barley (Hordeum vulgare); Drought; Phytohormone; Proteome; Strigolactone; Transcriptome
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We used a combination of transcriptomics, proteomics, and phytohormonomics analyses to investigate the SL-dependent mechanisms associated with water deficit response in barley. Our research revealed the role of SLs in alleviating the effects of water limitation on plants and identified potential strategies for developing drought-resistant barley.
Background Drought is a major environmental stress that affects crop productivity worldwide. Although previous research demonstrated links between strigolactones (SLs) and drought, here we used barley (Hordeum vulgare) SL-insensitive mutant hvd14 (dwarf14) to scrutinize the SL-dependent mechanisms associated with water deficit response.Results We have employed a combination of transcriptomics, proteomics, phytohormonomics analyses, and physiological data to unravel differences between wild-type and hvd14 plants under drought. Our research revealed that drought sensitivity of hvd14 is related to weaker induction of abscisic acid-responsive genes/proteins, lower jasmonic acid content, higher reactive oxygen species content, and lower wax biosynthetic and deposition mechanisms than wild-type plants. In addition, we identified a set of transcription factors (TFs) that are exclusively drought-induced in the wild-type barley.Conclusions Critically, we resolved a comprehensive series of interactions between the drought-induced barley transcriptome and proteome responses, allowing us to understand the profound effects of SLs in alleviating water-limiting conditions. Several new avenues have opened for developing barley more resilient to drought through the information provided. Moreover, our study contributes to a better understanding of the complex interplay between genes, proteins, and hormones in response to drought, and underscores the importance of a multidisciplinary approach to studying plant stress response mechanisms.
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