Dear Colleagues,

Meiosis is a highly specialized cell division that is central to plant sexual reproduction, as it halves the chromosome number and creates novel genetic variability with major relevance for plant evolution and crop breeding. Like in other eukaryotes, meiosis in plants follows a modified cell division program that integrates tight regulation of chromosome dynamics within a customized cell cycle framework to achieve reductional cell division and haploid spore formation.

In parallel, meiosis has adopted specialized DNA break repair processes in prophase I to enable formation of physical cross-over (CO) events that mediate reciprocal exchange of genomic information between homologous chromosomes to hence create novel allelic variation in the progeny. With plants exhibiting various levels of genome and ploidy complexity, meiosis has often evolved a broad range of adaptive mechanisms to guarantee reproductive success and transgenerational ploidy stability.

The tight regulation of plant meiosis and all of its subprocesses, as well as its adaptive response to intrinsic and external influences, i.e., including CO plasticity and meiotic restitution, indicates the involvement of various regulatory and structural processes that are under (epi-)genetic control. The identification and characterization of underlying genetic factors and epigenetic elements forms the initial step in enhancing our understanding of the mechanistic control of this specialized cell division, and additionally provides a basic knowledge platform that is relevant for plant genome evolution and applied crop breeding.

This research topic aims to provide the latest findings on the genetic and epigenetic regulation of plant meiosis, including new insights in meiotic recombination, chromosome dynamics, and cell division, as well as its involvement in adaptive plant evolution and crop breeding. We welcome original research manuscripts and reviews in model systems, nonconventional plant species, and crops that provide novel insights into the (epi-)genetic determination of meiosis or one of its subprocesses, such as initiation of meiosis, homolog pairing, recombination, CO patterning, chromosome segregation, cell cycle regulation, cytokinesis, etc.

In parallel, in this Special Issue we also accept descriptive studies on the genetic variation of meiotic determinants as well as on their functional role in reproductive development, genetic variation, and adaptive genome evolution.

Prof. Nico De Storme
Guest Editor

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• Meiotic cell division
• Homologous pairing and synapsis
• DSB formation, processing, and repair
• CO designation and biogenesis
• Chromosome segregation in MI and MII
• Chromatin dynamics