K-State researcher part of wheat genetics breakthrough

K-State researcher part of wheat genetics breakthrough

Scientists identify final vernalization gene that promises ability to design varieties that can adapt to changing environment

The pace of climate change continues to concern scientists around the world, especially those engaged in the effort to help food crops adapt and thrive in changing environments.

This week, a team that include a Kansas State University wheat geneticist announced a breakthrough.  The team has been able to identify one of the wheat genes that controls response to low temperature exposure, a process called vernalization.

GENETIC BREAKTHROUGH: A Kansas State University researcher has helped identify the last major vernalization gene in wheat. Vernalization genes define when the plant begins to flower and are critical for adaptation to different environments. The finding will help wheat breeders design wheat varieties that can adapt and thrive in changing environments around the world.

Natural variation in vernalization genes defines when the plant begins to flower and is critical for adaptation to different environments. Finding a controlling gene will help breeders be able to design varieties that have better adaption traits.

Eduard Akhunov, associate professor in the K-State plant pathology department, collaborated with Jorge Dubcovsky at the University of California, Davis on this study. It appears in the Proceedings of the National Academy of Science, or PNAS, article "Identification of the VERNALIZATION 4 gene reveals the origin of spring growth habit in ancient wheats from South Asia."

"The vernalization genes can sense for how long the plant was subjected to low temperature treatment and trigger flowering when the time is right," Akhunov said. "Wheat adapted to different environmental conditions by using different forms of these vernalization genes — the first three of which had been identified by Dr. Dubcovsky's group prior to this study. This is the last major vernalization gene to complete the story."

In the study, researchers investigated a gene called VRN-D4 that is found in wheat lines primarily grown in South Asia, particularly northeastern Pakistan and northwestern India. They showed that the gene likely originated by duplication of a major vernalization gene VRN-A1.

Researchers analyzed the genetic diversity in the global wheat populations to test if the VRN-D4 gene helped the wheat varieties grown in South Asia adapt to the region's climate and environment. They used a variety of population genetics and bioinformatics approaches to analyze genetic diversity along the chromosomes in multiple wheat varieties around the world.

Researchers looked for regions of each plant's genome that showed unusual patterns of variation consistent with past selective breeding acting on the VRN-D4 gene. The team observed that while the VRN-D4 gene is present in wheat varieties grown in different parts of the world, it is most frequent in South Asia.

The researchers concluded it is likely that ancient farmers favored the VRN-D4 variant of the vernalization gene in this region because of its high adaptive value in the local environment.

"A wheat line's adaptation to its local environment is probably one of the most important properties of the plant for wheat breeders because it directly influences crop production," Akhunov said. "If you grow lines of wheat that are not adapted to a specific environment, you will not get a very high yield."

Plant scientists have only recently begun to understand how the vernalization response in plants works, Akhunov said. The latest findings offer new focus points into how these genes and others may be modified to fine-tune a wheat variety for a particular environment, which will result in less crop and food loss due to changing environment.

The U.S. Department of Agriculture and the Howard Hughes Medical Institute funded the study.

Source: Kansas State University News Service


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