CRISPR/Cas9-Mediated Genome Editing for Trait Improvement and Stress Tolerance in Leguminosae (Legume Family)

Legumes represent a significant source of protein, roughage, minerals and carbohydrates in global diets. They are cultivated primarily for human consumption, forage and as a green manure. However, the growth and productivity of legumes are often hindered by a range of biological and environmental factors. The most prevalent diseases afflicting legumes include downy mildew, fusarium root rot, southern blight and common leaf spot. Additionally, environmental stresses such as salinity and drought represents significant challenges. Over time, the development of cultivars with enhanced tolerance has emerged as a sustainable approach to combat the impact of these stresses. Although environmentally friendly, traditional breeding methods entail lengthy screening and cross-breeding protocols, which constrain their efficacy in addressing climate challenges and ensuring global food security. Furthermore, these approaches rely on the natural availability of genetic variation, which may not always be exist for specific traits, particularly in the context of rapidly changing environmental conditions. Additionally, the traditional breeding method is not sufficiently precise, which can result in the unintended introduction of undesirable traits. Furthermore, the genetic intricacy of legumes presents an additional challenge making it difficult to isolate and enhance desired traits. These constrain impede the capacity to expeditiously develop cultivars that can withstand emerging stresses, such as climate change. Genome editing has emerged as a powerful tool to overcome the limitations of traditional breeding methods. By enabling precise and targeted genetic manipulation, genome editing can enhance desired traits or introduce new ones, thereby facilitating the development of climate-resilient agronomic varieties. In particular, clustered regularly interspaced short palindromic repeat/CRISPR associated protein (CRISPR/Cas9)-mediated editing has demonstrated considerable potential in enhancing legume adaptability to diverse stress conditions and increasing crop yield. This study highlights the advancements in genome editing, with a specific focus on CRISPR/Cas9 technology, as a means to improve legume crops' resilience and productivity in response to environmental pressures.