Difference between revisions of "Team:KU Leuven/Notebook/Newsfeed"

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-We repeated the tail PCR of luxR. This time we performed a touchdown PCR in order to become more specific results. <br/>
 
-We repeated the tail PCR of luxR. This time we performed a touchdown PCR in order to become more specific results. <br/>
 
-Our three biobricks were purified by using a gel extraction kit. After this, we inserted our biobricks in pSB1C3. The next step is screening colonies by PCR to find plasmids with the right insert.<br/>
 
-Our three biobricks were purified by using a gel extraction kit. After this, we inserted our biobricks in pSB1C3. The next step is screening colonies by PCR to find plasmids with the right insert.<br/>
-We made our devices for the InterLab Measurement Study by using the Biobrick Assembly Method. After this we transformed electrocompetent E. cloni with our devices. First we grew our cells under the recommended conditions of iGEM on plates and afterwards we made a liquid culture. On Friday, we made our standard curve based on fluorescein and we measured our devices.
+
-We made our devices for the InterLab Measurement Study by using the Biobrick Assembly Method. After this we transformed electrocompetent <i>E. cloni</i> with our devices. First we grew our cells under the recommended conditions of iGEM on plates and afterwards we made a liquid culture. On Friday, we made our standard curve based on fluorescein and we measured our devices.
 
<br/>
 
<br/>
-We used the NEBuilder® HiFi DNA Assembly Master Mix to assemble our gBlocks. After doing a PCR, we visualised our results on a gel. We obtained a positive result for gBlocks 5 and 6. So we transformed these assembled gBlocks in electrocompetent E. cloni. We checked our  transformed gBlocks on PCR, but a confirmation by restriction mapping is still needed.
+
-We used the NEBuilder® HiFi DNA Assembly Master Mix to assemble our gBlocks. After doing a PCR, we visualised our results on a gel. We obtained a positive result for gBlocks 5 and 6. So we transformed these assembled gBlocks in electrocompetent <i>E. cloni</i>. We checked our  transformed gBlocks on PCR, but a confirmation by restriction mapping is still needed.
 
</p>
 
</p>
 
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-We performed a motility test to verify the phenotypical change of knocking out CheZ <br/>
 
-We performed a motility test to verify the phenotypical change of knocking out CheZ <br/>
 
-Assembly of gBlocks by using the Gibson Assembly Method <br/>
 
-Assembly of gBlocks by using the Gibson Assembly Method <br/>
-We decided to participate at the iGEM 2015 Measurement Interlab Study. Therefore we transformed E. cloni with the biobricks J23101, I12504, J23106 and J23117.</p>
+
-We decided to participate at the iGEM 2015 Measurement Interlab Study. Therefore we transformed <i>E. cloni</i> with the biobricks J23101, I12504, J23106 and J23117.</p>
 
     </div>
 
     </div>
 
   </div>
 
   </div>
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     <div class="partnews">
 
     <div class="partnews">
 
<p>-Prepare LB agar medium <br/>
 
<p>-Prepare LB agar medium <br/>
-Prepare competent cells (E. cloni) and test competency</p>
+
-Prepare competent cells (<i>E. cloni</i>) and test competency</p>
 
     </div>
 
     </div>
 
   </div>
 
   </div>

Revision as of 19:43, 15 September 2015

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Newsfeed

Week 10: the 31thAugust-6th of September

team

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-We have new sponsors: Gips Mineral, Genzyme and VWR !
-We kindly received gadgets of our sponsors for use in our goody bag.
-Our bacteria-stickers are ordered

team

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-We obtained assembled gBlocks 1-2-3 and 5-6 in mini prepped form. On gel, we discovered that we have assembled gBlocks in pUC, but we also have a band at the height of pUC. So we cutted out the correct band, did a gel purification and transformed again.
-In parallel, we further tried to assemble gBlocks 1+2+3 with gBlock 4 by using two colonies who did not contain pUC. Later, we noticed by PCR that the assembly was not correct.
-We also tried to assemble gBlocks 1+2+3 with 5+6, this would give us the total plasmid for cell B. On gel, we saw that the restriction did not work. Probably, there was a problem with the restriction enzyme.

team

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-Collaboration with Toulouse: diffusion in Comsol
-Implementation of cells algorithm for nearest neighbor search
-Code optimization
-Meeting with Dirk Roose
-Examine effects of different contributions to cell movement in hybrid mode

team

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-Making presentation, scenario for our symposium.
-Practical arrangements for our symposium.
-Working on an educational game about synthetic biology

team

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-Adapting the team page: our mentors and advisors are online!
-Adapting our website for mobiles.
-Making a game for our secret pag.

