WSU Cougar Head Logo Washington State University
WSU Insider
News and Information for Faculty, Staff, and the WSU Community

WSU researcher maps tree fruit genome mosaic

Improved apples, peaches, pears and cherries at market sooner. This is one benefit of research by WSU bioinformaticist Dorrie Main.

Piece by piece, Main, an associate professor of horticulture and a scientist in the WSU Agricultural Research Center, is mapping the DNA mosaic of the rosaceous family. The family includes Washington’s largest crop–apples–and other tree fruit as well as cherries, peaches, berries and nuts. One result of her work is a shortening of the time between breeding-improved tree fruit varieties and actually planting them for production.

Main focuses on genes connected primarily to fruit quality– sugar and acid levels, color, firmness and fruit size as well as other useful traits such as cold hardiness, disease resistance and post-harvest decay. DNA-based markers for genes with these traits give orchardists the ability to pre-select seedlings that contain the improvements, which shortens the time it takes to develop commercially acceptable varieties.

“We’re working on speeding up the time to crop improvement, which will enhance the productivity and competitiveness of Washington fruit tree growers,” Main says. “In collaboration with other WSU researchers, breeders and growers, this research will help generate a population of new apple and cherry cultivars with desirable traits much more quickly.”

A self-identified “data miner,” Main uses a 128-processor computer to analyze and house data for the Genome Database for Rosaceae, the international repository for all genetic information currently available about the family.

“Basically, we take the raw data generated by researchers worldwide and try to make sense of it,” said Main. “We take all of the known genes in the public gene bank and analyze them based on function. We are looking at 250,000 gene fragments and pulling out what’s meaningful.”

In terms of economic volume, the rosaceae family is the third most important family in the U.S. and other temperate regions of the world. Its aggregate wholesale value in the United States is approximately $7 billion.

Next Story

Recent News

3D printing for materials innovation

WSU researchers provide a roadmap for industry and academics to use 3D printing to design new alloys, which are materials made up of two or more metallic elements.

Find More News

Subscribe for more updates