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Gene Blocking Lettuce Germination Also Regulates Flowering Time

Discovery Could Be Crucial for Adapting to Climate Change

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Two men in greenhouse examine flowering lettuce plant.
Kent Bradford, left, and Alfred Huo, seen here with a flowering lettuce plant, found that lettuce could be prevented from flowering by increasing the expression of a specific microRNA in the plants. The high levels of this microRNA prevent the plant from transitioning to adulthood and flowering, and the plant continues to make numerous baby leaves rather than forming a compact head of lettuce. (Gregory Urquiaga/澳门六合彩资料库 Davis)

Quick Summary

  • Gene functions by acting on certain microRNAs
  • Process helps adapt timing of seed dormancy and flowering to environmental conditions
  • Findings important for $1.9 billion U.S. lettuce industry

Like most annuals, lettuce plants live out their lives in quiet, three-act dramas that follow the seasons. Seed dormancy gives way to germination; the young plant emerges and grows; and finally in the climax of flowering, a new generation of seeds is produced. It鈥檚 remarkably predictable, but the genetics that coordinates these changes with environmental cues has not been well understood.

In a recent study of lettuce and the model plant Arabidopsis, researchers at the 澳门六合彩资料库 Davis Seed Biotechnology Center and in China show for the first time that a gene known to direct the depth of seed dormancy and the timing of germination also influences flowering. The study further suggests that the gene does this by influencing production of certain microRNAs 鈥 tiny snippets of genetic material that govern transition from one phase of the plant鈥檚 life cycle to another.

The findings, which have important implications for the annual U.S. lettuce crop, will be reported during the week of March 28 in the Proceedings of the National Academy of Sciences.

鈥淚t appears that the 鈥楧elay of Germination 1,鈥 or DOG1, gene is an environmental sensor, detecting environmental changes and enabling the plant to not only keep the seed dormant but to also delay flowering,鈥 said study co-author Kent Bradford, a plant scientist and director of the Seed Biotechnology Center.

鈥淭his gene could be a particularly valuable tool as climate change shifts our growing seasons and we are forced to develop plants that can adapt to those environmental changes,鈥 Bradford said.

Germination and flowering

Annual flowering plants match their life cycles颅 鈥 especially seed germination and flowering 鈥 to the appropriate season. If a flowering plant germinates too early, the seedling might appear before temperatures are warm enough for the plant to survive.

Such coordination of life cycles and environmental conditions is equally important for cultivated crops. An entire lettuce crop can be lost if the plants respond to early warm temperatures and 鈥渂olt,鈥 producing flowers and seeds before marketable heads of lettuce have formed.

In the new study, the researchers found that suppressing the DOG1 gene in lettuce or Arabidopsis decreased the levels of one microRNA and increased levels of another. As a result, seeds germinated at higher temperatures, and the plants flowered earlier than normal.

鈥淭his provides evidence of a molecular genetic mechanism that is at work, coordinating adaptation of seed dormancy and flowering traits in the plants to accommodate environmental conditions,鈥 said study co-author Heqiang 鈥淎lfred鈥 Huo, a postdoctoral researcher in the Bradford lab.

鈥淥ur results also suggest that the period between seed dormancy and seed germination is a distinct phase in the plant鈥檚 lifecycle and that this phase appears to be influenced by the same microRNA systems that govern the plant鈥檚 maturation and flowering stages,鈥 Huo said.

Collaborators and funding

Collaborating with Bradford and Huo was Shouhui Wei of the Chinese Academy of Agricultural Sciences in Beijing.

Funding for the study was provided by the U.S. Department of Agriculture competitive grants program and Rijk Zwaan seed company, headquartered in the Netherlands.

Media Resources

Kent Bradford, Seed Biotechnology Center, 530-752-6087, kjbradford@ucdavis.edu

Heqiang "Alfred" Huo, Seed Biotechnology Center, (530) 752-9098, hhuo@ucdavis.edu

Pat Bailey, 澳门六合彩资料库 Davis News and Media Relations, 530-219-9640, pjbailey@ucdavis.edu

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