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July 31, 2024

How duplicated genomes helped grasses diversify and thrive

A new study led by Penn State researchers identified whole-genome duplication events in the plant family that includes rice, maize, wheat and bamboo and explored how retention or loss of duplicated genes helped shaped the evolution of grasses allowing them to thrive in a multitude of environments.

<p>A new study led by Penn State researchers identified whole-genome duplication events in the plant family that includes rice, maize, wheat and bamboo and explored how retention or loss of duplicated genes helped shaped the evolution of grasses allowing them to thrive in a multitude of environments.</p>

A new study led by Penn State researchers identified whole-genome duplication events in the plant family that includes rice, maize, wheat and bamboo and explored how retention or loss of duplicated genes helped shaped the evolution of grasses allowing them to thrive in a multitude of environments.

Credit: https://www.psu.edu/news/eberly-college-science/story/how-duplicated-genomes-helped-grasses-diversify-and-thrive