Difference between revisions of "Team:Groningen/Notebook"
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This week we started with creating the different DNA fragments for the gibson assembly of the hCas9 operon. Since the gBlocks didn’t arrive yet, we started with PCR amplifying the DNA fragments from the pWJ40 plasmid using the primer pairs G19, G20 and G23, G24. | This week we started with creating the different DNA fragments for the gibson assembly of the hCas9 operon. Since the gBlocks didn’t arrive yet, we started with PCR amplifying the DNA fragments from the pWJ40 plasmid using the primer pairs G19, G20 and G23, G24. | ||
| − | <h6>Lactis toolbox<h6> | + | <h6>Lactis toolbox</h6> |
The competent lactis cells that were produced in the week June 19-25, were tested by transforming them with the isolated pNZ8048 plasmid. The transformation did not work out, probably because the Chloramphenicol concentration in the plates was too high (25ug/ml). Also the pNZ8048 plasmid was linearized and the biobrick prefix and suffix were incorporated. The PCR was performed using Phusion polymerase and primers <b> … (gel?)</b> | The competent lactis cells that were produced in the week June 19-25, were tested by transforming them with the isolated pNZ8048 plasmid. The transformation did not work out, probably because the Chloramphenicol concentration in the plates was too high (25ug/ml). Also the pNZ8048 plasmid was linearized and the biobrick prefix and suffix were incorporated. The PCR was performed using Phusion polymerase and primers <b> … (gel?)</b> | ||
The sfGFP (bba_) was cloned into the linearized vector using restriction ligation with EcoRI and PstI. The linearized pNZ8048 was not digested with DpnI, because L. lactis plasmid DNA is not methylated and therefore DpnI cannot digest the template. The ligation product was stored in the fridge. | The sfGFP (bba_) was cloned into the linearized vector using restriction ligation with EcoRI and PstI. The linearized pNZ8048 was not digested with DpnI, because L. lactis plasmid DNA is not methylated and therefore DpnI cannot digest the template. The ligation product was stored in the fridge. | ||
Revision as of 01:35, 1 November 2017
Notebook
Here you will find our complete labjournal. We documented our daily lab work per week.
June 05-11
Although we obtained the keys of our lab on the first of June we have not yet performed any real experiments. The entire week was spent on setting up the lab, e.g. getting all materials and machines needed. Also we made some media and standard buffers and we have produced our first batch of competent E. coli DH5 α at the end of this week.
June 12-18
General
This week we could finally start doing some real experiments in the lab! We started with optimizing the heat-shock time in the transformation protocol. We did this by transforming our competent cells with DNA from the competent cell test kit with various heat shock times (0-60 seconds). We found that the highest efficiency was obtained when using a heat shock of 30 seconds.Interlab
Because we did not have fully finished the design of any of the experiments for our own project yet, we started with the Interlab study. As a result we can proudly say that we were the first team to complete the Interlab project this year!! We have successfully transformed all test devices of the interlab studies. Of each of the transformation plates one colony was picked, which was inoculated and grown overnight. After plasmid isolation of the ON cultures restriction analysis with EcoRI showed that all colonies contained the correct plasmids. In the remainder of the week we have completed the measurements according the plate reader protocol. More information about the interlab studies can be found on our interlab page.June 19-25
General
We have inoculated one of the red colonies from the heatshock-test and isolated the plasmid (pSB1C3:bba_J04450) from it. This plasmid was used to confirm that the restriction enzymes, which were left over from the previous iGEM team of Groningen, worked properly. Moreover this plasmid was also used for cloning parts into the pSB1C3 backbone.Lactis toolbox
After completing the interlab we started working on the lactis-toolbox. We started with two different parts of this sub-project. The first is the preparation of electro competent L. lactis NZ9000 cells and optimize the transformation protocols for it. The second was the preparation of a pTet-GFP/RFP and a pLac-GFP/RFP construct to test these promotors in L. lactis. From next week progress for this part of the project will be shown under the header ‘promotor testing’. This week we produced our first batch of competent lactis cells and determined a growth curve for NZ9000 in SGM17+glycine medium (see figure below). For the second part we successfully transformed E. coli with pLac (bba_), pTet (bba_), sfGFP (bba_) and a RBS (bba_). Insert figure lactis growth curveJune 26-July 02
dCas9
We have tried to transform our E. coli with the dCas9-omega biobrick (bba_) several times, however all attempts failed until we had no DNA left over. To solve this problem we determined to use the pJWV-102-PL-dCas9 and make the dCas9 biobrick compatible ourselves.Spacer acquisition
We obtained the gDNA of a clinical isolate of S. pyogenes from …??. Attempts to PCR stukje sebald We can think of two reasons why all PCR reactions failed either this isolate did not have a genomic CRISPR system or the primers bind aspecific to other parts of the DNA. We solved the problem by using plasmids containing the CRISPR operon, which we obtained from the Heler lab [reference].Lactis toolbox
We have obtained five L. lactis vectors from our supervisor H. Karsens is not in the supervisors list in different host strains (see Table below). The cultures were grown overnight and the plasmids were isolated successfully. table from driveJuly 03-09
General
Spacer acquisition
This week we started with creating the different DNA fragments for the gibson assembly of the hCas9 operon. Since the gBlocks didn’t arrive yet, we started with PCR amplifying the DNA fragments from the pWJ40 plasmid using the primer pairs G19, G20 and G23, G24.
