Team:Colombia/Classes
From 2014.igem.org
Line 20: | Line 20: | ||
<br> | <br> | ||
- | <font color="#8A0808" size="5" >Basic Biology</font> | + | <right><font color="#8A0808" size="5" >Basic Biology</font><right> |
<br> | <br> | ||
</html> | </html> |
Revision as of 13:34, 9 October 2014
Classes
Sharing our knowledge
Our team is made up of students from different areas of knowlegde, from design to engineering. We consider the only thing you need in order to be part of us is motivation. This is why we made a series of classes given by professors and advanced senior students where everyone can learn about everything that the project is going to be about. So our classes started as basic as cellular biology, passing through matlab, differential equations, genetic circuits and lab basics, such as restriction enzymes and PCR. Here you can check our presentations, and there is to stand out that all this training was made by students from iGEM 2012 and 2013, so they can pass all they experience to the new members of the group.
We made PopQuizzeess and All! :)
File:Col Biology.pdf
We have students from engineering backgrounds who have not study biology. With this class we started by the basic differences between procaryotes and eucaryotes and learnt all the cell biology required to understand systems biology processes, .
Molecular Biology
File:Col MolBol.pdf
With this class we learnt the basic topics in bacterial quorum sensing and how they talk to each other. For instance the concepts about AHL, Lux-like genes and the effect of population density were examined. In addition we saw some applications of bacterial quorum sensing in genetic constructs, illustrating this with well known examples of bacterial signaling in synthetic biology.
Quorum Sensing
File:Quorum Sensing.pdf
With this class we learnt the basic topics in bacterial quorum sensing and how they talk to each other. For instance the concepts about AHL, Lux-like genes and the effect of population density were examined. In addition we saw some applications of bacterial quorum sensing in genetic constructs, illustrating this with well known examples of bacterial signaling in synthetic biology.
Differential equations
File:Differential Equations.pdf
With this class we learnt the basic topics in bacterial quorum sensing and how they talk to each other. For instance the concepts about AHL, Lux-like genes and the effect of population density were examined. In addition we saw some applications of bacterial quorum sensing in genetic constructs, illustrating this with well known examples of bacterial signaling in synthetic biology.
Mathematical models
File:Mathematical Models.pdf
With this class we learnt the basic topics in bacterial quorum sensing and how they talk to each other. For instance the concepts about AHL, Lux-like genes and the effect of population density were examined. In addition we saw some applications of bacterial quorum sensing in genetic constructs, illustrating this with well known examples of bacterial signaling in synthetic biology.