Virgin bee DNA unravelled
Researchers have discovered a gene in honeybees that causes virgin birth.
University of Sydney experts have identified a single gene that determines the ability of Cape honeybees to reproduce without ever having sex.
The gene is GB45239 on chromosome 11.
“It is extremely exciting,” says Professor Benjamin Oldroyd in the School of Life and Environmental Sciences.
“Scientists have been looking for this gene for the last 30 years. Now that we know it’s on chromosome 11, we have solved a mystery.”
But the behavioural geneticist says the finding sheds light on a bigger mystery.
“Sex is a weird way to reproduce and yet it is the most common form of reproduction for animals and plants on the planet,” Professor Oldroyd said.
“It’s a major biological mystery why there is so much sex going on and it doesn’t make evolutionary sense. Asexuality is a much more efficient way to reproduce, and every now and then we see a species revert to it.”
South Africa’s Cape honeybee has the gene to allow worker bees to lay eggs that only produce females.
“Males are mostly useless,” Professor Oldroyd says, “but Cape workers can become genetically reincarnated as a female queen and that prospect changes everything”.
But it also causes problems.
“Instead of being a cooperative society, Cape honeybee colonies are riven with conflict because any worker can be genetically reincarnated as the next queen. When a colony loses its queen the workers fight and compete to be the mother of the next queen,” Professor Oldroyd said.
The ability to produce daughters asexually, known as “thelytokous parthenogenesis”, is restricted to a single subspecies inhabiting the Cape region of South Africa, the Cape honeybee or Apis mellifera capensis.
The ovaries of the Cape honeybee are larger and more readily activated than other subspecies, and they are able to produce queen pheromones, allowing them to assert reproductive dominance in a colony.
These traits also lead to a propensity for social parasitism, a behaviour where Cape bee workers invade foreign colonies, reproduce and persuade the host colony workers to feed their larvae.
Every year in South Africa, 10,000 colonies of commercial beehives die because of the social parasite behaviour in Cape honeybees.
“This is a bee we must keep out of Australia,” Professor Oldroyd said.
The existence of Cape bees with these characters has been known for over a hundred years, but it is only recently, using modern genomic tools, that we have been able to understand the actual gene that gives rise to virgin birth.
“Further study of Cape bees could give us insight into two major evolutionary transitions: the origin of sex and the origin of animal societies,” Professor Oldroyd said.
Perhaps the most exciting prospect arising from this study is the possibility to understand how the gene actually works.
“If we could control a switch that allows animals to reproduce asexually, that would have important applications in agriculture, biotechnology and many other fields,” Professor Oldroyd said.
“For instance, many pest ant species like fire ants are thelytokous, though unfortunately it seems to be a different gene to the one found in Capensis.”