Lactis toolbox
The competent lactis cells that were produced in the week June 19-25, were tested by transforming them with the isolated pNZ8048 plasmid. The transformation did not work out, probably because the Chloramphenicol concentration in the plates was too high (25ug/ml). Also the pNZ8048 plasmid was linearized and the biobrick prefix and suffix were incorporated. The PCR was performed using Phusion polymerase and primers … (gel?)
The sfGFP (bba_) was cloned into the linearized vector using restriction ligation with EcoRI and PstI. The linearized pNZ8048 was not digested with DpnI, because L. lactis plasmid DNA is not methylated and therefore DpnI cannot digest the template. The ligation product was stored in the fridge.
Promotor testing
For this part we successfully transformed and isolated bba_, which contains the RFP plasmid. Also we completed the first round of 3A assemblies, shown in the table below.
table from drive
The plates for pLac_GFP and pLac_RFP contained four colonies and the pTet_RBS plate contained only one colonies. All colonies were heavily overgrown since they were left at 37C for the entire weekend.
July 10-16
General
We finished the first part of the design of the dCas9 and the spacer acquisition projects and we ordered the second batch of primers (G15-G37).
New competent E. coli DH5α and lactis cells were produced. Add more info
dCas9
From our supervisor C. Huang we received E.coli DH5α containing pJWV-102-PL-dCas9. These cells were plated and one colony was picked and inoculated. The plasmid was isolated from the ON cultures and analysed by restriction analysis with PstI (see gel next week).
Promotor testing
The colonies of the 3A assemblies that were heavily overgrown were re-plated. Each plate contained many colonies and those on the pLac-GFP plate were coloured green. Restriction analysis of isolated plasmids from one of each of the colonies showed the correct size for pLac_GFP and pTet_RBS, but not for pLac_RFP. Since we only wanted to use the constructs for the function of pLac in lactis and we only need one marker for this we decided to not retry the pLac_RFP assembly.
July 17-23
General
This week the second batch of primers arrived, so we could finally continue our work in the dCas9 and the spacer acquisition projects.
PCR amplification of gBLOCKS?
Spacer acquisition
This week the gBlocks arrived. The I473F/EcorI gblock was amplified using the primer pair G21, G22. The other gBlock contained both the tracer RNA and a part of the hCas9 operon. It was first inserted into pSB1C3 by restriction ligation with EcorI and PstI and transformed into E. coli DH5α. The transformation went well and the plasmids checked by a restriction analysis with EcorI. We planned to seperate the tracer RNA from the hCas9 operon when we linearized the plasmid using PCR. With the primer pair G27, G28 we wanted to create a linearized tracerRNA pSB1C3 vector and with primer pair G17, G18 we wanted to create a linearized hCas9 vector, which would be the backbone for the gibson assembly.
PCR 1,2 ? using heller plasmids?
dCas9
The isolated pJWV-102-PL-dCas9 was used to PCR out the dCas9 gene using primers G35 and G36. Since it is a large size construct (4,2 kb) we used Phusion polymerase and a Tm of ... . At the moment we thought that we had the correct PCR product, because we did not analyse the gel carefully enough. In the figure below the PCR fragment is shown together with the restricted pJWV-102-PL-dCas9 and of pSB1C3:dCas9 (see next week). From the gel it can be seen that the actual product sizes on the left are larger than they should be. On the right side of the gel the same products are shown, but this time with the correct plasmid (see …).
