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- <b>BIOPHYSICS SEMINAR</b><br>Electron Microscopy Approaches to Study Lipid-Protein Interactions
- <b>BIOPHYSICS SEMINAR</b><br>The Versatile Beta-Barrel Gives Up Secrets of the Membrane
- <b>BIOPHYSICS SYMPOSIUM</b><br>An International Symposium on Recent Advances in Biomolecular NMR Spectroscopy
- <b>BIOPHYSICS SEMINAR</b><br>Hijacking Pathogenic Membrane Proteins to Engineer Cellular Entry: A Molecular Biophysics Approach
- <b>BIOPHYSICS SEMINAR</b><br>Sensing of Small Molecules by Natural and in Vitro Evolved RNA Devices
- <b>BIOPHYSICS SEMINAR</b><br>Toward Total Synthesis of Chemotaxis, Phagocytosis and Stress Granules
- <b>BIOPHYSICS SEMINAR</b><br>Active Matter: Applying the Materials Physics Paradigm to Biology
- <b>BIOPHYSICS SEMINAR</b><Br>Advances and Applications in Modern Nuclear Magnetic Resonance: Liquid State Hyperpolarization and Solid State Methods for Amyloid Fibrils
- <b>BIOPHYSICS SEMINAR</b><br>Having Fun with Unpaired Electrons: Enhancing the Sensitivity of NMR & Radicals Essential for Life
- <b>BIOPHYSICS SEMINAR</b><br>Structure of the HIV-1 5' Leader
- <b>BIOPHYSICS SEMINAR</b><br>The Safety Dance: Biophysics of Membrane Protein Misfolding and Disease
- <b>BIOPHYSICS SEMINAR</b><br>Tripping Up HCN Channel Regulation Through an Interaction with an Accessory Subunit
- <b>BIOPHYSICS SEMINAR</b><br>Cooperation, Cheating, and Collapse of Biological Populations
- <b>BIOPHYSICS SEMINAR</b>
- <b>BIOPHYSICS GRADUATE STUDENT SEMINAR</b>
- <b>BIOPHYSICS SEMINAR</b><br>Motion: the Hallmark of Life, from Marsupials to Molecules
- Imaging Mast Cell Activation: from Single Molecules to Synapses
- <b>BIOPHYSICS GRADUATE STUDENT SEMINAR</b><br>
- BIOPHYSICS SEMINAR<br>³Nanoscale Architecture of the Immunological Synapse²
- <b>BIOPHYSICS SEMINAR</b><br>Role of Secretory Granule Heterogeneity in the Regulation of Ca2+-Triggered Exocytosis
- BIOPHYSICS SEMINAR<br>Biophysical Characterization of Recombinant Type II Cannabinoid Receptor, CB2
- BIOPHYSICS SYMPOSIUM<br>Flow Sensing in the Vascular System
- BIOPHYSICS SEMINAR<br>Watching Enzymes at Work: NMR for Structural and Functional Studies of Cytochromes P450
- BIOPHYSICS SEMINAR<br>Molecular Mechanisms of General Anesthetics; from Lipids to Channels
- BIOPHYSICS SEMINAR<br>HIV - 1 Capsid Assembly, Maturation & Host Cell Interactions
- BIOPHYSICS SEMINAR<br>Protein Structure Prediction and Protein Design
- BIOPHYSICS SEMINAR<br>Tapping the Translation Potential of cAMP-Signalling and Amyloid Inhibition using NMR”
- BIOPHYSICS SEMINAR <br> How Do Proteins Scan DNA?
