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Collaborative Research-Lanthanide Binding Tags: Chemical Tools for Investigating Protein Structure and Function

$791,220FY2008BIONSF

Trustees Of Boston University, Boston

Investigators

Abstract

Intellectual Merit: Lanthanide binding tags (LBTs) are small peptides (15-20 residues) that impart on the protein to which they are attached specific and tight binding of lanthanide ions. LBTs permit the use of applications that rely upon the photophysical properties of the bound lanthanides. These sequences have been integrated into many target proteins and tested for applications in nuclear magnetic resonance, X-ray crystallography, and luminescence. In the next phase of research, the LBT technology will be enlisted for addressing challenging problems of biological significance, moving from the test tube to the cell. The new studies will exploit the unique properties of the LBTs and the bound lanthanides. Namely, lanthanides luminescence properties can eliminate the high background often complicating measurements in biological systems using current technologies for locating proteins and measuring protein motion. The LBT capabilities will be extended by modification of the chemistry to impart properties with greater number of potential application. There are four parts to the project: 1) The LBTs will be used to study dynamic changes in protein structure using the property of luminescence resonance energy transfer in the important cell signaling calcineurin A/calcineurin B complex. 2) These new LBTs will be used to increase understanding of cell-cell signaling and cellular trafficking. 3) The LBT will be developed as a novel gadolinium contrast agent for use in magnetic resonance imaging. 4) The use of LBTs in determining protein crystal structures will be extended to the challenging problem of solution structure of proteins embedded in cell membranes. The LBTs will provide multiple features for the solution of these difficult structures. The dissemination of the information gained from these studies will allow the broad application of LBTs by the research communities. During the development of the tags, high school students, graduate students and postdoctoral associates will been trained in an integrated and collaborative research environment spanning multiple disciplines. These studies will provide the researchers with the foundation needed to address a broad range of problems at the interface of Biology, Chemistry and Physics. Broader Impact of the Research. During the project period, use of the LBTs will be extended in applications of biological importance, providing the scientific community with new LBTs and defined protocols for the application of the tags to a wide variety of problems including the study of protein dynamics, protein signaling and trafficking, cellular environment reporting, and the structure of integral membrane proteins. During the development of the tags, students and postdoctoral associates will be trained in an integrated and collaborative research environment spanning skill sets in molecular biology, fluorescence, protein chemistry, MRI, and X-ray crystallography at multiple institutions. These studies will provide the researchers with the foundation needed to address a broad range of problems at the interface of Biology, Chemistry and Physics. Undergraduate students will have the opportunity to be trained under the auspices of the UROP (undergraduate research opportunities) programs at MIT and Boston University School of Medicine as well as High School students through the BU CityLab program. Both MIT and Boston University have aggressive policies and procedures in action for the recruitment and retention of under-represented minorities at the undergraduate and graduate levels.

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Collaborative Research-Lanthanide Binding Tags: Chemical Tools for Investigating Protein Structure and Function · GrantIndex