Chinese researchers unravel high-yielding mechanism of cultivated tomatoes

Published 2024년 4월 8일

Tridge summary

Researchers at Fujian Agriculture and Forestry University in China have made a groundbreaking discovery on how cultivated tomatoes can achieve self-pollination by modifying their floral organ structures. By regulating the development of trichomes to form a cone around the male anthers and creating a network of zipper trichomes through the action of homeodomain-leucine zipper (HD-ZIP) genes, they have also managed to adjust the length of the female style. This genetic manipulation enables tomatoes to self-pollinate, which could significantly boost fruiting rates and have profound implications for agricultural practices, especially in increasing tomato yields. This research was published in the journal Science.
Disclaimer:The above summary was generated by Tridge's proprietary AI model for informational purposes.

Original content

FUZHOU -- Chinese researchers have recently discovered the formation mechanism behind self-pollination in cultivated tomatoes, providing valuable insights for increasing tomato yield.Researchers from the Fujian Agriculture and Forestry University have found that tomatoes can alter the structure of floral organs by regulating the development of trichomes in themselves, thus adopting a self-pollination method to enhance their fruiting rates.Domesticated tomatoes achieve this anatomically by forming a cone around the male anthers, which ensures that pollen can easily reach the stigma. The anther cone is held together by a dense network of hairs called zipper trichomes.Researchers identified a set of homeodomain-leucine zipper (HD-ZIP) genes that regulate the formation of these trichomes. Simultaneously, these genes regulate the length of the female style, allowing coordinated development of a self-pollinating ...
Source: Chinadaily

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