Intertech:Synthetic Biology course: Difference between revisions
No edit summary |
No edit summary |
||
Line 19: | Line 19: | ||
**Existence and unicity of the solution | **Existence and unicity of the solution | ||
* Solving differential equations with matlab | * Solving differential equations with matlab | ||
'''Electronics''' | '''Electronics''' | ||
Line 25: | Line 26: | ||
*Boolean algebras | *Boolean algebras | ||
*Practical examples of applications | *Practical examples of applications | ||
'''Control theory''' | '''Control theory''' | ||
Line 33: | Line 35: | ||
* Sensibility and perturbations | * Sensibility and perturbations | ||
* Homeostasis | * Homeostasis | ||
'''Error Theory''' | '''Error Theory''' | ||
Line 42: | Line 45: | ||
*Obtaining data from tables and plots | *Obtaining data from tables and plots | ||
*Minimal square fit | *Minimal square fit | ||
'''Modelling systems''' | '''Modelling systems''' | ||
Line 52: | Line 56: | ||
*two tipes: eukaryotes & prokaryotes | *two tipes: eukaryotes & prokaryotes | ||
*metabolism | *metabolism | ||
'''Information pathways''' | '''Information pathways''' | ||
Line 63: | Line 68: | ||
*dogma’s pace | *dogma’s pace | ||
*special in prokaryotes: horizontal transference | *special in prokaryotes: horizontal transference | ||
'''Genetic regulation''' | '''Genetic regulation''' | ||
Line 73: | Line 79: | ||
**SOS | **SOS | ||
**termal shock | **termal shock | ||
'''Communication with environment''' | '''Communication with environment''' | ||
Line 84: | Line 91: | ||
**quorum sensing | **quorum sensing | ||
**polymerase’s sigma factor | **polymerase’s sigma factor | ||
'''Kinetic Chemistry''' | '''Kinetic Chemistry''' | ||
Line 93: | Line 101: | ||
**activation | **activation | ||
**repression | **repression | ||
'''(Basic) Laboratory Techniques (of molecular biology of bacteria)''' | '''(Basic) Laboratory Techniques (of molecular biology of bacteria)''' | ||
Line 111: | Line 120: | ||
*What is synthetic biology? | *What is synthetic biology? | ||
*Synthetic biology from the point of view of engineering | *Synthetic biology from the point of view of engineering | ||
'''Design''' | '''Design''' | ||
*Modelling biology and types of models | *Modelling biology and types of models | ||
'''Definition of Standards''' | '''Definition of Standards''' | ||
Line 119: | Line 130: | ||
*Registry of parts | *Registry of parts | ||
*Biobricks and Standard Assembly | *Biobricks and Standard Assembly | ||
'''Examples of systems in synthetic biology''' | '''Examples of systems in synthetic biology''' |
Revision as of 07:24, 5 February 2008
We have decided to prepare a course on 'Introduction on Synthetic Biology'.
The aim of this course is diverse.
- First, is a way to organize the series of talks and lectures that we think should be taken by a given iGEM participant.
- Second, is a way to gather educational material focused on people that want to have a broader perspective of Synthetic Biology.
- Third, is a perfect starting point to whoever wants to take a step on this field.
The syllabus of this course is divided in three parts. There is a group of topics that need to be known by biologists (or 'life science' people), then a bunch of topics that need to be known by engineers (or 'technical' people) and, finally, some lectures on 'what' is syntehtic biology and some examples of it.
Part 1 Training for biologistsOrdinary differential equations
|
Part 2 Training for engineersCell
|
Part 3 Training in Synthetic BiologySynthetic Biology (Description)
(To be developed in silico by the students)
|