Development of Multipurpose Tags and Affinity Reagents for Rapid Isolation and Visualization of Protein Complexes
EMSL Project ID
7195d
Abstract
Our long-term goal is to develop high-throughput methods for the rapid and quantitative characterization of protein complexes in microbial cells. We propose to implement a strategy focusing on the development of multiuse protein tags engineered around a tetracysteine motif (i.e., CCXXCC), which has previously been shown to provide a highly selective binding site for cell permeable arsenic-containing affinity reagents that can be used to first identify and then validate protein complexes in living cells. Taking advantage of the large increase in the fluorescence signal associated with binding the proposed fluorescent affinity reagents to the protein tag, it will be possible to use on-line detection to monitor affinity isolation of protein complexes and rapidly identify the proteins in the complex using mass spectrometry. Identification of low-affinity binding interactions in protein complexes is possible by engineering protein crosslinkers onto the biarsenical affinity reagents. Furthermore, these same protein tags and affinity reagents will permit real-time visualization of steady-state protein abundance and protein-protein interactions, permitting validation of identified protein complexes under cellular conditions and the high-throughput identification of metabolic flow through defined biochemical pathways in response to environmental conditions. Ultimately, these methods will permit an optimization of useful metabolic pathways to fulfill Department of Energy (DOE) goals involving efficient energy utilization, carbon sequestration, and environmental remediation. To accomplish these goals, we propose several specific aims, but with respect to this user proposal, only one aim requires NMR: Identify multipurpose tags with optimized sequences for differential labeling using cell permeable orthogonal fluorescent probes.
Project Details
Project type
Capability Research
Start Date
2006-04-14
End Date
2007-03-20
Status
Closed
Released Data Link
Team
Principal Investigator
Team Members
Related Publications
Cao H.; Xiong Y.; Wang T.; Chen B.; Squier TC.; Mayer, MU (2007) A Red Cy3-Based Biarsenical Fluorescent Probe Targeted to a Complementary Binding Peptide. J. Am. Chem. Soc. 129: 8672-8673
Yan P, T Wang, GJ Newton, TV Knyushko, Y Xiong, DJ Bigelow, TC Squier, and MU Mayer. 2009. "A Targeted Releasable Affinity Probe (TRAP) for In Vivo Photo-Crosslinking." Chembiochem 10(9):1507-1518. doi:10.1002/cbic.200900029