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-	<title>IGEM Panama Team</title>	+
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-	<li class="item3"><a	+
-	href="https://2010.igem.org/Team:Panama"><span>Home</span></a></li>	+
-	<li class="item4"><a	+
-	href="https://2010.igem.org/Team:Panama/Team"><span>Team</span></a></li>	+
-	<li class="item5"><a	+
-	href="https://2010.igem.org/Team:Panama/Project"><span>Project</span></a></li>	+
-	<li class="item6"><a	+
-	href="https://igem.org/Team.cgi?year=2010&team_name=Panama"><span>Official	+
-	Team Profile</span></a></li>	+
-	<li class="item7"><a	+
-	href="https://2010.igem.org/Team:Panama/Parts"><span>Parts	+
-	Submitted to the Registry</span></a></li>	+
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-	href="https://2010.igem.org/Team:Panama/Modeling"><span>Modeling</span></a></li>	+
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-	href="https://2010.igem.org/Team:Panama/Donors"><span>Donors</span></a></li>	+
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-	href="https://2010.igem.org/Team:Panama/how_to_become_a_sponsor"><span>How to become a Donors</span></a></li>	+
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-	==Notebook==	+
-	===DNA 101: Information store, replication. 26 May===	+
-	* Instructor: Dr. Abby Guerra	+
-	* Date: 26 May 17h00-20h00	+
-	* Venue: UTP	+
-	A basic refresher course on how DNA stores information in the cell, and how it is involved in cellular replication.	+
-		+
-		+
-		+
-	===DNA 102: Protein creation relationship to cellular function. 26 May===	+
-	Instructor: Dr. Abby Guerra	+
-	Date: 26 May 17h00-20h00	+
-	Venue: UTP	+
-	Introduction to how DNA drives cellular functions by creating proteins	+
-		+
-		+
-		+
-	===DNA 103: DNA modification, plasmids===	+
-	Instructor: Dr. Abby Guerra	+
-	Date: 26 May 17h00-20h00	+
-	Venue: UTP	+
-	Introduction to long tested combinant DNA techniques, the role of plasmids in bacteria, and their use as a vector for DNA modification.	+
-		+
-		+
-		+
-	===INDICASAT lecture: Drug discovery in nature===	+
-	Instructor: Dr. Sergio Martinez	+
-	Date: (17h00-20h00 Thursday 3rd June)	+
-	Venue: INDICASAT	+
-	Would be a brainstorming session as students start thinking about projects. It would be GREAT if we could take a molecule discovered by INDICASAT in coral/frogs/nature and put it in E. coli!...	+
-		+
-		+
-		+
-	===INDICASAT lecture: Innovation===	+
-	Instructor: Dr. Jagannatha Rao, Director of INDICASAT	+
-	Date: (17h30-20h00 Friday 4th June)	+
-	Venue: INDICASAT	+
-	Dr. Rao's lecture on how to innovate.	+
-		+
-		+
-		+
-	===DNA 104: BioBricks Protocol===	+
-	Instructor: Sara/Patrick	+
-	Date: (17h30-20h00 Monday 7th June)	+
-	Venue: INDICASAT	+
-	Introduction to the BrioBricks protocol	+
-		+
-		+
-		+
-	===iGEM workshop follow up: Software tools===	+
-	Instructor: Patrick / Sara	+
-	Date: (17h30-20h00 Monday 7th June)	+
-	Venue: INDICASAT	+
-	Software tools available from the workshop.	+
-		+
-		+
-		+
-	===iGEM workshop follow up: Safety, ethics===	+
-	Instructor: Dr. Ricardo Lleonart	+
-	Date: (17h00-20h00 9th of June)	+
-	Venue: INDICASAT	+
-	There is definetly a "safety considerations" requirement and we should address it early.	+
-		+
-		+
-		+
-	===Wetlab 101: Tools of the lab and their use===	+
-	Instructor: Dr. Patricia Llanes	+
-	Date: (17h00-20h00 9th June)	+
-	Venue: INDICASAT	+
-	How to handle pipettes, clean test tubes, etc.	+
-		+
-		+
-		+
