Genomic-based root plasticity to enhance abiotic stress adaptation and edible yield in grain crops

Abstract Abiotic stresses increasingly threaten existing ecological and agricultural systems across the globe. Plant roots perceive these stresses in the soil and adapt their architecture accordingly. This review provides insights into recent discoveries showing the importance of root system architecture and plasticity for the survival and development of plants under heat, cold, drought, salt, and flooding stress. In addition, we review the molecular regulation and hormonal pathways involved in controlling root system architecture plasticity, main root growth, branching and lateral root growth, root hair development and formation of adventitious roots. Several stresses affect root anatomy by causing aerenchyma formation, lignin and suberin deposition, and Casparian strip modulation. Roots can also actively grow towards favourable soil conditions and avoid environments detrimental to their development. Recent advances in understanding the cellular mechanisms behind these different root tropisms are discussed. Understanding root plasticity will be instrumental for the development of crops that are resilient in the face of abiotic stress.

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Polyamines: Osmoprotectants in Plant Abiotic Stress Adaptation

Osmolytes and Plants Acclimation to Changing Environment: Emerging Omics Technologies ◽

10.1007/978-81-322-2616-1_7 ◽

2016 ◽

pp. 97-127 ◽

Cited By ~ 11

Author(s):

Atreyee Sengupta ◽

Mayukh Chakraborty ◽

Jayita Saha ◽

Bhaskar Gupta ◽

Kamala Gupta

Keyword(s):

Abiotic Stress ◽

Stress Adaptation ◽

Plant Abiotic Stress

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Biological Function of Changes in RNA Metabolism in Plant Adaptation to Abiotic Stress

Plant and Cell Physiology ◽

10.1093/pcp/pcz068 ◽

2019 ◽

Vol 60 (9) ◽

pp. 1897-1905 ◽

Cited By ~ 6

Author(s):

Akihiro Matsui ◽

Kentaro Nakaminami ◽

Motoaki Seki

Keyword(s):

Gene Expression ◽

Abiotic Stress ◽

Metabolic Regulation ◽

Rna Stability ◽

Rna Metabolism ◽

Stress Adaptation ◽

Transcriptional Level ◽

Related Gene ◽

Structural Modifications

Abstract Plant growth and productivity are greatly impacted by environmental stresses. Therefore, plants have evolved various sophisticated mechanisms for adaptation to nonoptimal environments. Recent studies using RNA metabolism-related mutants have revealed that RNA processing, RNA decay and RNA stability play an important role in regulating gene expression at a post-transcriptional level in response to abiotic stresses. Studies indicate that RNA metabolism is a unified network, and modification of stress adaptation-related transcripts at multiple steps of RNA metabolism is necessary to control abiotic stress-related gene expression. Recent studies have also demonstrated the important role of noncoding RNAs (ncRNAs) in regulating abiotic stress-related gene expression and revealed their involvement in various biological functions through their regulation of DNA methylation, DNA structural modifications, histone modifications and RNA–RNA interactions. ncRNAs regulate mRNA transcription and their synthesis is affected by mRNA processing and degradation. In the present review, recent findings pertaining to the role of the metabolic regulation of mRNAs and ncRNAs in abiotic stress adaptation are summarized and discussed.

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