Auxin tells the stem cells to stop growing and the gynoecium to start forming in flowers
Role identified for plant hormone auxin in determining developmental switch from cell division to floral reproduction
- Date:
- October 24, 2017
- Source:
- Nara Institute of Science and Technology
- Summary:
- Scientists have found that the plant hormone auxin governs the change from cell division at shoot tips to the development of female parts of a flower. Auxin levels are themselves controlled by the CRABS CLAW protein, which joins forces with another protein to negatively regulate stem cell growth. This highly regulated process is essential for successful plant reproduction and could be manipulated to improve crop production.
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Many human and animal foodstuffs, such as grains and fruits, derive from flowering plants. Flowers are formed from groups of dividing stem cells at the ends of shoots, and the division of these cells is stopped at a particular stage of development once floral components have formed.
A new study by scientists at Nara Institute of Science and Technology (NAIST) provides new molecular insight into the coordination of this termination and development by showing the interplay between two molecules, CRABS CLAW and TORNADO2. The findings, published in Nature Communications, describes key molecular events that must occur for stem cells to stop growing and begin transitioning into the development of reproductive organs. They showed that the plant hormone auxin controls the change from cell division to female reproductive development.
"Termination of floral stem cell growth and the beginning of gynoecium development is tightly regulated spatially and temporally. Our interest is the coordination of these two events," explains NAIST Professor Toshiro Ito. Floral stem cell termination depends on the activation of two genes, one being CRABS CLAW and the other being KNUCKLES. The lab had already reported the influence of KNUCKLES on stem cell termination, so in the present work the focus was on CRABS CLAW. Therefore, Prof. Ito had his Assistant Professor, Nobutoshi Yamaguchi, prepare seeds of the plant Arabidopsis thaliana with mutants in CRABS CLAW and KNUCKLES.
The double mutant led the scientists to conclude that CRABS CLAW regulation of growth termination depends on its transcriptional regulation of the protein TORNADO2. "TORNADO2 regulates the auxin homeostasis. Auxin is a plant hormone that promotes growth of the stem tip," says Assist. Prof. Yamaguchi.
Indeed, they found that CRABS CLAW represses TORNADO2 expression by binding to an evolutionary conserved region in the TORNADO2 gene, suggesting this interaction is common in different plant species beyond Arabidopsis thaliana. This repressive binding was further shown to affect the TORNADO2 expression and thus auxin distribution in the floral buds. The study gives a roadmap for how CRABS CLAW coordinates the growth termination of the floral stem cells and the development of the gynoecium.
"We found that CRABS CLAW modulates auxin homeostasis through its interaction with the TORNADO2 gene. This result describes an elegant mechanistic link between floral stem cell growth termination and gynoecium development," says Assist. Prof. Yamaguchi.
"Because flowering plants are so important to our food supply, a fundamental understanding of flower development will help to improve it," Prof. Ito says. "Such understanding has an important impact for basic biology, and could help create biotechnological improvements for the production of high-value crops."
Story Source:
Materials provided by Nara Institute of Science and Technology. Note: Content may be edited for style and length.
Journal Reference:
- Nobutoshi Yamaguchi, Jiangbo Huang, Yifeng Xu, Keitaro Tanoi, Toshiro Ito. Fine-tuning of auxin homeostasis governs the transition from floral stem cell maintenance to gynoecium formation. Nature Communications, 2017; 8 (1) DOI: 10.1038/s41467-017-01252-6
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