User:Nkuldell:SB starter kit: Difference between revisions
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Use this space as a scratch pad for your ideas and thoughts and experiences as we develop some teaching materials geared for SB starters (e.g. iGEM teams without resident synthetic biology community, or social scientists trying to understand technology that underlies the field). | Use this space as a scratch pad for your ideas and thoughts and experiences as we develop some teaching materials geared for SB starters (e.g. iGEM teams without resident synthetic biology community, or social scientists trying to understand technology that underlies the field). | ||
The slate is still nearly blank, though I've seeded this | The slate is still nearly blank, though I've seeded this site with some organizational ideas....all subject to change and heavy editing.<br> | ||
look at resourced listed on James Brown's "getting started" site: [http://parts2.mit.edu/wiki/index.php/Resources] | |||
One thought offered by Caroline, "the limits of your language are the limits of your world"-Ludwig Wittgenstein | |||
=="front page"== | =="front page"== | ||
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==Tab: Lab techniques/Registry Starter kit== | ==Tab: Lab techniques/Registry Starter kit== | ||
*mRFP cloning | *mRFP cloning examples | ||
*[http://parts.mit.edu/registry/index.php/Part:BBa_J16000 BBa_J16000] and [http://parts.mit.edu/registry/index.php/Part:BBa_J16002 BBa_J16002] are the two parts which I'd like students to start with for the following reasons: | |||
**Employs the idea of putting both basic parts and component ("inverter device") parts together. | |||
**Both systems can be controlled using externally added chemicals (IPTG, Tetracycline) with measurable flourescence output | |||
**All parts well-characterized | |||
**mCherry protein has LVA tag for fast degradation | |||
**Non-linear behaviour exhibits complexity beyond electronic parts | |||
**Contains almost all canonical part categories (RBS, regulatory, device, terminator, protein coding, reporter...) | |||
==Social implications== | ==Social implications== | ||
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==Notes/comments== | ==Notes/comments== | ||
I think we could exemplify the concept of abstraction and stress its importance by designing the iGEM tutorial / primer in a hierarchical way, such that any step in an initially superficial "high-level" recipe for constructing an archetypal device out of parts from the registry could be deepened and explored for more sophisticated, complicated "low-level" information. Maybe we could use AJAX to facilitate the expansion and compression of the levels of abstaction. Or maybe we should just use normal hyperlinks. In any case, I think it would be really neat if the whole primer initially took up no more than one page when printed out. I think that degree of simplification would necessitate a mature abstraction hierarchy (and hence could be a good goal for us) and its initial brevity would make it less overwhelming for newcomers. --[[User:Macowell|Macowell]] 00:37, 23 June 2006 (EDT) | |||
==Useful teaching resources already freely available== | ==Useful teaching resources already freely available== | ||
Latest revision as of 09:29, 10 July 2006
Use this space as a scratch pad for your ideas and thoughts and experiences as we develop some teaching materials geared for SB starters (e.g. iGEM teams without resident synthetic biology community, or social scientists trying to understand technology that underlies the field).
The slate is still nearly blank, though I've seeded this site with some organizational ideas....all subject to change and heavy editing.
look at resourced listed on James Brown's "getting started" site: [1]
One thought offered by Caroline, "the limits of your language are the limits of your world"-Ludwig Wittgenstein
"front page"
- welcomes to synthetic biology
- two sentence overview of the field
- two sentence overview of goals of tutorial
- two sentence overview of how to use tutorial
Tab: Biology for Engineers
- culture celebrates understanding and description of natural world
- central dogma
- start with "this is a cell"
- unifying example to ground details?
Tab: Engineering for Biologists
- culture celebrates building things
- predictable
- modular, interchangeable components
- measurement
- standards
Tab: Lab techniques/Registry Starter kit
- mRFP cloning examples
- BBa_J16000 and BBa_J16002 are the two parts which I'd like students to start with for the following reasons:
- Employs the idea of putting both basic parts and component ("inverter device") parts together.
- Both systems can be controlled using externally added chemicals (IPTG, Tetracycline) with measurable flourescence output
- All parts well-characterized
- mCherry protein has LVA tag for fast degradation
- Non-linear behaviour exhibits complexity beyond electronic parts
- Contains almost all canonical part categories (RBS, regulatory, device, terminator, protein coding, reporter...)
Social implications
- might direct to Q/A from PoET/SB collaboration
- this may not need a tab or section of its own
Notes/comments
I think we could exemplify the concept of abstraction and stress its importance by designing the iGEM tutorial / primer in a hierarchical way, such that any step in an initially superficial "high-level" recipe for constructing an archetypal device out of parts from the registry could be deepened and explored for more sophisticated, complicated "low-level" information. Maybe we could use AJAX to facilitate the expansion and compression of the levels of abstaction. Or maybe we should just use normal hyperlinks. In any case, I think it would be really neat if the whole primer initially took up no more than one page when printed out. I think that degree of simplification would necessitate a mature abstraction hierarchy (and hence could be a good goal for us) and its initial brevity would make it less overwhelming for newcomers. --Macowell 00:37, 23 June 2006 (EDT)
Useful teaching resources already freely available
books
These books are online at ncbi (searchable, but not directly browseable):
protocols
- Tons of protocols at OpenWetWare
- Invitrogen iProtocols
- Quigen's Handbooks & protocols - be sure to check out the Bench Guide pdf under "General Molecular biology protocols"
- Current Protocols in Molecular Biology from Wiley InterScience
- Promega Guides
papers & presentations
- SB2.0 Webcasts
- Synthetic Biology seminars webcast from Berkeley
- Life Engineering Symposium webcasts (19-20 August 2005)
- Synthetic Biology articles in DSpace:
- Synthetic biology: new engineering rules for an emerging discipline. (Review Article)Mol. Syst. Biol. doi:10.1038/msb4100073
- Synthetic Biology readings listed at Davidson College
- Synthetic and Systems Biology - the new open-access journal, not yet launched
other websites
- DNAi - excellent interactive explanations of the science of basic molecular biology. For instance, check out the "Recombining DNA" animation under Manipulation->Techniques->Cutting & Pasting
- Registry Help page - start here!
- Teaching Resources at the iGEM wiki
- Blogs
misc
- Asilomar and Recombinant DNA at Nobelprize.org by Paul Berg, 1980 Nobel Laureate in Chemistry
- standard assembly
- Abstraction hierarchy and PoPS
- Standard E. coli Strain for BioBricks
- BE.109: RT-PCR data analysis
