Difference between revisions of "20.949/F10:Schedule"

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| [[Help:Hosting_courses#Set_up_your_course_homepage|Course homepage]]
 
| [[Help:Hosting_courses#Set_up_your_course_homepage|Course homepage]]
 
|--
 
|--
| September 14
+
| September 16
| Jane Smith
+
| Biophysical Models of Basic Biological Processes II
| Creating a people page
+
|
| [[OWW.101:People]]
+
|--
 +
| September 21
 +
| Noise propagation and regulatory feedback
 +
|
 +
|--
 +
| September 23
 +
| Computational modeling of genetic circuits (ODE, stochastic, Lambda)
 +
|
 +
|--
 +
| September 28
 +
| Dynamics of Biological Circuits -- Feed-forward motifs
 +
|
 +
|--
 +
| September 30
 +
| Dynamics of Biological Circuits -- Toggle switches and bistability
 +
|
 +
|--
 +
| September 30
 +
| Dynamics of Biological Circuits -- Oscillators
 +
|
 +
|--
 +
| October 5
 +
| Dynamics of Biological Circuits -- Bifurcation analysis / phase space
 +
|
 +
|--
 +
| October 7
 +
| Cell-cell communication I
 +
|
 +
|--
 +
| October 12
 +
| Cell-cell communication II
 +
|
 +
|--
 +
| October 14
 +
| RNA regulation (bacterial / microbial)
 +
|
 +
|--
 +
| October 19
 +
| RNA regulation (Eukarytoic)
 +
|
 +
|--
 +
| October 21
 +
| Protein tagging: secretion / localization / degradation
 +
|
 +
|--
 +
| October 26
 +
| Protein engineering (modular design of proteins) to explore functional
 +
|
 +
|--
 +
| October 28
 +
| Protein-protein interaction networks
 +
|
 +
|--
 +
| November 2
 +
| Metabolic engineering
 +
|
 +
|--
 +
| November 4
 +
| Interfacing to other cell functions
 +
|
 +
|--
 +
| November 9
 +
| Principles of design -- from parts to modules to systems I
 +
|
 +
|--
 +
| November 11
 +
| Principles of design -- from parts to modules to systems II
 +
|
 +
|--
 +
| November 16
 +
| Principles of design -- from parts to modules to systems III
 +
|
 +
|--
 +
| November 18
 +
| Principles of design -- from parts to modules to systems IV
 +
|
 +
|--
 +
| November 23
 +
| Directed evolution (parts & circuits)
 +
|
 +
|--
 +
| November 30
 +
| History of DNA manipulation
 +
|
 +
|--
 +
| December 2
 +
| Advanced DNA design & cloning
 +
|
 +
|--
 +
| December 7
 +
| Synthetic biology applications
 +
|
 +
|--
 +
| December 9
 +
| Synthetic Life / Perspectives & challenges
 +
|
 +
|--
 +
| December X-Y
 +
| Term project presentations
 +
|
 
|--
 
|--
| September 19
 
| Jane Smith
 
| Formatting a course schedule
 
| [[OWW.101:Schedule]]
 
 
|}
 
|}
  
 
</div>
 
</div>
 
 
3. September 16:    Biophysical Models of Basic Biological Processes II
 
4. September 21:    Noise propagation and regulatory feedback
 
5. September 23:    Computational modeling of genetic circuits (ODE, stochastic, Lambda)
 
6. September 28:      Dynamics of Biological Circuits -- Feed-forward motifs
 
7. September 30:    Dynamics of Biological Circuits -- Toggle switches and bistability
 
8. September 30:      Dynamics of Biological Circuits -- Oscillators
 
10. October 5:          Dynamics of Biological Circuits -- Bifurcation analysis / phase space
 
11. October 7:      Cell-cell communication I
 
11. October 12:      Cell-cell communication II
 
12. October 14:    RNA regulation (bacterial / microbial)
 
13. October 19:        RNA regulation (Eukarytoic)
 
14. October 21:        Protein tagging: secretion / localization / degradation
 
15. October 26:        Protein engineering (modular design of proteins) to explore functional
 
16. October 28:        Protein-protein interaction networks
 
17. November 2:        Metabolic engineering
 
18. November 4:        Interfacing to other cell functions
 
19. November 9:        Principles of design -- from parts to modules to systems I
 
20. November 11:        Principles of design -- from parts to modules to systems II
 
21. November 16:        Principles of design -- from parts to modules to systems III
 
22. November 18:        Principles of design -- from parts to modules to systems IV
 
23. November 23:        Directed evolution (parts & circuits)
 
24. November 30:        History of DNA manipulation
 
25. December 2:        Advanced DNA design & cloning
 
26. December 7:        Synthetic biology applications
 
27. December 9:        Synthetic Life / Perspectives & challenges
 
28. December X-Y:    Term project presentations
 

Revision as of 06:12, 1 September 2010

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Date Topic Assignment
September 9 Overview of Synthetic Biology Course templates
September 14 Biophysical Models of Basic Biological Processes I Course homepage
September 16 Biophysical Models of Basic Biological Processes II
September 21 Noise propagation and regulatory feedback
September 23 Computational modeling of genetic circuits (ODE, stochastic, Lambda)
September 28 Dynamics of Biological Circuits -- Feed-forward motifs
September 30 Dynamics of Biological Circuits -- Toggle switches and bistability
September 30 Dynamics of Biological Circuits -- Oscillators
October 5 Dynamics of Biological Circuits -- Bifurcation analysis / phase space
October 7 Cell-cell communication I
October 12 Cell-cell communication II
October 14 RNA regulation (bacterial / microbial)
October 19 RNA regulation (Eukarytoic)
October 21 Protein tagging: secretion / localization / degradation
October 26 Protein engineering (modular design of proteins) to explore functional
October 28 Protein-protein interaction networks
November 2 Metabolic engineering
November 4 Interfacing to other cell functions
November 9 Principles of design -- from parts to modules to systems I
November 11 Principles of design -- from parts to modules to systems II
November 16 Principles of design -- from parts to modules to systems III
November 18 Principles of design -- from parts to modules to systems IV
November 23 Directed evolution (parts & circuits)
November 30 History of DNA manipulation
December 2 Advanced DNA design & cloning
December 7 Synthetic biology applications
December 9 Synthetic Life / Perspectives & challenges
December X-Y Term project presentations