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1. A Mechanism for Shear Energy Dissipation in Articular Cartilage
2. A cell kinetics model for prostate cancer and its application to clinical data and individual patients
3. A single molecule view of cell fate: FISHing for worm guts
4. Acoustic and Inertial Flow Cytometry: Pathways to point-of-care and high-speed parallel cellular diagnostics
5. Agent-based modeling workshop
6. Artificial Nanopores that Mimic the Transport Selectivity of the Nuclear Pore Complex
7. Characterization of the Complexity of Signaling Complexes in Human T Cells
8. Computer-Aided Drug Repurposing
9. Conformation relaxation dynamics of biomolecules
10. Cooperation and cheating in microbes
11. Cooperation and reversibility in microbial evolution
12. Coordinate regulation of virulence in Salmonella typhimurium
13. Development of Methods to Combine Sequence, Structure, and Network Analyses to Study Gene Annotation, Coevolution, and Allostery in Protein:RNA Complexes
14. Diffusion in living cells: simple or anomalous?
15. Discovering the role of Protein Dynamics in RNA recognition motifs
16. Discrete Stochastic Simulation of Spatially Inhomogeneous Biochemical Systems
17. Dynamic disorder in single enzyme kinetics: effects of conformational fluctuations
18. Dynamical Networks in Translation: From Molecules to Cells
19. Dynamical signature of the core promoter
20. EGF receptor in the lime light
21. Escherichia coli Cultures in Temperature Gradients
22. Exploring mechanisms of oscillations in p53 and NF-κB systems
23. Expression and Function of Antibody Fc Receptors on Human Airway Smooth Muscle Cells
24. Feedback Control with Bio-molecular Circuits
25. Feedback and Control in Biological Circuit Design
26. From Robots to Molecules: Intelligent Motion Planning and Analysis with Probabilistic Roadmaps
27. Genetic circuit architectures underlying cell-fate choices for immunity
28. Genome-scale analysis of protein-protein interaction networks
29. How liquid is biological signaling? - using random graphs to study protein networks
30. How proteins acquired their tricks: Physical basis of protein structure and function
31. How the sea urchin embryo gets its cleavage furrows (in the right place)
32. Implications of Rewiring Bacterial Quorum Sensing
33. Journey through the cell
34. Kinetics of peptide folding in dehydrated and crowded environments
35. Learning design principles from noisy small gene regulatory networks
36. Learning signaling pathway structure from high throughput, multivariate single cell data
37. Lecture
38. Model Reduction of Rule-based ODE Models: Exact vs. Approximate Approach
39. Modeling dynamic molecular compartments: the bigraphical approach
40. Modeling hepatitis C virus (HCV) dynamics: Relating intracellular (in vitro) and extracellular (in vivo) HCV kinetics under treatment
41. Modelling of the Mitotic Spindle Assembly Checkpoint using SimBiology
42. Multiparameter Computational Modeling of Tumor Invasion
43. Nano-world of wound and heart healing
44. Nanomedicine and chemical imaging approaches for traumatic spinal cord injury
45. Nanoscience workshop
46. Neuronal couplings between retinal ganglion cells inferred by efficient inverse statistical physics methods
47. Neutralizing antibody responses in HIV-1 and nonpathogenic SIV infection
48. Noisy out of necessity: the relationship among gene circuit architecture, dynamics and biological function
49. On the origin of symmetry in biology: Protein oligomers
50. On two problems in medicine - a view from a crossroad of disciplines
51. PROTEIN CONFORMATIONAL AND INTERACTION DYNAMICS BY MOLECULAR DYNAMICS SIMULATIONS AND NUCLEAR MAGNETIC RESONANCE EXPERIMENTS
52. Past Lectures
53. Programming Cells
54. Protein Conformational and Interaction Dynamics by Molecular Dynamics Simulations and Nuclear Magnetic Resonance Experiments
55. Protein tagging and labeling systems for protein chemistry and cellular biology.
56. Proteomic analysis on a MALDI-MS platform
57. Robust multicellular computing using genetically-encoded NOR gates and chemical “wires”
58. Robustness in Nature: Challenges and Opportunities for the Systems Biology Community
59. Rule-Based Computational Modeling of Modular Signaling Protein Interactions
60. Selectivity of transport through the nuclear pore complex: from nuclear import to bio-sensors
61. Sensory estimation of ligand concentrations by a single receptor and a receptor array
62. Simple Models for Biomembrane Structure and Dynamics
63. Simple mathematical models to understand influenza’s complex evolutionary dynamics
64. Single-molecule meets scaling: the low-force elasticity of single-stranded DNA
65. Single Molecule Fluorescence Studies of Nucleocytoplasmic Transport
66. Single molecule study of disassembly of SNARE complex by NSF/α−SNAP
67. Single molecule study on the disassembly reaction of snare complex
68. Structural and cellular dynamics in vascular development
69. Study of protein-RNA interactions by using fluorescence resonance energy transfer (FRET) and single-molecule FRET (smFRET)
70. TAM receptor regulation of the innate immune response
71. The Art and Science of Systems Biology
72. The Joint BioEnergy Institute
73. The Martini force field: Different flavors for molecular simulations
74. The Possibility of Automated Experiments for Inference of Metabolic Models
75. Understanding adaptive immunity: a crossroad of the physical and life sciences
76. Unraveling a pandemic: from avian to swine influenza
77. Vaccine Design for Influenza and Dengue Fever
78. Variability in HIV Vaccine Design

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