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This study explores the role of jasmonate and abscisic acid (ABA) in regulating amino acid and carbohydrate metabolism during drought stress in plants. We focus on transcription factors, RNA-binding proteins, and storage proteins involved in signaling pathways that respond to both abiotic and biotic stress. The impacts on physiological parameters, including photosynthesis and calcium signaling, are analyzed in flag leaves and seedlings subjected to varying soil water content (SWC). The findings enhance our understanding of adaptive mechanisms in plants facing environmental stressors.
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horomone: Jasmonate amino acid metabolism transcription factors carbohydrate metabolism RNA binding storage proteins signalling: calcium protein degradation transporter photosynthesis biotic stress unknown 1:1 -3.0 +3.0 Flag leaf_1d drought (Ma) 21day seedling_38%SWC (M) 21day seedling_7%SWC (M) 21day seedling_19%SWC (M) Seedling_drought_OWB-R) Seedling_drought (OWB-D) Flag leaf_3d drought (Ma) Flag leaf_1d drought (Mo) Flag leaf_5d drought (Ma) Flag leaf_3d drought (Mo) Flag leaf_5d drought (Mo) Lemma_ 4d drought (M) Awn_ 4d drought (M) Seed_ 4d drought (M) Seed 20DAF_drought (B) Palea_ 4d drought (M) Seed 20DAF_drought (Hs) horomone: ABA amino acid metabolism transcription factors carbohydrate metabolism storage proteins RNA binding signalling: phosphoinositides protein degradation transporter abiotic stress Cluster group I * * * * * * horomone: ABA-induced amino acid metabolism transcription factors carbohydrate metabolism RNA binding storage proteins signalling: G-proteins protein degradation transporter biotic/abiotic stress * * * Cluster group II * * * * Cluster group III * * * * * * *
