|
|
|
![](https://webarchive.library.unt.edu/eot2008/20081019013454im_/http://www.ars.usda.gov/incme/images/Research_head.gif) |
Research Project:
USING FUNCTIONAL AND APPLIED GENOMICS TO IMPROVE STRESS AND DISEASE RESISTANCE IN FRUIT TREES
Location: Kearneysville, West Virginia
Project Number: 1931-21000-016-00
Project Type:
Appropriated
Start Date: Apr 15, 2006
End Date: Apr 14, 2011
Objective:
Utilize functional genomic/proteomic approaches to identify genes or proteins in fruit crops that confer resistance or susceptibility to freezing or water stress and fire blight. Develop and evaluate new transgenic technologies needed to control gene flow and expression in transgenic apple trees. Evaluate genetically engineered rootstocks as (1) a means of enhancing resistance to diseases and (2) a means of indirectly influencing gene expression in the scion for the improvement of performance or quality.
Approach:
Transcript profiling will be used to identify genes associated with environmental stress, fire blight resistance, and susceptibility, while proteomic approaches will be used to better understand the relationship between gene expression and cognate protein levels. RNAi-induced gene siliencing will be used to elucidate the role of specific candidate genes in resistance and adaptation. The ability to use genetically-engineered rootstocks of apple for scion trait modification will be explored by investigating graft-transmissible gene silencing. The use of floral-specific promoters to confine and regulate the expression of dehydrin genes (responsible for cold and dehydration tolerance) to flowers of fruit crops in order to improve frost tolerance will also be investigated.
|
|
|
|
|
Last Modified: 10/17/2008
|
|