Redo gel: dCas9 old vs new plus uitleg in onderschrift (grootte)
July 24-30
July 31-August 06
August 07-13
August 14-20
August 21-27
August 28-September 03
September 04-10
September 11-17
September 18-24
September 25-October 01
October 02-08
October 09-15
October 16-22
October 23-29
October 30-November 01
What should this page have?
- Chronological notes of what your team is doing.
- Brief descriptions of daily important events.
- Pictures of your progress.
- Mention who participated in what task.
Inspiration
You can see what others teams have done to organize their notes:
Next: Future research
Lactis toolbox
The competent lactis cells that were produced in the week June 19-25, were tested by transforming them with the isolated pNZ8048 plasmid. The transformation did not work out, probably because the Chloramphenicol concentration in the plates was too high (25ug/ml). Also the pNZ8048 plasmid was linearized and the biobrick prefix and suffix were incorporated. The PCR was performed using Phusion polymerase and primers … (gel?) The sfGFP (bba_) was cloned into the linearized vector using restriction ligation with EcoRI and PstI. The linearized pNZ8048 was not digested with DpnI, because L. lactis plasmid DNA is not methylated and therefore DpnI cannot digest the template. The ligation product was stored in the fridge.Promotor testing
For this part we successfully transformed and isolated bba_, which contains the RFP plasmid. Also we completed the first round of 3A assemblies, shown in the table below. table from drive The plates for pLac_GFP and pLac_RFP contained four colonies and the pTet_RBS plate contained only one colonies. All colonies were heavily overgrown since they were left at 37C for the entire weekend.July 10-16
General
We finished the first part of the design of the dCas9 and the spacer acquisition projects and we ordered the second batch of primers (G15-G37). New competent E. coli DH5α and lactis cells were produced. Add more infodCas9
From our supervisor C. Huang we received E.coli DH5α containing pJWV-102-PL-dCas9. These cells were plated and one colony was picked and inoculated. The plasmid was isolated from the ON cultures and analysed by restriction analysis with PstI (see gel next week).Promotor testing
The colonies of the 3A assemblies that were heavily overgrown were re-plated. Each plate contained many colonies and those on the pLac-GFP plate were coloured green. Restriction analysis of isolated plasmids from one of each of the colonies showed the correct size for pLac_GFP and pTet_RBS, but not for pLac_RFP. Since we only wanted to use the constructs for the function of pLac in lactis and we only need one marker for this we decided to not retry the pLac_RFP assembly.July 17-23
General
This week the second batch of primers arrived, so we could finally continue our work in the dCas9 and the spacer acquisition projects. PCR amplification of gBLOCKS?Spacer acquisition
This week the gBlocks arrived. The I473F/EcorI gblock was amplified using the primer pair G21, G22. The other gBlock contained both the tracer RNA and a part of the hCas9 operon. It was first inserted into pSB1C3 by restriction ligation with EcorI and PstI and transformed into E. coli DH5α. The transformation went well and the plasmids checked by a restriction analysis with EcorI. We planned to seperate the tracer RNA from the hCas9 operon when we linearized the plasmid using PCR. With the primer pair G27, G28 we wanted to create a linearized tracerRNA pSB1C3 vector and with primer pair G17, G18 we wanted to create a linearized hCas9 vector, which would be the backbone for the gibson assembly. PCR 1,2 ? using heller plasmids?dCas9
The isolated pJWV-102-PL-dCas9 was used to PCR out the dCas9 gene using primers G35 and G36. Since it is a large size construct (4,2 kb) we used Phusion polymerase and a Tm of ... . At the moment we thought that we had the correct PCR product, because we did not analyse the gel carefully enough. In the figure below the PCR fragment is shown together with the restricted pJWV-102-PL-dCas9 and of pSB1C3:dCas9 (see next week). From the gel it can be seen that the actual product sizes on the left are larger than they should be. On the right side of the gel the same products are shown, but this time with the correct plasmid (see …). Redo gel: dCas9 old vs new plus uitleg in onderschrift (grootte)July 24-30
July 31-August 06
August 07-13
August 14-20
August 21-27
August 28-September 03
September 04-10
September 11-17
September 18-24
September 25-October 01
October 02-08
October 09-15
October 16-22
October 23-29
October 30-November 01
What should this page have?
- Chronological notes of what your team is doing.
- Brief descriptions of daily important events.
- Pictures of your progress.
- Mention who participated in what task.
Inspiration
You can see what others teams have done to organize their notes:
