Utilizing CRISPR-based genetic modification for precise control of seed dormancy: progress, obstacles, and potential directions.

Abstract

Seed dormancy, a complex trait that is influenced by both nuclear and cytoplasmic factors, poses a significant challenge to agricultural productivity. Conventional dormancy-breaking techniques, including mechanical, physiological, and chemical methods, often yield inconsistent results, impair seed quality, and lack precision. This has necessitated exploration of more targeted and efficient approaches. CRISPR-based gene editing has emerged as a promising tool for the precise regulation of seed dormancy without compromising seed viability or sustainability. Although CRISPR has been successfully applied to modify genes that govern physiological traits in various crops, its use in dormancy regulation remains in the early stages. This review examines recent advancements in CRISPR-based approaches for modulating seed dormancy and discusses key gene targets, modification techniques, and the resulting effects. We also consider the future potential of CRISPR to enhance dormancy control across diverse crop species.