AI Article Synopsis
- Wolbachia pipientis are bacteria that manipulate the reproduction of their arthropod and nematode hosts to enhance their own transmission, particularly favoring infected females.
- Research reveals that these bacteria can improve fertility in Drosophila melanogaster females with specific mutations affecting germline stem cell differentiation.
- Further analysis shows that W. pipientis infection alters the expression of key genetic interactors and impacts genes involved in ubiquitination and histone modification, suggesting these processes play a role in how W. pipientis influences germline stem cell functions.
Article Abstract
Wolbachia pipientis are maternally transmitted endosymbiotic bacteria commonly found in arthropods and nematodes. These bacteria manipulate reproduction of the host to increase their transmission using mechanisms, such as cytoplasmic incompatibility, that favor infected female offspring. The underlying mechanisms of reproductive manipulation by W. pipientis remain unresolved. Interestingly, W. pipientis infection partially rescues female fertility in flies containing hypomorphic mutations of bag of marbles (bam) in D. melanogaster, which plays a key role in germline stem cell (GSC) daughter differentiation. Using RNA-seq, we find W. pipientis infection in bam hypomorphic females results in differential expression of many of bam's genetic and physical interactors and enrichment of ubiquitination and histone lysine methylation genes. We find that W. pipientis also rescues the fertility and GSC functions of a subset of these genes when knocked down with RNAi in a wildtype bam genotype. Our results show that W. pipientis interacts with ubiquitination and histone lysine methylation genes which could be integral to the mechanism by which W. pipientis modulates GSC gene function.
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| http://dx.doi.org/10.1093/genetics/iyae220 | DOI Listing |
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Article Synopsis
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- Research reveals that these bacteria can improve fertility in Drosophila melanogaster females with specific mutations affecting germline stem cell differentiation.
- Further analysis shows that W. pipientis infection alters the expression of key genetic interactors and impacts genes involved in ubiquitination and histone modification, suggesting these processes play a role in how W. pipientis influences germline stem cell functions.
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