- BIOPHYSICS SEMINAR<br>Microbial Resistance to Toxic Fluoride: Structural and Functional Features of Fluoride Channels and Transporters
- BIOPHYSICS SEMINAR <br> Krimm Lecture: Illuminating Biology at the Nanoscale with Super-Resolution Imaging
- BIOPHYSICS SEMINAR<br>Elucidating Roles of Protein Dynamics in Enzyme Function by Molecular Simulation
- BIOPHYSICS SEMINAR<br>Mapping Protein Conformational Ensembles and Folding Pathways with Temperature-Jump Two-Dimensional Infrared Spectroscopy
- BIOPHYSICS SEMINAR<br>Entry of Ebola Virus & HIV by Membrane Fusion
- BIOPHYSICS SEMINAR <br> RNA-Based Gene Expression and Regulation at Single-Molecule
- BIOPHYSICS SEMINAR <br> The Structural Choreography of Cellular Self-Cannibalism
- BIOPHYSICS SEMINAR <br> Detection and Manipulation of Single Biomolecular Machines
- BIOPHYSICS SEMINAR
- BIOPHYSICS SEMINAR<br>Evanescence in Fluorescence Excitation and Emission Microscopy
- BIOPHYSICS SEMINAR <br> Imaging Biology at High Spatiotemporal Resolution
- BIOPHYSICS SEMINAR <br> The Good, The Bad, and The Ugly: Charges and Their Role in Lipid Phase Separation
- BIOPHYSICS SEMINAR<br>Bistability, Trigger Waves, and the Spatial Coordination of Mitosis
- BIOPHYSICS SEMINAR<br>Modes of Membrane Disruption By Antimicrobial Compounds
- BIOPHYSICS GRADUATE STUDENT SEMINAR<br>Zooming into the Misfolding of the Alzheimer’s Amyloid-ß Peptide
- BIOPHYSICS SEMINAR<br>The CH--O Hydrogen Bond - Hiding in Plain Sight
- Biophysics Graduation Reception
- BIOPHYSICS SEMINAR<br>Insights into Stochastic Growth and Division of Single Bacterial Cells, or A Bug's Life</br>
- BIOPHYSICS SEMINAR<br>Structural Determinants and Functional Consequences of Protein Partitioning to Membrane Domains</br>
- BIOPHYSICS SEMINAR<br>Looking at Proteins Inside Live Cells with Atomic Resolution: Science Fiction or Science Reality?
- BIOPHYSICS SEMINAR<br>Mechanisms of Regulated Protein Degradation During the Bacterial Cell Cycle</br>
- BIOPHYSICS SEMINAR<br>Localization-Based Super-Resolution Imaging: Methods and Biological Applications
- SPECIAL BIOPHYSICS & COMPLEX SYSTEMS SEMINAR<br>Universal Mechanisms of Multicellular Computation
- BIOPHYSICS SEMINAR<br>Exoplanets and Astrobiology</br>
- 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
- BIOPHYSICS SEMINAR<br>Over the Brainbow – Tracing Neural Circuits in the Mouse Brain
- SPECIAL ASTRONOMY & BIOPHYSICS SEMINAR<BR>Exoplanets and Astrobiology
- SPECIAL BIOPHYSICS/ASTRONOMY SEMINAR<br>Peering Into the Atmospheres of Extrasolar Worlds</br>
- BIOPHYSICS SEMINAR | Structural Gymnastics by Proteins Make the Clock Mechanism Go Around
- BIOPHYSICS SEMINAR | NMR of Large Proteins: Molecular Chaperones
- BIOPHYSICS SEMINAR | Facile NMR Structure Determination of Human Membrane Proteins
- BIOPHYSICS SEMINAR | Cytochrome P450 Steroid Oxidations: Answers and More Questions
- BIOPHYSICS SEMINAR | Control of Substrate Access to the Active Site in Methane Monooxygenase
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Endogenous clocks regulate metabolism, physiology and behavior of most organisms in anticipation of daily swings in ambient light and temperature by synchronizing them to a ~24-h biochemical rhythm. Here, we will show in a model system that structural gymnastics by proteins make the clock mechanism go around. The “gears” of the cyanobacterial clock are composed of three proteins, KaiA, KaiB, and KaiC. Remarkably, when they are mixed together in a test tube with ATP, they generate a circadian rhythm of (auto)phosphorylation and (auto)dephosphorylation of the KaiC protein for many days. KaiA stimulates KaiC phosphorylation, whereas KaiB antagonizes KaiA to promote KaiC dephosphorylation. The field has been attempting to crack the mechanism using published crystal structures to model complexes of these proteins. However, we will show that surprisingly large conformational changes (not captured in the crystal structures) determine when and how the KaiABC complexes assemble and disassemble, setting up time steps in the clock.
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