Difference between revisions of "Past Seminars"
From Q-Bio Seminar Series
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*Spring, 2009 | *Spring, 2009 | ||
| + | *:'''Feb 10''': [http://www.lanl.gov/bmsi/Individual%20Research/Werner/WernerResearch.html Jim Werner], LANL, [[Tracking single quantum dots in three dimensions: Following cell receptor traffic and membrane topology]] | ||
| + | *:'''Feb 3''': [http://spot.colorado.edu/~mdb/ Meredith Betterton], University of Colorado, [[Theory of microtubule depolymerization by kinesin-8 motors]] | ||
*:'''Jan 27''': [http://www.tc.cornell.edu/~myers/ Chris Myers], Cornell University, [[Specificity and satisfiability in biological information processing networks]] | *:'''Jan 27''': [http://www.tc.cornell.edu/~myers/ Chris Myers], Cornell University, [[Specificity and satisfiability in biological information processing networks]] | ||
*:'''Jan 20''': [http://www.ece.jhu.edu/~pi/ Pablo Iglesias], Johns Hopkins University, [[Theoretical and Experimental Analysis of Chemotactic Systems in Biology]] | *:'''Jan 20''': [http://www.ece.jhu.edu/~pi/ Pablo Iglesias], Johns Hopkins University, [[Theoretical and Experimental Analysis of Chemotactic Systems in Biology]] | ||
Revision as of 01:41, 12 February 2009
- Spring, 2009
- Feb 10: Jim Werner, LANL, Tracking single quantum dots in three dimensions: Following cell receptor traffic and membrane topology
- Feb 3: Meredith Betterton, University of Colorado, Theory of microtubule depolymerization by kinesin-8 motors
- Jan 27: Chris Myers, Cornell University, Specificity and satisfiability in biological information processing networks
- Jan 20: Pablo Iglesias, Johns Hopkins University, Theoretical and Experimental Analysis of Chemotactic Systems in Biology
- Jan 13: Yinjie Tang, Washington University, St. Louis, 13C-based Metabolic Flux Analysis of Environmental Microorganisms
- Jan 6: Harel Dahari, University of Illinois, Chicago, Modeling hepatitis C virus (HCV) dynamics: Relating intracellular (in vitro) and extracellular (in vivo) HCV kinetics under treatment
- Fall, 2008
- Dec 9: Jean Krivine, Harvard Medical School, Modeling dynamic molecular compartments: the bigraphical approach
- Dec 2: William Ryu, University of Toronto, The thermal response and motor behavior of E. coli and C. elegans
- Nov 25: Tomasz Lipniacki, Polish Academy of Sciences, Exploring mechanisms of oscillations in p53 and NF-κB systems
- Nov 18: Karen Sachs, Stanford University, Learning signaling pathway structure from high throughput, multivariate single cell data
- Nov 12: Jin Yang, Chinese Academy of Sciences-Max Planck Society Partner Institute for Computational Biology, Genome-scale analysis of protein-protein interaction networks NB: this seminar will be 3:15-4:15 PM on WEDNESDAY, November 12 because of the Veterans Day holiday on Tuesday
- Nov 4: Calin Guet, University of Chicago, A Single-Cell View of Multiple Antibiotic Resistance in Escherichia coli
- Oct 28: Haw Yang, University of California, Berkeley, The Energetics and Mechanistic Roles of Protein Conformational Dynamics
- Oct 21: Lingchong You, Duke University, Biology by design: reduction and synthesis of cellular networks
- Oct 14: Jerome K. Percus, Courant Institute of Mathematical Sciences, New York University, The Ubiquity of Power Law Extrapolation of Sub-Threshold Data
- Oct 7: Sotiria Lampoudi, University of California, Santa Barbara, Adapting stochastic simulation to suit biology and biological data to suit simulation
- Sep 30: Ricardo Paxson, The MathWorks, Inc., Modelling of the Mitotic Spindle Assembly Checkpoint using SimBiology
- Sep 23: Frank Brown, University of California, Santa Barbara, Simple Models for Biomembrane Structure and Dynamics
- Sep 16: John Wikswo, Vanderbilt University, The Possibility of Automated Experiments for Inference of Metabolic Models
- Sep 9: Charlie E. M. Strauss, Bioscience Division, Los Alamos National Laboratory, On the origin of symmetry in biology: Protein oligomers
- Sep 2: Kathleen B. Hall, Washington University School of Medicine, St. Louis, Discovering the role of Protein Dynamics in RNA recognition motifs
Back to CNLS q-bio Seminars.
