Audrey Lynn scite author profile

Faithful segregation of homologous chromosomes (homologs) during meiosis depends on chiasmata which correspond to crossovers between parental DNA strands. Crossover forming homologous recombination takes place in the context of the synaptonemal complex (SC), a proteinaceous structure that juxtaposes homologs. The coordination between molecular recombination events and assembly of the SC as a structure that provides global connectivity between homologs represents one of the remarkable features of meiosis. ZMM proteins (also known as the synapsis initiation complex = SIC) play crucial roles in both processes providing a link between recombination and SC assembly. The ZMM group includes at least seven functionally collaborating, yet structurally diverse proteins: The transverse filament protein Zip1 establishes stable homolog juxtaposition by polymerizing as an integral component of the SC. Zip2, Zip3, and Zip4 likely mediate proteinYprotein interactions, while Mer3, Msh4, and Msh5 directly promote steps in DNA recombination. This review focuses on recent insights into ZMM functions in yeast meiosis and draws comparisons to ZMM-related proteins in other model organisms.

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Covariation of Synaptonemal Complex Length and Mammalian Meiotic Exchange Rates

Lynn

Koehler

Judis

et al. 2002

Science

260

248

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Analysis of recombination between loci (linkage analysis) has been a cornerstone of human genetic research, enabling investigators to localize and, ultimately, identify genetic loci. However, despite these efforts little is known about patterns of meiotic exchange in human germ cells or the mechanisms that control these patterns. Using recently developed immunofluorescence methodology to examine exchanges in human spermatocytes, we have identified remarkable variation in the rate of recombination within and among individuals. Subsequent analyses indicate that, in humans and mice, this variation is linked to differences in the length of the synaptonemal complex. Thus, at least in mammals, a physical structure, the synaptonemal complex, reflects genetic rather than physical distance.

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Mutations in CDMP1 cause autosomal dominant brachydactyly type C

et al. 1997

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Variation in Human Meiotic Recombination

Lynn

Ashley

Hassold

2004

Annu. Rev. Genom. Hum. Genet.

155

138

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As recently as 20 years ago, there was relatively little information about the number and distribution of recombinational events in human meiosis, and we knew virtually nothing about factors affecting patterns of recombination. However, the generation of a variety of linkage-based genetic mapping tools and, more recently, cytological approaches that enable us to directly visualize the recombinational process in meiocytes, have led to an increased understanding of human meiosis. In this review, we discuss the different approaches used to study meiotic recombination in humans, our understanding of factors that affect the number and location of recombinational events, and clinical consequences of variation in the recombinational process.

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Audrey Lynn

ZMM proteins during meiosis: Crossover artists at work

Covariation of Synaptonemal Complex Length and Mammalian Meiotic Exchange Rates

Mutations in CDMP1 cause autosomal dominant brachydactyly type C

Variation in Human Meiotic Recombination

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