This site is using cookies to collect anonymous visitor statistics and enhance the user experience.  OK | Find out more

Skip to content
Natural Environment Research Council
Grants on the Web - Return to homepage Logo

Details of Award

NERC Reference : NE/S001050/1

The genetic basis of reproductive isolation through intragenomic conflict

Grant Award

Principal Investigator:
Dr TAR Price, University of Liverpool, Institute of Integrative Biology
Co-Investigator:
Professor S Paterson, University of Liverpool, Evolution, Ecology and Behaviour
Co-Investigator:
Dr AJ Betancourt, University of Liverpool, Evolution, Ecology and Behaviour
Co-Investigator:
Professor G Hurst, University of Liverpool, Evolution, Ecology and Behaviour
Science Area:
Terrestrial
Overall Classification:
Panel C
ENRIs:
Biodiversity
Science Topics:
Behavioural Ecology
Evolutionary biology
Selfish gene
Reproductive isolation
Systematics & Taxonomy
Evolutionary biology
Speciation
Abstract:
Species are perhaps the most vital biological unit, with members of the same species sharing gene flow and common traits. Understanding how species are formed is critical for a broad understanding of biology, particularly of how biodiversity is created. The textbook explanation for how one species splits into two is "ecological speciation": populations diverge because of differences in local ecology. The classic example is Darwin's finches, where on one island birds mostly eat small seeds, and evolve delicate bills to easily gather them, while on another island large nuts are available, and the population evolves large beaks to crack them open. Eventually the differences between the populations are so great that they cannot interbreed. There are many good examples of this kind of ecological speciation, such as stickleback fish and Darwin's finches. However, there is a major alternative theory about how speciation might occur. This theory is called conflictual speciation, and holds that populations that are isolated will diverge in their selfish genetic elements. While most genes typically cooperate within an individual to increase the number of offspring produced, selfish elements instead manipulate reproduction to increase their own success, cheating the other genes in their genome. The conflict these genes cause is thought to rapidly create differences between populations in key reproductive genes. This makes hybrids between populations less able to survive and breed -and is particularly damaging to sperm production in males. Conflictual speciation theory suggests that new species form due to these internal conflicts within the genome, rather than external ecological factors. If strong evidence is found to support conflictual speciation, we will have to fundamentally rethink many of our ideas about how and why speciation occurs. Conflictual speciation has been supported by a wealth of circumstantial evidence, but crucial evidence of the process in action between closely related populations is lacking. In this project, we will study a pair of populations where this process is thought to be ongoing. We have found that North African Drosophila subobscura flies can interbreed happily with European populations. However, some D. subobscura in North Africa carry a selfish X chromosome called "SRs", which in males kills all his Y-chromosome sperm, so all his offspring inherit the SRs chromosome and are daughters. As this selfish X is passed on to almost all offspring, while normal X chromosomes are only passed to half a male's offspring, the selfish X should spread rapidly through populations. However, the SRs X cannot spread into Europe because hybrid males that carry SRs are sterile, probably because their sperm killing mechanism malfunctions and kills all their sperm. This unique example of a selfish chromosome creating incompatibilities between populations that are otherwise completely compatible, provides us with an opportunity to study the early stages of conflictual speciation. In North Africa, some males that carry SRs do produce some sons. We think this is because the rest of the genome has evolved to suppress the killing of Y sperm by SRs, allowing some sons to be produced. We will test the theory of conflictual speciation by first determining the genes that cause the infertility in the SRs hybrids by sequencing hybrids with high and low fertility. We will then test the theory of conflictual speciation by determining whether these genes are the same ones that provide resistance to drive. We will also examine whether these genes have been evolving more rapidly in North Africa than Spain, which would suggest that the difference is caused by SRs being present in Africa, rather than both populations simply diverging genetically over time.
Period of Award:
29 Apr 2019 - 28 Feb 2023
Value:
£521,792
Authorised funds only
NERC Reference:
NE/S001050/1
Grant Stage:
Completed
Scheme:
Standard Grant FEC
Grant Status:
Closed
Programme:
Standard Grant

This grant award has a total value of £521,792  

top of page


FDAB - Financial Details (Award breakdown by headings)

DI - Other CostsIndirect - Indirect CostsDA - InvestigatorsDI - StaffDA - Estate CostsDA - Other Directly AllocatedDI - T&S
£49,880£132,066£54,896£213,008£45,990£16,585£9,366

If you need further help, please read the user guide.