Chen Xu scite author profile

Plants respond to environmental stresses by altering gene expression, and several genes have been found to mediate stress-induced expression, but many additional factors are yet to be identified. OsNAP is a member of the NAC transcription factor family; it is localized in the nucleus, and shows transcriptional activator activity in yeast. Analysis of the OsNAP transcript levels in rice showed that this gene was significantly induced by ABA and abiotic stresses, including high salinity, drought and low temperature. Rice plants overexpressing OsNAP did not show growth retardation, but showed a significantly reduced rate of water loss, enhanced tolerance to high salinity, drought and low temperature at the vegetative stage, and improved yield under drought stress at the flowering stage. Microarray analysis of transgenic plants overexpressing OsNAP revealed that many stress-related genes were up-regulated, including OsPP2C06/OsABI2, OsPP2C09, OsPP2C68 and OsSalT, and some genes coding for stress-related transcription factors (OsDREB1A, OsMYB2, OsAP37 and OsAP59). Our data suggest that OsNAP functions as a transcriptional activator that plays a role in mediating abiotic stress responses in rice.

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Advanced Study of Drought-Responsive Protein Pathways in Plants

Movahedi

Dzinyela

Aghaei-Dargiri

et al. 2023

Agronomy

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Drought, the most significant environmental stressor, severely limits plant growth and development and significantly reduces crop production. Drought stress responses vary among plants, allowing them to withstand and survive adverse conditions. Plants resist drought by maintaining signaling pathways, such as the abscisic acid pathway, and activating unusual proteins, such as dehydrins. This study aims to investigate signaling pathways and the biological structures and activities of proteins involved in these processes. We also look into the occurrence of crosstalk across multiple signaling pathways and what it means for agricultural plant enhancement. By incorporating the most common components across all abiotic stress situations, this review provides insight into the evolution of drought stress tolerance in agricultural plants. This review could be helpful for crop drought stress researchers.

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Plant Immunity Is Regulated by Biological, Genetic, and Epigenetic Factors

et al. 2022

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An immune system is a protective mechanism that shields plants from environmental stresses. This primary function is to maintain optimal circumstances for the growth and development of plant tissues while avoiding harm from biotic and abiotic stress factors. Plants subjected to various stressors initiate stress signaling cascades that affect multiple gene expressions and induce adaptation. These signaling pathways are coordinated by transcription factors, non-coding RNAs, RNA-binding proteins, and protein–protein interaction networks. Several studies have focused on various immune systems, but no study has collected all of them together to illustrate them efficiently. According to this review, stress-responsive genes encode ion and water transporters, enzymes, and transcription factors, making plants more resistant to biological and abiotic challenges. Plants have also evolved anti-pathogen defense systems such as regulatory hormone pathways, reactive oxygen species generation, gene expression, programmed cell death, and cell survival. Plants produce short RNAs in response to a viral attack, which silences the offensive genome and creates complex epigenetic regulatory mechanisms such as histone changes, chromatin remodeling, and DNA methylation to protect plants from pathogens. This review provides an in-depth description of proteins, effectors, and pathways included in plant resistance against environmental stresses and offers details on future trends, such as metabolic pathways and genetic engineering, to improve the protection of plants against stress-induced responses.

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Chen Xu

The NAC Family Transcription Factor OsNAP Confers Abiotic Stress Response Through the ABA Pathway

Advanced Study of Drought-Responsive Protein Pathways in Plants

Plant Immunity Is Regulated by Biological, Genetic, and Epigenetic Factors

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