PI: David Hannapel (Iowa State University) CoPIs: Aragula G. Rao (Iowa State University), Jeff Coller (Case Western Reserve University), William J. Lucas (University of California, Davis)

Plants perceive outside signals that activate pathways to control their defenses and growth. The length of daylight or photoperiod is a key signal that regulates growth processes like flowering in many plants and tuber formation in potato. Tuber formation in potato involves the transport of a light-activated signal from the leaf to the underground organ, the potato tuber. The overall scientific objective of this project is to study the range of signals that are responsible for controlling tuber formation. Signals involved in this process include both proteins and RNA.

Two research goals will be addressed in this project: 1) To identify and characterize RNAs of potato that are transported from the leaf to the underground tuber and 2) To identify proteins that work with the RNAs to facilitate this transport.

Several approaches will be undertaken to implement these research goals, including the systematic characterization of the network of RNAs and proteins present in this transport system. Proteins and RNAs will be identified and tested for their function in this signaling system. The primary goal of this project is to understand how this collection of signals regulates tuber formation. The utility of this research activity is that the information generated by these experiments will have direct applications for enhancing crop productivity. The broader scientific impacts resulting from this research activity are inherent in the enhancement of our understanding of how plants use light signals to control their growth and, for agronomic crops, to affect their yield.

A significant component of this project is the educational and outreach features. The educational component will be implemented through the Summer Internship program that will provide high school and undergraduate students with the opportunity to participate in plant biology projects. As a component of outreach training, summer internships for high school biology teachers will also be offered. These teachers will work with project leaders on the Iowa State, UC-Davis, or Case Western Reserve campuses to learn more about plant biology. By targeting high school teachers who may teach up to 100 students a year, the influence of this program will be greatly expanded and will fulfill a primary mission of NSF; to communicate to society the significance of the outcomes of current research in plant biology. The international component of this project will expand the breadth of training available through this initiative and enhance global awareness of the scientific challenges addressed in this research. This project includes ample opportunities for participation by women and underrepresented groups in laboratory research. Project outcomes will be made available to the scientific community through a project website, which will be accessible via www.hort.iastate.edu/research/research-detail.php?id=1148.

Agency
National Science Foundation (NSF)
Institute
Division of Integrative Organismal Systems (IOS)
Application #
0820659
Program Officer
Diane Jofuku Okamuro
Project Start
Project End
Budget Start
2008-10-01
Budget End
2014-09-30
Support Year
Fiscal Year
2008
Total Cost
$2,754,729
Indirect Cost
Name
Iowa State University
Department
Type
DUNS #
City
Ames
State
IA
Country
United States
Zip Code
50011