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Drought and recovery in barley: key gene networks and retrotransposon response

Maitry Paul, Jaakko Tanskanen, Marko Jääskeläinen, Wei Chang, Ahan Dalal, Menachem Moshelion, Alan H. Schulman

2023Frontiers in Plant Science13 citationsDOIOpen Access PDF

Abstract

Introduction During drought, plants close their stomata at a critical soil water content (SWC), together with making diverse physiological, developmental, and biochemical responses. Methods Using precision-phenotyping lysimeters, we imposed pre-flowering drought on four barley varieties (Arvo, Golden Promise, Hankkija 673, and Morex) and followed their physiological responses. For Golden Promise, we carried out RNA-seq on leaf transcripts before and during drought and during recovery, also examining retrotransposon BARE 1expression. Transcriptional data were subjected to network analysis. Results The varieties differed by their critical SWC (ϴ crit ), Hankkija 673 responding at the highest and Golden Promise at the lowest. Pathways connected to drought and salinity response were strongly upregulated during drought; pathways connected to growth and development were strongly downregulated. During recovery, growth and development pathways were upregulated; altogether, 117 networked genes involved in ubiquitin-mediated autophagy were downregulated. Discussion The differential response to SWC suggests adaptation to distinct rainfall patterns. We identified several strongly differentially expressed genes not earlier associated with drought response in barley. BARE1 transcription is strongly transcriptionally upregulated by drought and downregulated during recovery unequally between the investigated cultivars. The downregulation of networked autophagy genes suggests a role for autophagy in drought response; its importance to resilience should be further investigated.

Topics & Concepts

RetrotransposonGeneKey (lock)BiologyGeneticsComputational biologyBiotechnologyGenomeTransposable elementEcologyChromosomal and Genetic VariationsWheat and Barley Genetics and PathologyPlant Disease Resistance and Genetics