Meiotic Recognition of Evolutionarily Diverged Homologs: Chromosomal Hybrid Sterility Revisited

Overview

Journal Mol Biol Evol

Publisher Oxford University Press

Specialty Biology

Date 2023 Apr 8

PMID 37030001

Authors

Jiri Forejt

Petr Jansa

Affiliations

Soon will be listed here.

Abstract

Hybrid sterility (HS) is an early postzygotic reproductive isolation mechanism observed in all sexually reproducing species. Infertility of hybrids prevents gene flow between incipient species and leads to speciation. While Drosophila studies have focused almost exclusively on the genic control of HS, two other model species, Mus musculus and budding yeast, provided the first experimental evidence of hybrid sterility governed by the nongenic effects of DNA sequence divergence. Here, we propose that the nongenic effect of increasing DNA divergence between closely related species may impair mutual recognition of homologous chromosomes and disrupt their synapsis. Unsynapsed or mispaired homologs can induce early meiotic arrest, or their random segregation can cause aneuploidy of spermatids and sperm cells. Impaired recognition of homologs may thus act as a universal chromosomal checkpoint contributing to the complexity of genetic control of HS. Chromosomal HS controlled by the Prdm9 gene in mice and HS driven by the mismatch repair machinery in yeast are currently the most advanced examples of chromosomal homology search-based HS. More focus on the cellular and molecular phenotypes of meiosis will be needed to further validate the role of homolog recognition in hybrid sterility and speciation.

Citing Articles

A Minimal Hybrid Sterility Genome Assembled by Chromosome Swapping Between Mouse Subspecies (Mus musculus).

Fotopulosova V, Tanieli G, Fusek K, Jansa P, Forejt J Mol Biol Evol. 2024; 41(10).

PMID: 39404090 PMC: 11518865. DOI: 10.1093/molbev/msae211.

Microgeographic population structuring in a genus of California trapdoor spiders and discovery of an enigmatic new species (Euctenizidae: sp. nov.).

Starrett J, Jochim E, Quayle I, Zahnle X, Bond J Ecol Evol. 2024; 14(3):e10983.

PMID: 38435003 PMC: 10905247. DOI: 10.1002/ece3.10983.

Natural variation in the zinc-finger-encoding exon of Prdm9 affects hybrid sterility phenotypes in mice.

AbuAlia K, Damm E, Ullrich K, Mukaj A, Parvanov E, Forejt J Genetics. 2024; 226(3).

PMID: 38217871 PMC: 10917509. DOI: 10.1093/genetics/iyae004.

Chromosome Asynapsis Is the Main Cause of Male Sterility in the Interspecies Hybrids of East Asian Voles (, Rodentia, Arvicolinae).

Bikchurina T, Pavlenko M, Kizilova E, Rubtsova D, Sheremetyeva I, Kartavtseva I Genes (Basel). 2023; 14(5).

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