Advances in gene editing-led route for hybrid breeding in crops

With the global demand for sustainable agriculture on the rise, RNA-guided nuclease technology offers transformative applications in crop breeding. Traditional hybrid breeding methods, like three-line and two-line systems, are often labor-intensive, transgenic, and economically burdensome. While chemical mutagens facilitate these systems, they not only generate weak alleles but also produce strong alleles that induce permanent sterility through random mutagenesis. In contrast, RNA-guided nuclease system, such as clustered regularly interspaced short palindromic repeats (CRISPR)- associated protein (Cas) system, facilitates more efficient hybrid production by inducing male sterility through targeted genome modifications in male sterility genes, such as MS8, MS10, MS26, and MS45 which allows precise manipulation of pollen development or pollen abortion in various crops. Moreover, this approach allows haploid induction for the rapid generation of recombinant and homozygous lines from hybrid parents by editing essential genes, like CENH3, MTL/NLD/PLA, and DMP, resulting in high-yield, transgene-free hybrids. Additionally, this system supports synthetic apomixis induction by employing the MiMe (Mitosis instead of Meiosis) strategy, coupled with parthenogenesis in hybrid plants, to create heterozygous lines and retain hybrid vigor in subsequent generations. RNA-guided nuclease-induced synthetic apomixis also enables genome stacking for autopolyploid progressive heterosis via clonal gamete production for trait maintenance to enhance crop adaptability without compromising yield. Additionally, CRISPR-Cas-mediated de novo domestication of wild relatives, along with recent advances to circumvent tissue culture- recalcitrance and -dependency through heterologous expression of morphogenic regulators, holds great promise for incorporating diversity-enriched germplasm into the breeding programs. These approaches aim to generate elite hybrids adapted to dynamic environments and address the anticipated challenges of food insecurity.