Summary: The fruitless (fru) gene, linked to courtship behavior in fruit flies and conserved across many insect species, operates differently in two fruit fly species, Drosophila melanogaster and Drosophila virilis. Despite the gene’s association with male courtship behaviors, experiments using CRISPR-Cas9 technology to add fru to females of D. virilis demonstrated unique outcomes compared to D. melanogaster, suggesting that conserved genes do not guarantee identical functions across species.
This discovery challenges previous assumptions about the universality of gene function and highlights the importance of cross-species research to fully understand the genetic basis of behavior and development. The findings, contributing to a more nuanced understanding of genetic influence on behavior, were supported by advanced genetic tools and open new avenues for studying gene impacts across diverse species.
Key Facts:
- Divergent Gene Functionality: The fru gene’s role in courtship behavior varies between D. melanogaster and D. virilis, indicating that conserved genes can have distinct functions across species.
- Advanced Genetic Tools: The use of CRISPR-Cas9 technology allowed researchers to precisely manipulate the fru gene in D. virilis, revealing differences in mating behaviors and fertility outcomes compared to D. melanogaster.
- Implications for Cross-Species Research: These findings underscore the necessity of studying genes’ impacts across various species to accurately understand their roles in behavior and development, challenging the notion of universal gene functionality.
Source: North Carolina State University
A gene associated with courtship behavior in fruit flies does not operate the same way in two different fruit fly species, a new study finds. The work demonstrates that conserved genes โ the same genes found across species โ do not necessarily have the same function across species.
Fruitlessย (fru) is a gene common to fruit flies and many other insect species. The gene is associated with male courtship behaviors.
Scientists have studied the expression and function of the gene specifically inย Drosophila melanogasterย (D. melanogaster) by either removing it from males or by giving it to females and observing the results. For example, males withย fruย removed lose some male-specific courtship behaviors, and females givenย fruย gain some of those behaviors.
โThe fruitless gene was first found inย D. melanogasterย but it is conserved across species from grasshoppers to cockroaches and mosquitoes, and earlier experiments suggested that its function was also conserved across species,โ says Christa Baker, former postdoctoral researcher at Princeton now an assistant professor of biology at North Carolina State University.
โBut researchersโ genetic tools have advanced. With CRISPR-Cas9 we can now addย fruย to females of other species to see whether the gene functions the same way.โ Baker is a co-corresponding author of a paper describing the work.
Baker and the research team decided to look at the function of fru in a different fruit fly species, Drosophila virilis (D. virilis).
โD. virilis is quite divergent from D. melanogaster โ the species split apart around 60 million years ago,โ Baker says. โSo comparing these two fruit flies is like comparing a mouse to a rat. Theyโre both fruit flies, like mice and rats are both rodents, but they are very different.โ
Fruit flies have two copies of every gene, just like humans do. The researchers began by giving theย D. virilisย females one copy ofย fruย and found that while they were about 40% less likely to mate,ย D. virilisย females who did mate remained fertile.
In contrast, whileย D. melanogasterย females with one copy ofย fruย are also about 40% less likely to mate, those that do mate can no longer lay eggs. These findings point to a similar role forย fruย in some female behaviors like mating, but a different role in other behaviors, including laying eggs.
โD. virilisย is especially interesting because both males and females have mating songs,โ Baker says.
โIn most fly species, only the male sings. Inย D. melanogaster,ย giving femalesย fruย results in their adopting male courtship behavior, such as singing. Butย D. virilisย females with one copy ofย fruย retained the ability to sing the femaleโs song, although they sang much more than females withoutย fru.โ
The researchers then added a second copy of fru to the D. virilis females and saw that they were now able to also produce male song; however, they retained the ability to produce female song. Additionally, females with two copies were completely unreceptive to mating, and tended to express aggression toward courting males.
โThe canonical idea had been that giving femalesย fruย endows her with male behaviors while disrupting female behaviors like receptivity and egg-laying,โ Baker says.
โOur findings inย D. virilisย are exciting because they show that givingย fru to female D. virilisย does enable her to sing male songs, but it does not prevent her from singing female songs.
โWe donโt know why two copies of the gene were needed in D. virilis females to produce results similar to those from one copy in D. melanogaster, but it opens up exciting new avenues for exploration,โ Baker adds.
โWhat it does tell us, though, is that just because a gene is conserved across species doesnโt mean its function is also conserved. If we want to understand how our genome impacts behavior and development, we need to study genesโ impacts across diverse species and behaviors.โ
The work appears inย Science Advancesย and was supported in part by the National Institutes of Health. Mala Murthy, the Karol and Marnie Marcin โ96 Professor of Neuroscience at Princeton University and director of the Princeton Neuroscience Institute, is co-corresponding author. Xiao-Juan Guan, former research scientist at Princeton, and Minseung Choi, former Princeton undergraduate currently at Stanford University, also contributed to the work.
About this genetics research news
Author: Tracey Peake
Source: North Carolina State University
Contact: Tracey Peake – North Carolina State University
Image: The image is credited to Neuroscience News
Original Research: Open access.
“The role of fruitless in specifying courtship behaviors across divergent Drosophila species” by Christa Baker et al. Science Advances
Abstract
The role of fruitless in specifying courtship behaviors across divergent Drosophila species
Sex-specific behaviors are critical for reproduction and species survival. The sex-specifically spliced transcription factorย fruitlessย (fru) helps establish male courtship behaviors in invertebrates. Forcing male-specificย fruย (fruM) splicing inย Drosophila melanogasterย females produces male-typical behaviors, while disrupting female-specific behaviors.
However, whetherย fruโs joint role in specifying male and inhibiting female behaviors is conserved across species is unknown. We used CRISPR/Cas9 to forceย FruMย expression in femaleย D. virilis, a species in which males and females produce sex-specific songs.
In contrast toย D. melanogaster, in which oneย fruMย allele is sufficient to generate male behaviors in females, two alleles are needed inย D. virilisย females.ย D. virilisย females expressingย FruMย maintain the ability to sing female-typical song as well as lay eggs, whereasย D. melanogaster FruMย females cannot lay eggs.
These results reveal potential differences inย fruย function between divergent species and underscore the importance of studying diverse behaviors and species for understanding the genetic basis of sex differences.
