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An Excitable Contractile Cell |
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Mathematical Cell Biology Summer Course Lecture 12 |
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Introduction to polymerization kinetics |
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Mathematical Cell Biology Summer Course Lecture 13 |
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Microtubules, - polymer size distribution - and other balance equation models |
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Mathematical Cell Biology Summer Course Lecture 15 |
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Mathematical Cell Biology Summer Course Lecture 16 |
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Models of T cell activation based on TCR-pMHC bond kinetics |
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Mathematical Cell Biology Summer Course Lecture 17 |
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Mathematical Cell Biology Summer Course Lecture 18 |
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Mathematical Cell Biology Summer Course Lecture 19 |
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Diffusion, Reaction, and Biological pattern formation |
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Mathematical Cell Biology Summer Course Lecture 21 |
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Diffusion, Reaction, and Biological pattern formation (continued 2 of 3) |
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Mathematical Cell Biology Summer Course Lecture 23 |
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Pattern Formation of Proteins on the Surface of a Biological Cell |
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Mathematical Cell Biology Summer Course Lecture 24 |
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Diffusion, Reaction, and Biological pattern formation (continued 3 of 3) |
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Mathematical Cell Biology Summer Course Lecture 26 |
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Mathematical Cell Biology Summer Course Lecture 27 |
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Spatial Segregation of Polarity Determinants in Embryos of the Nematode Worm C. elegans |
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Self Organization in Cells - How to Use Proteins to Solve a Geometry Problem |
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Mathematical Cell Biology Summer Course Lecture 28 |
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Mathematical Cell Biology Summer Course Lecture 29 |
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Mathematical Cell Biology Summer Course Lecture 30 |
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Mathematical Cell Biology Summer Course Lecture 31 |
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Models for Cell Shape and Actin Filament Distributions |
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Mathematical Cell Biology Summer Course Lecture 33 |
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Cell Polarity Models & Simulating Cell Motility Using the Cellular Potts Model (CPM) |
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Mathematical Cell Biology Summer Course Lecture 35 |
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Mathematical Cell Biology Summer Course Lecture 36 |
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On growth and form: geometry, physics and biology |
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From Computer Graphics to Computational Biology |
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Mathematical Cell Biology Summer Course Student Lecture 2 |
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Mathematical Cell Biology Summer Course Student Lecture 3 |
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Mathematical Cell Biology Summer Course Student Lecture 4 |
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Mathematical Cell Biology Summer Course Student Lecture 5 |
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Mathematical Cell Biology Summer Course Student Lecture 6 |
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Mathematical Cell Biology Summer Course Student Lecture 7 |
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Second Bounded Cohomology |
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Asymptotic dimension |
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Mathematical Cell Biology Summer Course Student Lecture 8 |
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Mathematical Cell Biology Summer Course Student Lecture 9 |
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Balanced self-interacting random walks |
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Interacting Particle Systems 1 |
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Random Maps 1 |
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Mathematical Cell Biology Summer Course Student Lecture 10 |
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Interacting Particle Systems 2 |
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Polymer Size Distributions (continued) |
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Mechanical Simulations of Cell Motility |
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