team

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-Designing our iGEM banner
-Designing the print of our hoodies
-Adapting buttons of the wiki
-Designing the bacteria version of our promoter and supervisor
-Graphical design for the secret page

Week 8: the 17th-21th of August

team

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-We are in the track ‘New applications’
-Received offers for hoodies, stickers and tattoos
-Collaboration: Skype session with TU Delft
-Collaboration: Measure pH of tap water and river water & sending samples to the iGEM team of York
-Collaboration: Interviewed people on the street for chewing-gum survey of the iGEM team of Aix-Marseille Université
-We translated our survey in French for further distribution in Wallonie.

team

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-We searched more information about lab safety.
-We utilized literature to prepare our experiment of the InterLab Measurement Study.

team

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-This week we made electrocompetent cells. Their transformation efficiency is higher than that of chemocompetent cells, so they could be useful in making biobricks and transforming our assembled gBlocks.
-We repeated the tail PCR of luxR. This time we performed a touchdown PCR in order to become more specific results.
-Our three biobricks were purified by using a gel extraction kit. After this, we inserted our biobricks in pSB1C3. The next step is screening colonies by PCR to find plasmids with the right insert.
-We made our devices for the InterLab Measurement Study by using the Biobrick Assembly Method. After this we transformed electrocompetent E. cloni with our devices. First we grew our cells under the recommended conditions of iGEM on plates and afterwards we made a liquid culture. On Friday, we made our standard curve based on fluorescein and we measured our devices.
-We used the NEBuilder® HiFi DNA Assembly Master Mix to assemble our gBlocks. After doing a PCR, we visualised our results on a gel. We obtained a positive result for gBlocks 5 and 6. So we transformed these assembled gBlocks in electrocompetent E. cloni. We checked our transformed gBlocks on PCR, but a confirmation by restriction mapping is still needed.

team

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-Meeting with Tim Odenthal
-Optimization of hybrid model code
-Implementation of cell-cell interactions, including repulsion as well as attraction

team

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-Contacting speakers for symposium
-Organizing symposium
-Mailing schools to give a playful course about synthetic biology
-We decided on rules for a nice card game about synthetic biology

team

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-Adapting pages
-Putting ‘Symposium’ page online

team

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-Making informative images for the Research-page
-Making buttons for the wiki
-Design bacteria-stickers for use in schools and as gadget
-Continue with the design of our hoodies
-Making funny images for our secret page on our wiki

Week 7: the 10th-14th of August

team

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-Our flyers and sponsor brochures arrived!
-Survey about synthetic biology with people in the street
-Working on a team song

team

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-Making a protocol for leucine detection
-Research about lab safety

team

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-The transformation of chemocompetent cells for the Interlab Measurement Study was not efficient, therefore we repeat this with electrocompetent cells. We grew the transformed cells overnight and performed a miniprep.
-To check if the operon of ΔTarΔCheZ is OK, we used a PCR to confirm that all the genes are present.
-After performing a PCR, there were no bands visible of the assembled gBlocks, probably we didn’t use enough Gibson Assembly Master Mix
-We started making three BioBricks starting from our gBlocks. We performed a high fidelity tail PCR to include the prefix and suffix in our biobrick. The parts were digested and purified on a gel.
-We ordered materials for leucine and AHL detection

team

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-Finish implementing hybrid model I in 2D, including ADI scheme for PDE part
-Extend hybrid model II to 2D
-Run hybrid model simulations
-Finishing report Simbiology
-Contacting Toulouse team for collaboration
-Contacting professors for possible collaboration

team

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-Thinking of educational games
-Outreach: Put popular message about our project on Facebook and Twitter

team

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-Our ‘Newsfeed’ & ‘Research’-page are online!
-Implemented Lightbox and EasySwitch button

team

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-Making informative images for the ‘Research’-page
-Start with the design of hoodies
-Making funny images for our secret page

Week 6: the 3th-7th of August

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-We received lab material kindly given by KOLO Instruments - Paulussen Freddy
-Searching hotels in Bordeaux for the iGEM Meetup France 2015
-Folders and brochures are ordered

team

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-Writing protocol for AHL detection
-Writing abstract about literature on Wiki

team

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-Perform gel electrophoresis to confirm double knock-outs: 2 colonies of ΔTar ΔCheZ and 4 colonies of ΔTar ΔTsr still had ΔTar. This means we have our double mutants! We still need to check ΔTar ΔCheZ to be sure the rest of the operon is still intact.
-We performed a motility test to verify the phenotypical change of knocking out CheZ
-Assembly of gBlocks by using the Gibson Assembly Method
-We decided to participate at the iGEM 2015 Measurement Interlab Study. Therefore we transformed E. cloni with the biobricks J23101, I12504, J23106 and J23117.

team

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-Write report about Simbiology
-Extending Hybrid Model to 2D

team

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-Contact potential keynote speakers for the symposium

team

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-The History-page is online!

team

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-Making images for wiki-icons for subsections of the Newsfeed
-Making tattoo-images to use as gadget

Week 5: the 27th-31th of July

team

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-Plane tickets to Boston are booked
-Hotels Boston are booked
-We have two new sponsors: Eppendorf & LRD!

team

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-Make protocol for plasmid assembly
-Make protocol for leucine detection
-Make protocol for AHL detection
-Design & order primers for the Gibson Assembly Method

team

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-Making double knock-out strains by P1 transduction
-Performing PCR and gel electrophoresis to confirm that we have double knock-outs

team

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-The 2D models on 100 by 100 grid are working

team

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-Contact potential keynote speakers for the symposium
-Making a survey about public perception of synthetic biology
-Mail Bordeaux for iGEM Meetup France 2015

team

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-Modeling page online
-Adjust the description of the project

team

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-Making images for wiki team presentation
-Making images for wiki icons for subsections of the Newsfeed
-Making animation that represents our pattern forming bacteria

Week 4: the 20th-24th of July

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-Meeting Toulouse team at 07/21/15 in Brussels

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-Search parameters necessary in mathematical model
-Design and order the designed plasmid gBlocks

team

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-Performing a PCR and gel electrophoresis to confirm that the kanamycin cassette has successfully been removed from ΔTar and make a stock of this new strain.
-Preparations for phage P1 lysate for making the double knock-out strains

team

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-Simulating cell A and cell B in SymBiology
-Looking for usable constants
-Adapting the 2D continuous model

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-Looking for potential keynote speakers for the symposium
-Design flyer

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-Team page is added

team

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-Making images for wiki team presentation
-Making images of animals with new patterns for the wiki

Week 3: the 13th-17th of July

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-Construct plasmid
-Design & order primers for controlling the knock-out processes
-Research to an alternative knock-out technique for double knockouts

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-Calculation of transformation efficiency of competent cells (E. cloni)
-Order 3 knock-out strains (ΔTar, ΔTsr and ΔCheZ) & prepare a stock
-Order Chromobacterium violaceum CV026 transposon mutant for use in AHL detection & prepare a stock
-Removing the kanamycin resistance gene of the ΔTar by transforming a plasmid with recombinase gene

team

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-Making and adapting the 1D hybrid and continuous model to the conditions of the wet lab
-Making a simple 2D continuous model
-Thinking about true parameters
-Making a 1D model with pdepe in Matlab -Explore symbiology
-Making a 2D model with PDE toolbox in Matlab (not ready yet)

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-Preparing e-mail for symposium and contact possible key speaker

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-The description of our project is online

team

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-Make images for wiki

Week 2: the 6th-10th of July

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-Discussion with modeling team: which parameters do they need?
-Search experiments for quantification of specific proteins, small molecules and amino acids
-Decide on promoters of the plasmid
-Construct the plasmids
-Make a working scheme (strategy)

team

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-Prepare LB agar medium
-Prepare competent cells (E. cloni) and test competency

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-Literature research into hybrid models
-Further work on single cell agent-based model
-Implemented simple one-dimensional hybrid model
-Explore PDE Toolbox
-Work on an implicit continuous model
-Try if it’s possible to simulate pattern formation of bacteria in COMSOL

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-Thinking of school projects for primary school and secondary school
-Thinking of symposium

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-Helping with images and layout of wiki
-Helping with images and brochure for sponsors

Week 1: the 1st-3th of July

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-Lab safety training
-Discussing tasks and practical arrangements (tickets Boston)
-Taking photos to use in the brochure, on the wiki and for social media
-Take a tour through our high tech bio laboratory
-Meeting with potential sponsor

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-Searching for strains and biobricks for our circuit

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-Set up GitHub
-Constructed simple single cell agent-based model
-Worked on an explicit discretization of a continuous model

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-’Coming soon’ page is online

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-Helping with images and layout of wiki
-Helping with images and brochure for sponsors

Contact

Address: Celestijnenlaan 200G room 00.08 - 3001 Heverlee
Telephone n°: +32(0)16 32 73 19
Mail: igem@chem.kuleuven.be