Abstract

The meiosis-specific chromosomal events of homolog pairing, synapsis, and recombination occur over an extended meiotic prophase I that is many times longer than prophase of mitosis. Here we show that, in mice, maintenance of an extended meiotic prophase I requires the gene Meioc, a germ-cell specific factor conserved in most metazoans. In mice, Meioc is expressed in male and female germ cells upon initiation of and throughout meiotic prophase I. Mouse germ cells lacking Meioc initiate meiosis: they undergo pre-meiotic DNA replication, they express proteins involved in synapsis and recombination, and a subset of cells progress as far as the zygotene stage of prophase I. However, cells in early meiotic prophase—as early as the preleptotene stage—proceed to condense their chromosomes and assemble a spindle, as if having progressed to metaphase. Meioc-deficient spermatocytes that have initiated synapsis mis-express CYCLIN A2, which is normally expressed in mitotic spermatogonia, suggesting a failure to properly transition to a meiotic cell cycle program. MEIOC interacts with YTHDC2, and the two proteins pull-down an overlapping set of mitosis-associated transcripts. We conclude that when the meiotic chromosomal program is initiated, Meioc is simultaneously induced so as to extend meiotic prophase. Specifically, MEIOC, together with YTHDC2, promotes a meiotic (as opposed to mitotic) cell cycle program via post-transcriptional control of their target transcripts.

Highlights

  • Meiosis is a specialized cell division program that results in the halving of parental genetic material and the production of haploid gametes

  • Meiosis is the specialized cell division that halves the genetic content of germ cells to produce haploid gametes

  • Prophase of meiosis I is dramatically longer than mitotic prophase

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Summary

Introduction

Meiosis is a specialized cell division program that results in the halving of parental genetic material and the production of haploid gametes. This reductive division depends on a series of chromosomal events that occur during meiotic but not mitotic prophase, including the loading of meiosis-specific cohesins on sister chromatids, alignment and synapsis of homologous chromosomes, and generation of covalent linkages between homologs via recombination. These meiotic chromosomal events occur during meiotic prophase I, which takes much longer than mitotic prophase. The typical mitotic prophase in mammalian cells lasts only minutes [6,7]

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