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Phenotypic, Metabolic and Genetic Adaptations of the Ficus Species to Abiotic Stress Response: A Comprehensive Review

Shengyun Yuan, T. M. Yin, huteng he, Xinyi Liu, Xueyan Long, Pan Dong, Zhenglin Zhu

2024International Journal of Molecular Sciences13 citationsDOIOpen Access PDF

Abstract

The Ficus genus, having radiated from the tropics and subtropics to the temperate zone worldwide, is the largest genus among woody plants, comprising over 800 species. Evolution of the Ficus species results in genetic diversity, global radiation and geographical differentiations, suggesting adaption to diverse environments and coping with stresses. Apart from familiar physiological changes, such as stomatal closure and alteration in plant hormone levels, the Ficus species exhibit a unique mechanism in response to abiotic stress, such as regulation of leaf temperature and retention of drought memory. The stress-resistance genes harbored by Ficus result in effective responses to abiotic stress. Understanding the stress-resistance mechanisms in Ficus provides insights into the genetic breeding toward stress-tolerant crop cultivars. Following upon these issues, we comprehensively reviewed recent progress concerning the Ficus genes and relevant mechanisms that play important roles in the abiotic stress responses. These highlight prospectively important application potentials of the stress-resistance genes in Ficus.

Topics & Concepts

FicusAbiotic componentBiologyAbiotic stressTemperate climateMoraceaeResistance (ecology)BotanyEcologyGeneGeneticsPlant Stress Responses and TolerancePlant Parasitism and ResistancePhytochemistry and biological activities of Ficus species
Phenotypic, Metabolic and Genetic Adaptations of the Ficus Species to Abiotic Stress Response: A Comprehensive Review | Litcius