Targeting the X Chromosome during Spermatogenesis Induces Y Chromosome Transmission Ratio Distortion and Early Dominant Embryo Lethality in Anopheles gambiae

Genome-scale scans have revealed highly heterogeneous levels of divergence between closely related taxa in many systems. Generally, a small number of regions show high differentiation, with the rest of the genome showing no or only low levels of divergence. These patterns have been interpreted as evidence for ongoing speciation-with-gene-flow, with introgression homogenizing the whole genome except loci involved in reproductive isolation. However, as the number of selected loci increases, the probability of introgression at unselected loci decreases unless there is a transmission ratio distortion causing an over-representation of specific combinations of alleles. Here we examine the transmission of three ‘speciation islands’ that contain fixed differences between the M and S forms of the mosquito, Anopheles gambiae . We made reciprocal crosses between M and S parents and genotyped over 2000 F 2 individuals, developing a hierarchical likelihood model to identify specific genotypes that are under- or over-represented among the recombinant offspring. Though our overall results did not match the expected number of F 2 genotypes, we found no biased co-transmission among M or S alleles in the three islands. Our likelihood model did identify transmission ratio distortion at two of the three islands, but this distortion was small (approx. 3%) and in opposite directions for the two islands. We discuss how our results impinge on hypotheses of current gene flow between M and S and ongoing speciation-with-gene-flow in this system.

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Male-Offspring-Specific, Haplotype-Dependent, Nonrandom Cosegregation of Alleles at Loci on Two Mouse Chromosomes

Genetics ◽

10.1093/genetics/154.1.351 ◽

2000 ◽

Vol 154 (1) ◽

pp. 351-356 ◽

Cited By ~ 4

Author(s):

Fernando Pardo-Manuel de Villena ◽

Elena de la Casa-Esperón ◽

Tammi L Briscoe ◽

Jan-Michel Malette ◽

Carmen Sapienza

Keyword(s):

Y Chromosome ◽

Inbred Mouse ◽

Female Offspring ◽

Male Offspring ◽

Transmission Ratio Distortion ◽

Transmission Ratio ◽

Mouse Strains ◽

Chromosome 11 ◽

Ratio Distortion ◽

Specific Haplotype

AbstractF1 backcrosses involving the DDK and C57BL/6 inbred mouse strains show transmission ratio distortion at loci on two different chromosomes, 11 and X. Transmission ratio distortion on chromosome X is restricted to female offspring while that on chromosome 11 is present in offspring of both sexes. In this article we investigate whether the inheritance of alleles at loci on one chromosome is independent of inheritance of alleles on the other. A strong nonrandom association between the inheritance of alleles at loci on both chromosomes is found among male offspring, while independent assortment occurs among female offspring. We also provide evidence that the mechanism by which this phenomenon occurs involves preferential cosegregation of nonparental chromatids of both chromosomes at the second meiotic divison, after the ova has been fertilized by a C57BL/6 sperm bearing a Y chromosome. These observations confirm the influence of the sperm in the segregation of chromatids during female meiosis, and indicate that a locus or loci on the Y chromosome are involved in this instance of meiotic drive.

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