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UrduHighlights:
- Michigan State University researchers sequenced the Montmorency tart cherry genome for the first time.
- This will have a major impact on all future tart cherry research and breeding efforts worldwide.
- Michigan is the nation’s leading producer of tart cherries.
“I naively thought that this would be an easy endeavor; we would simply sequence a few early and late-blooming cherry trees and align the sequences to the peach genome and get an answer in just a few weeks,” said Courtney Hollender, an assistant professor in the College of Agriculture and Natural Resources at MSU. “I couldn’t have been more wrong.”
Genomes contain all the genes and genetic instructions for an organism’s development. Sequencing it provides a map for researchers when they are trying to, for example, grow a cherry tree that will bloom later in the season. For Hollender’s doctoral candidate, Charity Goeckeritz, an exercise in frustration piqued her curiosity.
“I was trying to align the tart cherry DNA sequences with the peach genome and they just weren’t aligning very well,” said Goeckeritz. “I was complaining about it to everyone and, finally, one of my friends suggested we just sequence the tart cherry genome.” Thanks to funds from MSU’s AgBioResearch Project GREEEN, or Generating Research and Extension to Meet Economic and Environmental Needs, they were able to do just that.
Hollender and Goeckeritz teamed up with Amy Iezzoni, MSU professor emerita and the nation’s only tart cherry breeder; Kathleen Rhoades, Iezzoni’s doctoral student; Bob VanBuren, an assistant professor in the Department of Horticulture and MSU’s Plant Resilience Institute; Kevin Childs, director of the MSU Genomics Core; and Patrick Edger, an associate professor in MSU’s Department of Horticulture. Together they found that the Montmorency tart cherry genome was more intricate than they originally thought.
The complexities come from the tart cherry’s parental plant chromosomes. Tart cherries are allotetraploids meaning instead of having two sets of chromosomes like humans, they have four sets from at least two different species.
“Not only does tart cherry have four copies of every chromosome, but it also is the product of a natural cross between two different species,” said Goeckeritz. “The ground cherry, Prunus fruticosa, and the sweet cherry, Prunus avium, that may have happened almost two million years ago.”
While Goeckeritz is using the genome to study bloom time, Rhoades, who conducted the RNA sequencing or gene expression analysis for the project, is working to identify genes that are associated with specific fruit traits, such as color and firmness.
Having the Montmorency tart cherry genome sequence opens the possibilities for a tremendous amount of future research that will ultimately benefit the industry and the consumer by growing more trees that can withstand varying spring weather and produce more cherries.
“Before this genome, there were some sequences for tart cherries but it wasn’t a complete picture, and I just wanted to have the genome for research and breeding purposes,” said Hollender. “Now we have a complete picture, and this research will have a major impact on all future tart cherry research and breeding efforts worldwide.”
The research was published in the journal Horticulture Research.
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