Abstract

Seed vigour and longevity are pivotal agronomic traits with profound implications for crop yield, food security, and the global economy. Seed longevity, often defined by the duration of seed viability, is crucial for effective gene bank management, influencing seed regeneration cycles and ensuring the long-term conservation of plant genetic resources. The inevitable process of seed deterioration, driven by a complex network of biochemical reactions, leads to altered metabolism and damage to critical cellular components such as membranes, DNA, mitochondria, proteins, and the antioxidative defence system. In recent research, Raffinose family oligosaccharides (RFOs) have emerged as key contributors to enhancing seed vigour and longevity. These sugars perform multiple functions in plants, including tolerance to abiotic and biotic stresses, regulation of seed germination, and maintenance of desiccation tolerance, all of which are essential for overall seed health. Studies suggest that RFOs significantly bolster seed vigour and longevity through mechanisms such as cytoplasmic vitrification, water replacement, and osmoprotection in dried seeds. These oligosaccharides are particularly abundant in the seeds of leguminous crops and are also found in roots and specialized storage organs. The glassy state formed by RFOs is vital for protecting cells from oxidative damage caused by reactive oxygen species (ROS), enhancing the stability of enzymes, and preventing deleterious conformational changes in proteins. Furthermore, delaying the degradation of RFOs has been shown to inhibit premature germination, underscoring their critical role in early seedling development and successful crop establishment.

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