Litcius/Paper detail

Plant translational reprogramming for stress resilience

Seungmin Son, Sang Ryeol Park

2023Frontiers in Plant Science58 citationsDOIOpen Access PDF

Abstract

Organisms regulate gene expression to produce essential proteins for numerous biological processes, from growth and development to stress responses. Transcription and translation are the major processes of gene expression. Plants evolved various transcription factors and transcriptome reprogramming mechanisms to dramatically modulate transcription in response to environmental cues. However, even the genome-wide modulation of a gene's transcripts will not have a meaningful effect if the transcripts are not properly biosynthesized into proteins. Therefore, protein translation must also be carefully controlled. Biotic and abiotic stresses threaten global crop production, and these stresses are seriously deteriorating due to climate change. Several studies have demonstrated improved plant resistance to various stresses through modulation of protein translation regulation, which requires a deep understanding of translational control in response to environmental stresses. Here, we highlight the translation mechanisms modulated by biotic, hypoxia, heat, and drought stresses, which are becoming more serious due to climate change. This review provides a strategy to improve stress tolerance in crops by modulating translational regulation.

Topics & Concepts

ReprogrammingBiologyTranscriptomeCell biologyGeneTranscription factorTranslation (biology)Abiotic stressGene expressionTranslational regulationBiotic stressComputational biologyTranscription (linguistics)Regulation of gene expressionGeneticsMessenger RNAPhilosophyLinguisticsPlant Stress Responses and TolerancePhotosynthetic Processes and MechanismsPlant responses to water stress