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source: NanoBio Node 2014年1月24日
For more information, visit http://nanohub.org/resources/20191
Course notes and exercises: http://nanohub.org/resources/19299Physics 550: Biomolecular Physics Course
Lecture 28: Protein Sequence Analysis 1:16:55
Lecture 27: Genome Engineering and Synthetic Cell 1:22:32
Lecture 26: Third Generation Sequencing & Gene Expression Analysis Tools 1:08:18
Lecture 25: Noise in Gene Expression & Sequencing Method 1:16:50
Lecture 24: Gene Regulation at the Single-Cell Level 1:20:40
Lecture 11: Stochastic Processes II 1:21:17
Lecture 23: Single Molecular Manipulation & Optical Traps 1:20:12
Lecture 22: FRET & Force/Toggle Switch/Repriscillator/Gene Regulation Function 1:21:37
Lecture 21: Super Resolution Imaging & smFRET 1:17:36
Lecture 20: DNA Origami/Encode/DNA Flexibility 1:20:20
Lecture 19: Motor Proteins/Florescence/DNA & 2-State System II 1:19:30
Lecture 15: Physics of the Neuron III 1:19:17
Lecture 18: Motor Proteins/Florescence/DNA & 2-State System 1:18:20
Lecture 17: Regulation of Gene Expression 1:21:33
Lecture 16: Intro to BioPhysics 1:21:55
Lecture 12: Stochastic Processes III 1:23:38
Lecture 11: Stochastic Processes II 2:20:31
Lecture 9: Protein Overview 1:15:07
Lecture 8: Vision II 1:12:31
Lecture 7: Vision I 1:25:47
Lecture 10: Stochastic Processes 1:21:43
Lecture 6: Interaction of Molecules with Light IV 1:19:02
Lecture 5: Interaction of Molecules with Light III 1:20:09
Lecture 4: Biomolecular Physics - Interaction of Molecules with Light II 1:20:57
Lecture 3: Biomolecular Physics - Photosynthesis II + Interaction of Molecules with Light I 1:18:24
Lecture 1: Biomolecular Physics - Introduction to Biomolecular Physics 1:08:59
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