IDBR: Development of a Spectroscopic Instrument for the Study of Vibrational Relaxation and Local Motion in Biomolecular Systems
Michigan State University, East Lansing MI
Investigators
Abstract
Abstract This proposal is for the construction of an instrument that will provide previously unobtainable information on the organization and dynamics of plasma membranes, biomimetic structures, and light harvesting proteins. The dissipation of energy within lipid bilayers and light harvesting proteins is not well understood but is thought to mediate the function of these two different classes of biomolecular systems. One of the broad biological issues this project addresses is the fundamental, molecular basis for the formation of lipid raft structures, and why such structures vary with the concentrations and identities of the bilayer constituents. Understanding the molecular structural basis for lipid raft organization requires that the viscoelastic properties and intermolecular interactions of the lipid bilayer constituents can be measured. The proposed instrumentation will allow for the measurement of molecular motion and thermal energy flow in biomolecular systems. This project entails designing, constructing, and characterizing an instrument that will apply stimulated-emission spectroscopy to the study of structure and dynamics of biological membranes and proteins. The instrument will reveal how the lipid and protein components of the mammalian cell membrane interact to yield functional assemblies that are responsible for energy transduction, transmembrane transport, and molecular recognition. The instrument will characterize the lipid-lipid and lipid-protein interactions that control the fluidity of the lipid bilayer assembly and the flow of thermal energy between components that serves as the driving force for chemical reactions and molecular motion. The instrument will employ tunable picosecond lasers in a two-color pump?probe detection scheme to examine vibrational energy-transfer and fast molecular-scale motions in bilayer membranes and light harvesting proteins. Such measurements have not been possible before. The detection system is phase-sensitive and shot-noise-limited to measure transmission changes of one part in 107. Because the reaction dynamics underlying the formation and decay of short-lived complexes in membranes are controlled by vibrationally activated barrier-crossing processes, the information obtained with the proposed instrument is crucial to reaching an understanding of the dynamics associated with spatially heterogeneous structures, including lipid rafts and proteins. The creation of broadly accessible instrumentation that advances the state of the art in the measurement of lipid bilayer properties and dynamics will have a major impact on the MSU and regional scientific communities as well as on the global scientific community. The PI and co-PIs collaborate with faculty in a host of other MSU departments (e.g. Biochemistry and Molecular Biology, Food Safety and Toxicology, Cell and Molecular Biology, Microbiology and Molecular Genetics), faculty from nearby institutions (e.g. Saginaw Valley State University, Western Michigan University) and from international institutions (e.g. University of Warsaw (Poland), University of Bath (UK), National University of Singapore, and Shaanxi Normal University (PRC)). They also collaborate with Federal research organizations such as the US Army Engineer Research and Development Center in Champaign, IL. Broadening inclusion of under-represented groups in science is critically important. Michigan State University has multiple programs in place to connect with under-represented groups at the high school (MSU High School Honors Science/Math/Engineering Program (HSHSP), ACS Project SEED), undergraduate (National Organization of Black Chemists and Chemical Engineers (NOBCChE), DREW/TAC Program), graduate (NOBCChE, MSU African-American, Latino(a)/Chicano(a), Asian/Pacific American, and Native American (ALANA) Program) and post-graduate levels (MSU sponsored minority post-doctoral fellowships). The PI and the co-PIs have collaborated with these programs on several levels and continue to strive to provide students from all groups with hands-on research opportunities and mentoring.
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