08:14am Monday 25 September 2017

Tel Aviv University Discovers Genetic Trigger for Asexual Plant Reproduction

Tel Aviv — The reproduction process is essentially the same in humans, animals and most plants. Both female and male organisms are required to contribute to the phenomenon.

A new joint Tel Aviv University–Freiburg University study offers an alternative: the discovery of a genetic trigger for the development of offspring without cross-fertilization — in moss. It identifies and explores the master genetic switch for self-reproduction in the moss Physcomitrella patens. According to the new study, the BELL1 gene triggers a pathway of genes that facilitate embryo development without fertilization to form fully functional adult moss plants.

The research was led jointly by Prof. Nir Ohad, Director of the Manna Center Program for Food Safety and Security at TAU’s Faculty of Life Sciences, and Prof. Ralf Reski of the University of Freiburg. It was recently published in Nature Plants.

“The knowledge gained from our research may help to modernize agriculture, allowing us to clone certain important plants and distribute their seeds to farmers,” Prof. Ohad said.

A model for self-fertilization

“Moss possesses both egg cells and motile sperm, and as such, serves as a simple model plant to understand self-fertilization processes,” said Prof. Ohad. “Our results explain at the molecular level how asexual reproduction — known as parthenogenesis or apomixes — has evolved. In these processes, genetically identical plants are formed.”

In reproduction, a network of genes is activated after the fusion of sperm and egg cell. This leads to the development of an embryo, which then grows into a new living being. Until now, it was unclear whether a central genetic switch for this process existed.

The team pinpoints the gene BELL1 as the master regulator for the formation of embryos and their development in moss. “This gene was conserved in evolution,” said Prof. Ohad, a specialist in the epigenetic regulation of reproductive development. He helped identify the first BELL genes in seed plants 20 years ago as a member of a team led by Prof. Robert Fischer of UC Berkeley. “Our new findings may have implications for generating genetically identical offspring from high yielding crop plants.”

The scientists harnessed genetic engineering to activate the BELL1 gene in moss plants and observed embryos developing spontaneously on a specific cell type. To their surprise, these embryos grew to fully functional moss sporophytes. These spore capsules later formed spores, which grew into new adult moss plants.

From plants to humans?

According to the study, the protein encoded by the BELL1 gene belongs to the class of “homeobox” transcription factors. Similar homeotic genes are also present in humans and animals, where they also control pivotal developmental processes. Whether or not a congener of BELL1 is a master regulator of embryo development in humans remains unclear.

“Our results are important beyond mosses,” said Prof. Reski. “First, they can explain how algae developed into land plants and shaped our current ecosystems. Second, they may help to revive the concept of genetic master regulators in the development of plants, animals and humans.”

The study was supported by the German-Israeli Foundation, the Freiburg Excellence Cluster BIOSS and the Freiburg Institute for Advanced Studies. The scientists are carrying forward their research to identify the exact genes triggered by BELL1 to facilitate the formation of embryos without fertilization.


American Friends of Tel Aviv University (www.aftau.org) supports Israel’s most influential, comprehensive, and sought-after center of higher learning, Tel Aviv University (english.tau.ac.il). TAU ranked #75 globally and #1 in Israel in a 2015 Reuters survey of the 100 most innovative universities. It is one of a handful of elite universities rated as the best producers of successful startups, and TAU alumni rank #9 in the world for the amount of venture capital they attract.

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