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  3. BIOPHYSICS SEMINAR<br>Localization-Based Super-Resolution Imaging: Methods and Biological Applications
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BIOPHYSICS SEMINAR<br>Localization-Based Super-Resolution Imaging: Methods and Biological Applications

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        1. <b>BIOPHYSICS SEMINAR</b><br>Electron Microscopy Approaches to Study Lipid-Protein Interactions
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        11. <b>BIOPHYSICS SEMINAR</b><br>The Safety Dance: Biophysics of Membrane Protein Misfolding and Disease
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        23. BIOPHYSICS SEMINAR<br>Watching Enzymes at Work: NMR for Structural and Functional Studies of Cytochromes P450
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        29. BIOPHYSICS SEMINAR<br>Microbial Resistance to Toxic Fluoride: Structural and Functional Features of Fluoride Channels and Transporters
        30. BIOPHYSICS SEMINAR <br> Krimm Lecture: Illuminating Biology at the Nanoscale with Super-Resolution Imaging
        31. BIOPHYSICS SEMINAR<br>Elucidating Roles of Protein Dynamics in Enzyme Function by Molecular Simulation
        32. BIOPHYSICS SEMINAR<br>Mapping Protein Conformational Ensembles and Folding Pathways with Temperature-Jump Two-Dimensional Infrared Spectroscopy
        33. BIOPHYSICS SEMINAR<br>Entry of Ebola Virus & HIV by Membrane Fusion
        34. BIOPHYSICS SEMINAR <br> RNA-Based Gene Expression and Regulation at Single-Molecule
        35. BIOPHYSICS SEMINAR <br> The Structural Choreography of Cellular Self-Cannibalism
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        39. BIOPHYSICS SEMINAR <br> Imaging Biology at High Spatiotemporal Resolution
        40. BIOPHYSICS SEMINAR <br> The Good, The Bad, and The Ugly: Charges and Their Role in Lipid Phase Separation
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        48. BIOPHYSICS SEMINAR<br>Looking at Proteins Inside Live Cells with Atomic Resolution: Science Fiction or Science Reality?
        49. BIOPHYSICS SEMINAR<br>Mechanisms of Regulated Protein Degradation During the Bacterial Cell Cycle</br>
        50. BIOPHYSICS SEMINAR<br>Localization-Based Super-Resolution Imaging: Methods and Biological Applications
        51. SPECIAL BIOPHYSICS & COMPLEX SYSTEMS SEMINAR<br>Universal Mechanisms of Multicellular Computation
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        53. BIOPHYSICS SEMINAR<br>Optical Trapping and Multi-parameter Analysis of Single HIV-1 in Culture Media Reveal the Positive Cooperativity of Envelope Spikes in Mediating Viral Infection
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        57. BIOPHYSICS SEMINAR | Structural Gymnastics by Proteins Make the Clock Mechanism Go Around
        58. BIOPHYSICS SEMINAR | NMR of Large Proteins: Molecular Chaperones
        59. BIOPHYSICS SEMINAR | Facile NMR Structure Determination of Human Membrane Proteins
        60. BIOPHYSICS SEMINAR | Cytochrome P450 Steroid Oxidations: Answers and More Questions
        61. BIOPHYSICS SEMINAR | Control of Substrate Access to the Active Site in Methane Monooxygenase
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Friday, March 14, 2014
4:00 AM
1300 Chemistry

Super-resolution microscopy has revolutionized the use of fluorescence imaging for biological applications. Localization-based methods such as fluorescence photoactivation localization microscopy (FPALM) stochastically activate and image sparse subsets of fluorescent molecules within a specimen, and then use the acquired images to determine the position of each molecule with nanometer precision. Many sparse subsets of molecules are imaged successively, and the coordinates of many molecules obtained over time are then plotted together as an image. These methods provide a means of imaging biological specimens, including living cells, with resolution in the tens of nanometers and time resolution of less than one second per rendered image. Methodologies to image samples with multiple labels, to image in three dimensions, and to image molecular orientations, have also been developed. These powerful capabilities have enabled a large number of important biological questions to potentially be addressed.

In addition to developing the methods themselves, we have applied FPALM to study the organization of biological membranes, and in particular the interactions between the influenza viral membrane protein hemagglutinin (HA) and the host cell actin cytoskeleton. HA is required at high concentrations on virion and host cell membranes for infectivity. As the role of actin in membrane organization is incompletely understood, we quantified the relationship between HA and host cell actin at the nanoscale, with the goal of identifying new approaches to block infection. Results using FPALM in non-polarized cells show HA clusters colocalize with actin-rich membrane regions (ARMR). Individual molecular trajectories in live cells indicate restricted HA mobility in ARMR, and actin disruption caused significant changes in HA clustering. The actin binding protein cofilin was sometimes excluded from regions within several hundred nanometers of HA clusters, suggesting that HA or adjacent proteins in the same clusters influence local actin structure.

Biophysics Seminars listings for Winter 2014.

Speaker:
Physics
Randall Lab and Homer A. Neal Lab
450 Church Street
Ann Arbor, MI 48109-1040
734.764.4437
734.763.9694
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