Latest biotechnology tools and targets for improving abiotic stress tolerance in protein legumes

Protein legumes are among the most important crops for sustainable agriculture and global food security for decades to come. Unfortunately, they are subject to several abiotic stresses that severely limit their productivity, and this phenomenon is increasing with climate change. New Plant Breeding Technologies (NPBTs) offer novel alternatives to improve the plant performance of crops against such environmental constraints. However, the recalcitrance to transgenesis and in vitro regeneration has delayed such advances for protein legumes. This article reviews recent advances in legume crop biotechnological approaches to improve their tolerance to abiotic stresses including drought, high salinity, heat and cold, and heavy metal stress. In addition to these improvements, obtained mainly through transgenesis, we surveyed the application of tools such as CRISPR/Cas and RNA interference in legumes in a context of abiotic stress tolerance, and suggested a path to follow for gene control by these tools in legume plants, organs, or cells. Furthermore, we also discussed promising molecular targets, perspectives, and the way ahead for enhancing abiotic stress tolerance.

Automated summary

This article reviews recent advances in biotechnological approaches for improving the tolerance of protein legumes to abiotic stresses such as drought, high salinity, heat and cold, and heavy metal stress. In addition to improvements obtained mainly through transgenesis, the application of tools such as CRISPR/Cas and RNA interference in legumes in the context of abiotic stress tolerance is also discussed, along with a suggested path for gene control in legume plants, organs, or cells by these tools. Promising molecular targets, perspectives, and future directions for enhancing abiotic stress tolerance are also discussed.