Harvard:SysBio 204/2013:Syllabus: Difference between revisions
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| align="center" style="background:#f0f0f0;"|'''Title''' | | align="center" style="background:#f0f0f0;"|'''Title''' | ||
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| Wed. Sep. 4 ||William Shih | | Wed. Sep. 4 ||William Shih ||Biomolecular primitives | ||
|- | |- | ||
| Mon. Sep. 9 ||William Shih || | | Mon. Sep. 9 ||William Shih ||Software demo: nanoEngineer for nanostructure visualization | ||
|- | |- | ||
| Wed. Sep. 11 || | | Wed. Sep. 11 ||William Shih, Peng Yin ||DNA origami and DNA bricks | ||
|- | |- | ||
| Mon. Sep. 16 ||William Shih ||DNA origami | | Mon. Sep. 16 ||William Shih ||Software demo: caDNAno for DNA origami design | ||
|- | |- | ||
| Wed. Sep. 18 || | | Wed. Sep. 18 ||Peng Yin ||Synthetic DNA circuits | ||
|- | |- | ||
| Mon. Sep. 23 ||Peng Yin || | | Mon. Sep. 23 ||Peng Yin ||Dynamic DNA machines | ||
|- | |- | ||
| Wed. Sep. 25 ||Peng Yin || | | Wed. Sep. 25 ||Peng Yin ||Software demo: Sequence designer / molecular compiler | ||
|- | |- | ||
| Mon. Sep. 30 || | | Mon. Sep. 30 ||Srivatsan Raman ||Computational protein design | ||
|- | |- | ||
| Mon. Oct. 2 || | | Mon. Oct. 2 ||Srivatsan Raman ||Software demo: Scientific discovery games for biomolecular design | ||
|- | |- | ||
| Mon. Oct. 7 || | | Mon. Oct. 7 ||William Shih|| Application of nucleic acid nanotechnology 1: Single molecule | ||
biophysics tools, drug delivery, NMR | |||
|- | |- | ||
| Wed. Oct. 9 || | | Wed. Oct. 9 || Peng Yin||Application of nucleic acid nanotechnology 2: Sensing, imaging, | ||
synthetic regulation, nanofabrication | |||
|- | |- | ||
| Wed. Oct. 16 ||Pam Silver ||Synthetic circuits in prokaryotes | |||
| Wed. Oct. 16 ||Pam Silver ||Synthetic circuits in prokaryotes | |||
|- | |- | ||
| Mon. Oct. 21 ||Pam Silver ||Synthetic circuits in eukaryotes | | Mon. Oct. 21 ||Pam Silver ||Synthetic circuits in eukaryotes | ||
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| Wed. Oct. 30 ||Jeremy Gunawardena ||Modeling biological systems | | Wed. Oct. 30 ||Jeremy Gunawardena ||Modeling biological systems | ||
|- | |- | ||
| Mon. Nov. 4 ||George Church||Genome engineering: new codes, new amino acids, multi-virus | | Mon. Nov. 4 ||George Church||Genome engineering: new codes, new amino acids, multi-virus resistance | ||
resistance | |||
|- | |- | ||
| Wed. Nov. 6 ||George Church ||Homologous recombination, gene therapy, tissue engineering, evolution | | Wed. Nov. 6 ||George Church ||Homologous recombination, gene therapy, tissue engineering, evolution | ||
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| Mon. Nov. 25 ||Dave Mooney ||Polymers as therapeutic cancer vaccines | | Mon. Nov. 25 ||Dave Mooney ||Polymers as therapeutic cancer vaccines | ||
|- | |- | ||
| | | Mon. Nov. 2 ||Students ||Final project presentations | ||
|- | |- | ||
| Wed. Dec. 4 ||Students ||Final project presentations | | Wed. Dec. 4 ||Students ||Final project presentations | ||
|} | |} |
Revision as of 16:11, 24 July 2013
Link to updated website for SysBio204 2014
Day / Date | Lecturer | Title |
Wed. Sep. 4 | William Shih | Biomolecular primitives |
Mon. Sep. 9 | William Shih | Software demo: nanoEngineer for nanostructure visualization |
Wed. Sep. 11 | William Shih, Peng Yin | DNA origami and DNA bricks |
Mon. Sep. 16 | William Shih | Software demo: caDNAno for DNA origami design |
Wed. Sep. 18 | Peng Yin | Synthetic DNA circuits |
Mon. Sep. 23 | Peng Yin | Dynamic DNA machines |
Wed. Sep. 25 | Peng Yin | Software demo: Sequence designer / molecular compiler |
Mon. Sep. 30 | Srivatsan Raman | Computational protein design |
Mon. Oct. 2 | Srivatsan Raman | Software demo: Scientific discovery games for biomolecular design |
Mon. Oct. 7 | William Shih | Application of nucleic acid nanotechnology 1: Single molecule
biophysics tools, drug delivery, NMR |
Wed. Oct. 9 | Peng Yin | Application of nucleic acid nanotechnology 2: Sensing, imaging,
synthetic regulation, nanofabrication |
Wed. Oct. 16 | Pam Silver | Synthetic circuits in prokaryotes |
Mon. Oct. 21 | Pam Silver | Synthetic circuits in eukaryotes |
Wed. Oct. 23 | Jeff Way | Metabolic engineering |
Mon. Oct. 28 | Jack Szostak | Protocell design |
Wed. Oct. 30 | Jeremy Gunawardena | Modeling biological systems |
Mon. Nov. 4 | George Church | Genome engineering: new codes, new amino acids, multi-virus resistance |
Wed. Nov. 6 | George Church | Homologous recombination, gene therapy, tissue engineering, evolution |
Wed. Nov. 13 | William Shih | Directed molecular evolution |
Wed. Nov. 20 | Gäel McGill | Exploring Hollywood’s tools for biovisualization |
Mon. Nov. 25 | Dave Mooney | Polymers as therapeutic cancer vaccines |
Mon. Nov. 2 | Students | Final project presentations |
Wed. Dec. 4 | Students | Final project presentations |