Whole Genome Duplications Linked to Higher Oil Yields in Key Crops

Sep 04, 2024

Oil crops are pivotal for human nutrition and industry due to their ability to produce and store large amounts of oil in seeds. With the global demand for vegetable oils steadily rising, there is an urgent need to discover new high-yielding oil plants and improve the oil production of existing crops. Addressing these challenges requires a deep understanding of the genetic mechanisms behind oil biosynthesis.

On June 7, 2024, researchers from Lanzhou University, Shanxi Normal University, and other institutions published their findings in Horticulture Research. They explored the role of whole genome duplications (WGDs) in oil biosynthesis across various oil  by analyzing the genome of Elaeagnus mollis. The study provides key insights into how WGDs drive the evolution of oil biosynthetic genes, significantly enhancing oil crop performance.

The team assembled a comprehensive genome of Elaeagnus mollis, revealing two ancient WGD events that expanded the genetic toolkit for oil biosynthesis. Remarkably, 74% of the genes involved in  were found to be WGD-derived duplicates. This pattern was consistent across other major oil crops like rapeseed and sunflower, highlighting the crucial role of WGDs in oil .

In contrast, non-oil plants showed limited contributions from WGDs, relying more on other gene duplication methods. The findings underscore the unique evolutionary edge WGDs give oil crops, promoting higher oil content and specialized pathways that support their adaptation and productivity.

"WGDs are critical drivers of genetic diversity and innovation, particularly in oil biosynthesis," said Dr. Shengdan Wu, a senior author of the study.

"Our research demonstrates how these duplications have repeatedly shaped oil biosynthetic pathways in various crops, opening up new possibilities for breeding and crop improvement strategies to enhance oil yields."

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