Team:BGU Israel/Notebook1
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Revision as of 19:56, 13 October 2014
Click on the Month or Week to check out what we did
April | May | June | July | August | September | October |
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Week 2 | Week 6 | Week 10 | ||||
Week 3 | Week 7 | Week 11 | ||||
Week 4 | Week 8 | Week 12 | ||||
Week 1 | Week 5 | Week 9 | Week 13 |
April
General
No Activity *****
May
General
No Activity *****
June
General
No Activity *****
July
General
No Activity *****
Week 1: July 27th - August 2nd
Lab
Intelligent Medication
Propagation of pcDNA3-mRuby2
Starters were taken from a pcDNA3-mRuby2 bacterial stab (acquired form Addgene) and incubated in LB containing 100 µg/ml ampicillin for 24 hours at 37˚c. Plasmid DNA was extracted from using a miniprep kit.
Human Practice
August
General
*****
Week 2: August 3rd- August 9th
Lab
Intelligent Medication
Validation of co-expression of mRuby2 and eGFP in CT26 eGFP cell line
Goal: A preliminary experiment to validate we can visualize the co-expression of both mRuby2 and eGFP in CT26 eGFP cell line using confocal microscopy. Method: 20,000 cells were plated in each well of a chamber slide and incubated for 24 hours at 37˚c. 4 wells were transfected with pcDNA3-mRuby2 using Lipofectamine 2000 (protocol), and incubated for 48 hours at 37˚c. The other 4 wells were mock transfected with Lipofectamine 2000 and incubated in the same conditions for negative control. After 48 hours, the transfected cells were viewed at the confocal microscope. eGFP: excitation - 488 nm, emission - 509 nm mRuby2: excitation - 559 nm, emission - 600 nm
Results:
Co-expression of mRuby2 and eGFP. All three pictures show the same cells. Picture A shows only eGFP expressing cells, picture B shows only mRuby2 expressing cells, and picture C show all cells.
Conclusions:
mRuby2 and eGFP were co-expressed in CT26 eGFP cells and viewed successfully using confocal microscopy.
Human Practice
Week 3
Lab
No Activity
Human Practice
Week 4
Lab
No Activity
Human Practice
Week 5: August 31th-September 6th
Lab
Intelligent Medication
Functional silencing experiment
Goal: Silencing eGFP in CT26 eGFP cells co - transfected with pcDNA3 mRuby2 and our scRNA construct. The scRNA construct is designed to be activated by mRuby2 mRNA, becoming a dicer substrate and finally silence eGFP. Method: We gave a different treatment for each of our four groups:
We conducted the experiment both in 24 well plate (for flow cytometry) and in a chamber slide (for confocal microscopy).
The cells were plated on the appropriate plates for the different tests (100,000 cells per well in the 24 well plate and 15,000 cells per well in the chamber slide) and incubated for 24 hours at 37˚c.
After 24 hours, the incubated cells were transfected (according to the different treatments detailed above) with one or more of the following:
- pcDNA3 mRuby2 - 1.0 µg
- scRNA – both detection part A + hair pin part B - 100 pmol for each of the parts (A+B)
Transfection was done by lipofectamine (protocol), and then the cells were incubated for 48 hours at 37˚c.
Preparations for image stream were done by the general protocol (protocol).
Results:
Image stream (flow cytometry):
Treatment 1 – Negative control
Treatment 2 – transfected with pcDNA3 mRuby2
Treatment 3 – transfected with scRNA
Treatment 4 – transfected with pcDNA3 mRuby2 & scRNA
Confocal microscope:
Co-expression of mRuby2 and eGFP was validated in all relevant wells.
Conclusions:
- GFP negative population: The first parameter to compare that comes to mind when looking for silencing is the percentage of GFP negative cells of the entire population – if a significantly bigger portion of the population is GFP negative, then the silencing worked. However, when looking at the population distribution of the different control groups, we can see no significant difference in the GFP negative population. This might not the result of unsuccessful silencing – we are using a stable GFP expressing cell line, but no matter how stable it is, always there will be a portion of the cells that do not actually express GFP. Additionally, a successful silencing is not expected to completely shut down the expression of GFP in single cells. This creates the necessity to evaluate the expression of GFP using another parameter.
- Mean intensity of GFP positive cells: This parameter will show difference between a negative control and a successful silencing in light of the above. However, cells treated with scRNA showed only a very small difference in this parameter, so we could not observe a successful silencing.
For the next try, the following changes were implemented:
- double the amount of scRNA in the transfection
- Change the protocol of preparing Lipofectamine – scRNA mix to allow for better interaction between the 2 parts of the construct, and prepare the Lipofectamine- DNA mix separately.
Human Practice
September
General
*****
Week 6: September 7th-September 13th
Lab
Intelligent Medication
Goal: A second try of silencing eGFP in CT26 eGFP cells co - transfected with pcDNA3 mRuby2 and our scRNA construct. The scRNA construct is designed to be activated by mRuby2 mRNA, becoming a dicer substrate and finally silence eGFP.
