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51. Learning signaling pathway structure from high throughput, multivariate single cell data
52. Lecture
53. Mechanical roles of the bacterial cytoskeleton
54. Model Reduction of Rule-based ODE Models: Exact vs. Approximate Approach
55. Modeling dynamic molecular compartments: the bigraphical approach
56. Modeling hepatitis C virus (HCV) dynamics: Relating intracellular (in vitro) and extracellular (in vivo) HCV kinetics under treatment
57. Modelling of the Mitotic Spindle Assembly Checkpoint using SimBiology
58. Multiparameter Computational Modeling of Tumor Invasion
59. Nano-world of wound and heart healing
60. Nanomedicine and chemical imaging approaches for traumatic spinal cord injury
61. Nanoscience workshop
62. Neuronal couplings between retinal ganglion cells inferred by efficient inverse statistical physics methods
63. Neutralizing antibody responses in HIV-1 and nonpathogenic SIV infection
64. Noisy out of necessity: the relationship among gene circuit architecture, dynamics and biological function
65. On the origin of symmetry in biology: Protein oligomers
66. On two problems in medicine - a view from a crossroad of disciplines
67. Origin of the Domestic Dog
68. PROTEIN CONFORMATIONAL AND INTERACTION DYNAMICS BY MOLECULAR DYNAMICS SIMULATIONS AND NUCLEAR MAGNETIC RESONANCE EXPERIMENTS
69. Past Lectures
70. Past Seminars
71. Programming Cells
72. Programming Cells: Using a Synthetic Light Sensor as a Fast, High-Resolution Input to Signaling Networks
73. Programming RNA Devices to Control Cellular Information Processing
74. Protein Conformational and Interaction Dynamics by Molecular Dynamics Simulations and Nuclear Magnetic Resonance Experiments
75. Protein tagging and labeling systems for protein chemistry and cellular biology.
76. Proteins Behaving Badly: Misfolding and Alzheimer's Disease
77. Proteomic analysis on a MALDI-MS platform
78. Quantitative Analysis of Constructive Stochastic Designs in Biological Systems
79. Robust multicellular computing using genetically-encoded NOR gates and chemical “wires”
80. Robustness in Nature: Challenges and Opportunities for the Systems Biology Community
81. Rule-Based Computational Modeling of Modular Signaling Protein Interactions
82. Selectivity of transport through the nuclear pore complex: from nuclear import to bio-sensors
83. Sensory estimation of ligand concentrations by a single receptor and a receptor array
84. Simple Models for Biomembrane Structure and Dynamics
85. Simple mathematical models to understand influenza’s complex evolutionary dynamics
86. Single-molecule meets scaling: the low-force elasticity of single-stranded DNA
87. Single Molecule Fluorescence Studies of Nucleocytoplasmic Transport
88. Single molecule study of disassembly of SNARE complex by NSF/α−SNAP
89. Single molecule study on the disassembly reaction of snare complex
90. Specificity and satisfiability in biological information processing networks
91. Stochastic Biological Circuits: Noise as a Phenotype
92. Structural and cellular dynamics in vascular development
93. Study of protein-RNA interactions by using fluorescence resonance energy transfer (FRET) and single-molecule FRET (smFRET)
94. TAM receptor regulation of the innate immune response
95. The Art and Science of Systems Biology
96. The Energetics and Mechanistic Roles of Protein Conformational Dynamics
97. The Flagellar Length Control System
98. The Joint BioEnergy Institute
99. The Martini force field: Different flavors for molecular simulations
100. The Possibility of Automated Experiments for Inference of Metabolic Models

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