-	===Wetlab 102: Let's raise a few E. coli===	+
-	Instructor: Lorena Coronado and and Dr. Carmenza Spadafora	+
-	Date: (17h00-20h00 11th of June)	+
-	Venue: INDICASAT	+
-	How does one handle E. coli?	+
-		+
-		+
-		+
-	===Wetlab 103: Let's make an E. coli that fluoresce (or some simple BioBrick project)===	+
-	Instructor: INDICASAT, Dr. Carmenza Spadafora	+
-	Date:  (17h00-20h00 11th of June)	+
-	Venue:  INDICASAT	+
-	We identify a simple project based on past iGEM work and do our first BioBrick protocol project. Nothing innovative, but an opportunity to practice the protocols.	+
-		+
-		+
-		+
-	===Meeting June 26===	+
-	At this moment we have two ideas for develop.  We are debating which idea is more feasible.	+
-	Idea #1:  Carlos´s  team idea	+
-	We want to produce Rhamnolipid in bacteria (e.coli) to use it as a biosurfactant.	+
-	First we have to be sure that our idea is not the same that the idea published in the reference paper.	+
-	We want to make a biobrick to produce Rh1.	+
-	We have to see how we can isolate the rhamnolipid, and be sure that the translation is functional.	+
-		+
-	<gallery>	+
-	Image:ErnestoIdea.jpg|Ernesto's Idea	+
-		+
-	</gallery>	+
-		+
-	Steps to follow:	+
-		+
-	1.Amplified the Rhamnosyltransferase  1  complex from Pseudomona Auruginosa to clone the fragment. Size aprox 2.2 Kb.	+
-	2.Ligation / Transformation	+
-	3.Expression with reporter gen.	+
-	4.Isolation	+
-	5.Is the protein functional?	+
-	6.Make sure that the rhamnolipid is produced in prescence of rhamnose and fatty acid.	+
-		+
-		+
-	Notes:	+
-		+
-	We can see the reaction ( enzymatic measure) by spectrometry.	+
-	See kind of ligation.	+
-	Decided if we are going to use sticky or blond ends. (Depend on the plasmid).	+
-		+
-		+
-		+
-	But first, before the amplification we need to design our primers.	+
-		+
-	Primers design:	+
-		+
-	1.Check the gene sequence (In GenBank, FASTA format)	+
-	2.Check the primer sequence.	+
-	3.See kind of cloning.	+
-	4.M13 tail for cleavage site.	+
-	5.Look for cleavage site inside the rhamnosyltransferase 1 gene for our restriction enzymes.  We can´t cut our gene in the process.	+
-		+
-		+
-	In summary the steps that we need to follow are:	+
-		+
-	I.Primer design	+
-	II.PCR or amplification	+
-	III.Cloning	+
-	IV.Expression	+
-	V.Sequencing	+
-		+
-	The most important steps are I and II. We need a good primers design and PCR if we want to have successful.	+
-		+
-		+
-	Idea #2	+
-	Ernesto team´s idea	+
-		+
-	Production of Cecropin compound.  We want to produce the antibacterial cecropin compound. Naturally is produced by insects and plants.	+
-		+
-	We want to use Anopheles gambiae cecropin precursor. The gene is about 550 pb.	+
-		+
-		+
-		+
-		+
-	The steps to follow are the same in both groups.	+
-	Both groups have to design the primers, and have all the experimental design for this week.	+
-		+
-	1.The sequence of the interested gene.	+
-	2.Design the primers. (50-100pb more at the begging and end of the sequence).	+
-	3.Check for cloning sites. Which plasmid we are going to use, identify the restriction enzymes.	+
-	4.Assemble the blocks. In paper assemble all the system. Promoter + Ribosomal binding site + interest gene + reporter gene + translation end site.	+
-		+
-		+
-	All the design has to be on paper to analyze them and decided which idea is going to be the elected one.	+

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Latest revision as of 20:59, 12 July 2010