Vol. 8, Issue 10, Part J (2024)

Horizontal Gene Transfer (HGT) is a natural phenomenon that has gained significant attention in biotechnology for its potential to enhance agricultural resilience. As an alternative to traditional genetic modification methods, HGT facilitates the direct transfer of genes between unrelated species, enabling the development of crops with enhanced pest resistance. This article explores the mechanisms and applications of HGT in creating pest-resistant crops, with a focus on the latest biotechnological advancements, including CRISPR-Cas9, synthetic biology, and nanoparticle delivery systems. Through case studies, such as Bt crops and multi-pest-resistant varieties, the article examines the environmental and economic benefits of HGT, such as reduced pesticide use, improved crop yields, and enhanced agricultural sustainability. Additionally, it addresses the challenges and controversies associated with HGT-based crops, including biosafety concerns, regulatory hurdles, and ethical considerations. By discussing future directions and emerging technologies, the article highlights HGT's potential to contribute to sustainable agriculture and climate-resilient food systems. This review aims to provide a comprehensive understanding of HGT's role in developing pest-resistant crops and its implications for the future of agriculture.