Abstract
Crop plants often have challenges of biotic and abiotic stresses, and they adapt sophisticated ways to acclimate and cope with these through the expression of specific genes. Changes in chromatin, histone, and DNA mostly serve the purpose of combating challenges and ensuring the survival of plants in stressful environments. Epigenetic changes, due to environmental stress, enable plants to remember a past stress event in order to deal with such challenges in the future. This heritable memory, called “plant stress memory”, enables plants to respond against stresses in a better and efficient way, not only for the current plant in prevailing situations but also for future generations. Development of stress resistance in plants for increasing the yield potential and stability has always been a traditional objective of breeders for crop improvement through integrated breeding approaches. The application of epigenetics for improvements in complex traits in tetraploid and some other field crops has been unclear. An improved understanding of epigenetics and stress memory applications will contribute to the development of strategies to incorporate them into breeding for complex agronomic traits. The insight in the application of novel plant breeding techniques (NPBTs) has opened a new plethora of options among plant scientists to develop germplasms for stress tolerance. This review summarizes and discusses plant stress memory at the intergenerational and transgenerational levels, mechanisms involved in stress memory, exploitation of induced and natural epigenetic changes, and genome editing technologies with their future possible applications, in the breeding of crops for abiotic stress tolerance to increase the yield for zero hunger goals achievement on a sustainable basis in the changing climatic era.
Highlights
Plants are sessile in nature and have to face and survive in challenging abiotic [1] and biotic [2] stress environments with their defensive mechanisms by sensing the stress motivators and adopting some changes in their molecular system [3]
A decline in crop yields due to biotic and abiotic stresses has been a major challenge for staple food crops, and it is estimated that the global food demand will outpace the genetic gain in the near future
Epigenetic modifications can lead to altered gene transcription and are an important mechanism for controlling gene expression during development in response to stimulation of the environment
Summary
Plants are sessile in nature and have to face and survive in challenging abiotic (low or high temperature, excessive or inadequate light, ultraviolet radiation, drought, flood, salinity, nutrient deficiency or toxicity, and heavy metals) [1] and biotic (viruses, fungi, bacteria, nematodes, sucking and chewing pests, and herbivores) [2] stress environments with their defensive mechanisms by sensing the stress motivators and adopting some changes in their molecular system [3]. DNAare methylation, which leads to anand improved stress diness to the specific same stress driver [7] These memories due to epigenetic changes tolerance response in plants that have previously undergone acclimation play an important role by enabling plants to perform better against similar environmen-and hardiness the same[8]. Found that memories plants not are onlydue adopt changes forchanges the an important role by enabling plants to perform better against similar environmental prevailing stress scenario and remember this information for the generations to hazards in the future [8]. Epigenetic modifications proprevailing stress scenario and remember this information for the generations to vide heritable changes in the activities of genes and play an important role in gene exefficiently cope with such environmental conditions [6,9]. At the seedling stage or tuber enlargement stage, can enhance drought resistance during the late growth stages [34,35] and it can increase the yield under favorable growth conditions [36]
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