X Chromosome Inactivation during Drosophila Spermatogenesis

Winfried Hense,John F Baines,John Parsch,Mohamed A F Noor

doi:10.1371/journal.pbio.0050273

Winfried Hense, John F Baines + Show 2 more

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https://doi.org/10.1371/journal.pbio.0050273

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Journal: PLoS Biology	Publication Date: Oct 1, 2007
Citations: 181	License type: CC BY 4.0

Affiliation: Urologische Klinik München

Abstract

Genes with male- and testis-enriched expression are under-represented on the Drosophila melanogaster X chromosome. There is also an excess of retrotransposed genes, many of which are expressed in testis, that have “escaped” the X chromosome and moved to the autosomes. It has been proposed that inactivation of the X chromosome during spermatogenesis contributes to these patterns: genes with a beneficial function late in spermatogenesis should be selectively favored to be autosomal in order to avoid inactivation. However, conclusive evidence for X inactivation in the male germline has been lacking. To test for such inactivation, we used a transgenic construct in which expression of a lacZ reporter gene was driven by the promoter sequence of the autosomal, testis-specific ocnus gene. Autosomal insertions of this transgene showed the expected pattern of male- and testis-specific expression. X-linked insertions, in contrast, showed only very low levels of reporter gene expression. Thus, we find that X linkage inhibits the activity of a testis-specific promoter. We obtained the same result using a vector in which the transgene was flanked by chromosomal insulator sequences. These results are consistent with global inactivation of the X chromosome in the male germline and support a selective explanation for X chromosome avoidance of genes with beneficial effects late in spermatogenesis.

Highlights

Sex chromosomes, such as the X and Y chromosomes of Drosophila, are thought to have evolved from a pair of homologous autosomes that lost their ability to recombine with each other [1,2]
The X chromosome is inactivated in the male germline, thereby silencing, or inactivating, genes residing on the X chromosome
We used a transgenic technique to test for male germline X inactivation in this important model organism

Summary

Introduction

Sex chromosomes, such as the X and Y chromosomes of Drosophila, are thought to have evolved from a pair of homologous autosomes that lost their ability to recombine with each other [1,2]. One pattern that has emerged from the genomic analysis of Drosophila melanogaster is that there is a significant excess of gene duplications in which a new autosomal gene has arisen from an X-linked parental gene through retrotransposition [8]. Most of these new autosomal genes appear to be functional and are expressed in testis [8]. Several of these genes that have been studied in detail show evidence of adaptive evolution and/or functional diversification [8,9,10,11]. The male-biased genes that are X-linked tend to show less sex bias in their expression than those that are autosomal [15]

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