Details:
The changes concluded from former results:
- Half of calls amount was seeded (50,000 cells per well)
- The cells were transfected with double amount of scRNA:
- pcDNA3-mRuby2- 1.0 µg
- scRNA – both detection part A + hair pin part B- 200 pmol for each of the parts (A+B)
- This time, the lipofectamin mixes were prepared separately for the pcDNA3-mRuby2 and for the scRNA (both A and B parts together), so that both of the mixes will make its content ready and prepared for transfection.
The rest of the protocol remained unchanged (protocol).
Notes:
During this transfection a mistake occurred. In one of the plates, an incorrect of volume of Lipofectamine-scRNA was added due to a measurement error. Consequently, this plate had unknown concentrations of nucleic acids and lipofectamine, with a positive deviation in volume.
Results:
Most of the cells died, probably due to the increased volume of Lipofectamine that was added by mistake.
Biobricks
Goal: The ordered parts for Biobricks preparation had arrived in the weekend so preparations of plates and medium for the Biobricks construction were done.
Details:
- LB agar plates with ampicillin (100 µg/ml) or Chloramphenicol (25 µg/ml) were made following the LB agar plates protocol.
- SOC medium for bacterial transformation was prepared. SOC medium content is:
- 0.5% (w/v) yeast extract
- 2% (w/v) tryptone
- 10 mM NaCl
- 2.5 mM KCl
- 20 mM MgSO4
- Glucose 20%
Preparation followed by the SOC medium prep protocol.
Human Practice
Week 7:September 14th-September 20th
Lab
Biobricks-
First trial - the DNA parts that were used in Biobricks preparation are: Adiponectin (pUC 57 Adiponectin), DsbA-L (pUC 57 DsbA-L), HSP70 promotor (pUC 57 HSP70), HSP70 promotor (with modifications) (pUC 57 HSP70 modified), UCP1 (pcDNA3.1 UCP1) and pSB1C3 backbone. The process included- transformation -> extraction and creating a glycerol stock-> restriction-> gel electrophoresis-> gel products extraction-> ligation-> transformation.
Details:
DNA parts and backbone were digested with restriction enzymes: Pst1 and EcoR1
The transformation was done according to the general transformation protocol.
At first, heat-shock transformation to chemically competent BH5α bacteria with the following DNA parts (separately):
- pUC 57 Adiponectin
- pUC 57 HSP70
- pUC 57 HSP70 modified
- pUC 57 DsbA-L
- pcDNA3.1 UCP1
The transformed bacteria were incubated for 24 hr at 37˚c.
After 24 hr incubation, colonies from each plate were transferred to liquid medium and incubated for 24 hr at 37˚c.
Plasmid DNA was extracted using a miniprep kit and concentrations were measured using nanodrop.
The plasmids were digested with restriction enzymes Pst1 and EcoR1, following general restriction protocol.
The digested DNA parts were tested by gel electroporation, following general gel electrophoresis protocol.
Results:
The wanted bands didn’t appear on the gel.
Conclusions:
Since the desired results didn’t appear on the gel, it was assumed that the restriction didn’t work. The reason is probably technical inexperience of using restriction enzymes and inappropriate pipetation and spin down absence.
Intelligent Medication
Goal: Third try of trying to silence eGFP in CT26 eGFP cells – this time we also made a positive control with anti eGFP siRNA from our lab. Additionally we simplified the silencing process – using our mechanism, if transfected with 2 parts of the RNA construct silencing will take place only in the presence of a specific mRNA. This time we used only one part (part B – hairpin) that is supposed to have a silencing effect without the presence of the specific mRNA. We also tested our samples for silencing using RT PCR and flow cytometry (Image Stream).
Details:
The changes concluded from former results:
- Added positive control and used only part B hairpin:
- Anti eGFP siRNA - 200 pmol
- scRNA part B hairpin - 200 pmol
- Seeded cells amount was doubled, back to 100,000 cells per well.
The rest of the protocol remained unchanged (general lipofectamin protocol).
Results:
Image stream:
scRNA part B (hairpin) only
Positive control - anti GFP siRNA
Negative control-
Representative image stream pictures:
RealTime PCR:
The housekeeping genes showed unstable expression and thus could not be used as reliable control, rendering the results of the entire experiments unreliable.
Conclusions:
- The mean intensity in the GFP positive population of the positive control (anti GFP siRNa) is lower by 28 % of that in the negative control. However, this sequence was tested before and resulted in much higher silencing rates. With this, and in addition to previous results, we assume that flow cytometry, the way we use it, tests silencing in the protein level. Therefore it is likely that the proteins (eGFP is known to be stable) in the sample did not have enough time to degrade. Therefore, it was decided that image stream is not efficient test for the scRNA experiments and the appropriate test would deal with mRNA levels.
- The treatment containing scRNa part B only (hairpin silencing sequence) didn't show any lower GFP intensity in the GFP positive population, concerning the negative control.
- It was assumed that as image stream Real Time PCR results: Since the housekeeping genes showed unstable expression no significant result could be drawn regarding neither gene expression nor gene silencing from the RealTime PCR this time.
Human Practice
Week 8: September 21th-September 27th
Lab
Biobricks-
Trying again the experiment from September 7th.
Details:
DNA parts and backbone were digested with restriction enzymes: Pst1 and EcoR1
The transformation was done according to the general transformation protocol.
At first, heat-shock transformation to chemically competent BH5α bacteria with the following DNA parts (separately):
- pUC 57 Adiponectin
- pUC 57 HSP70
- pUC 57 HSP70 modified
- pUC 57 DsbA-L
- pcDNA3.1 UCP1
The transformed bacteria were incubated for 24 hr at 37˚c.
After 24 hr incubation, colonies from each plate were transferred to liquid medium and incubated for 24 hr at 37˚c.
Plasmid DNA was extracted using a miniprep kit and concentrations were measured using nanodrop.
The plasmids were digested with restriction enzymes Pst1 and EcoR1, following general restriction protocol.
The digested DNA parts were tested by gel electroporation, following general gel electrophoresis protocol.
Ligation products were transformed by heat-shock to chemically competent DH5α bacteria, plated on cmp LB agar plates and incubated for 24 hr at 37˚c.
Results:
All parts were successfully restricted (unfortunately the picture taken was not in good quality).
No colonies grew on the plates.
Conclusions:
Since no colonies grew on the plates, but restriction went well, the problem might lie either in the ligation process or the competent cells. For the next try, a new competent cells stock was used.
Biobricking third try:
Details:
DNA parts and pSB1C3 backbone (from pSB1C3 RFP and pSB1C3 amilcp) were digested with restriction enzymes: Pst1 and EcoR1
The ligation and transformation was done according to the previous protocols.
Results:
All parts were successfully restricted but again, no colonies grew on the plates.
Conclusions:
Since no colonies grew on the plates even though different competent cells stock was used, and restriction went well, we assume that the competent cells are not the problem and for the next try, we would use a new DNA ligase.
Human Practice
Week 9: September 28th- October 4th
Lab
Biobricks
Forth trial, first for this week – With a new ligase enzyme, the rest of the process is identical to the last times.
Details:
DNA parts and backbone were digested with restriction enzymes: Pst1 and EcoR1
The transformation was done according to the general transformation protocol.
Results:
Restriction gel:
No colonies grew on the plates.
Conclusions:
Since still unsuccessful. We will try a different kit for purifying restriction products.
Fifth trial, second for this week
Details:
DNA parts and backbone were digested with restriction enzymes: Pst1 and EcoR1
The transformation was done according to the general transformation protocol.
Results:
All parts were successfully restricted, but again no colonies grew on the plates.
Conclusions:
Since a lot of changes was already done, and the time became critical for iGEM deadline, it was decided to try looking for a different lab and get some help.
Sixth trial, third for this week – with the former changes, we moved to Prof. Lital Alfonta's lab, using the lab members' knowledge and experience. The transformation was changed from Heat-Shock transformation to electroporation transformation.
Details:
DNA parts and backbone were digested with restriction enzymes: Pst1 and EcoR1
The transformation was done according to the general transformation protocol.
The gel products extraction, ligation and transformation was done at Prof. Lital Alfonta's lab with instruction of her lab members.
Results:
All parts were successfully restricted, electroporation time contants were all above 5 ms, but again no colonies grew on the plates.
Conclusions:
Human Practice
October
General
*****
Week 10: October 5th- October 11th
Lab
Biobricks-
Seventh and last trial, first for this week – with the former changes, working in different lab the insert vector ratio has been changed.
Details:
The transformation was done according to the general transformation protocol.
Protocol changes:
- Transformation by electroporation.
- The gel products extraction, ligation and transformation was done at Prof. Lital Alfonta's lab with instruction of her lab members.
- This time, the insert to vector ratio was raised to 4:1 instead of 3:1
Results:
The restriction worked, but again- No colonies grew on the plates.
Conclusions:
Since it was the last chance for preparing and sending the Biobricks to iGEM, unfortunately we have no more time to try and make this work. We suspect that step that prevented successful transformation was the ligation.
Intelligent Medication
Goal: Fourth try of trying to silence eGFP in CT26 eGFP – we repeated the exact protocol form the third try, but this time we will only try to analyze results by real time PCR.
Details:
Same as in third try.
Results:
RealTime PCR:
???
Conclusions:
???
Human Practice
Week 11: October 12th-October18th
Lab
PTPN1-
UCP1-
In order to show uncoupling activity of UCP1 in the mitochondria, HepG2 cells were transfected with UCP1 by lipofectamin and tested for mitochondrial membrane potential with TMRM reagent.
Details:
HepG2 cell-line cells were seeded (75,000 cells per well) using DMEM medium (details? ) and incubated for 24 hr at 37˚c.
After 24 hr, the incubated cells were transfected with ucp1 (formal name?) and incubated for 24 hr at 37˚c.
After 24 hr incubation - **************NEED TO FINISH THIS WEEK***********
Human Practice
Week 12
Lab
No Activity
Human Practice
Week 13
Lab
No Activity