The researchers from the University of Leicester have discovered a pair of proteins made by flowering plants that are vital for the production of the sperm present within each pollen grain.
Scientists already knew that flowering plants, in contrast to animals, require not one, but two sperm cells for successful fertilisation: one to join with the egg cell to produce the embryo and one to join with a second cell to produce the nutrient-rich endosperm inside the seed.
The mystery of this 'double fertilisation' process is how each single pollen grain is able to produce twin sperm cells.
The new study from the Twell Laboratory at the University of Leicester, published in the journal The Plant Cell, has found a pair of genes called DAZ1 and DAZ2 that are essential for making twin sperm cells.
Plants with mutated versions of DAZ1 and DAZ2 produce pollen grains with a single sperm that is unable to fertilise.
The researchers showed that DAZ1 and DAZ2 are controlled by the protein DUO1 that acts as a 'master switch' - so that DUO1 and the DAZ1/DAZ2 genes work in tandem to control a gene network that ensures a pair of fertile sperm is made inside each pollen grain.
sperm and seed production.
Although TOPLESS has many roles in plants it has not previously been linked sperm production.
"We often take for granted sexual reproduction in plants and its role in our lives. It is a complex process that has been studied scientifically for over a century, but it is only recently that we are beginning to get a grip on the underlying mechanisms," said Professor David Twell at the University of Leicester's Department of Biology, who led the study.
"We hope to use our discovery to decipher the origins of sexual reproduction and to further demystify the fascinating process - of how plants make the fertile sperm inside the pollen grains - that are essential for the vast majority of our food crop production," Twell said.
Given their important role in male fertility, the discovery of DAZ1 and DAZ2 has the potential to be applied in the development of new plant breeding techniques to prevent the unwanted passing of genes - or 'horizontal gene transfer' - between crops or from crops to wild species, researchers said.
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