Hello Today we removed our latest gel stained…

Hello,

Today we removed our latest gel, stained it and viewed it. Unfortunately we didn’t get very good results – there was alot of blurring on one the low range PFG marker samples, lack of clear band separation on the low range PFG marker samples and no expected band just below the wells for the non restriction enzyme plugs.

We decided that this was most likely due to lack of cell density, and therefore lack of DNA which that could be seen on the gel. We discussed that this could most likely to be fixed by allowing the Propionbacterium acnes samples to grow longer and therefore increase the cell density and DNA, and possibly by centrifuging more of the sample, to reach a higher conc. We also re researched info on cell density within plugs in the manual and journals – we found that the optimum OD was around 0.8-1.0 and we had been working with 0.24. Because of this increase in cell density/conc. we will also need to increase our lysozyme, mutanolysin and proteinase K to compensate.

Mike asked us to run a standard gel, in order to see if there was actually any DNA present at all. We ran a 0.8% gel, for 2 and half hours at 120V/cm with a 1kb ladder. We saw very faint separation, that did confirm that DNA was present, but at very low density/conc. as expected. This also confirmed our modifications which we will put into practise when i come from holiday on Monday 6th August.

After speaking to Mike we decided to attempt to run a new PFGE gel using the whole Propionbacterium acnes restriction treated plug, in one well, in order to use as much DNA as possible, and hopefully see some separation showing multiple bands due to lysis. We ran this 1% gel at 6V/cm, for 15hours with 1-12 sec switch interval ramping, using a whole Propionbacterium acnes restriction treated plug and the low range PFG marker.

Tomorrow we will be viewing this gel and filming our latest videoblog! πŸ™‚

Afternoon Today myself and Jo removed the plugs…

Afternoon,

Today, myself and Jo removed the plugs from the molds into a universal, added lysozyme and mutanolysin and incubated the plugs for 4 hours at 37ΒΊC. During that time we began filming interviews with other students in the lab, discussing their projects/work, positives, negatives and what they had enjoyed and found challenging. We then removed the lysozyme and mutanolsyin and added proteinase K, leaving the plugs to incubate overnight at 50ΒΊC.

Tomorrow we will be washing the plugs, hopefully running a PFGE gel with non restriction enzyme plugs and treating other plugs with the restriction enzyme, Spe1. We will also hopefully be filming another interview in the lab! πŸ™‚

Hey All Today we came in removed stained…

Hey All,

Today we came in removed, stained and viewed our gel. The samples not treated with restriction enzyme showed a similar band, just underneath the wells. This was expected as the samples had not been treated and therefore lysed by the restriction enzymes, so separation according to size did not occur, producing only one/two bands. The samples treated with restriction enzyme showed some separation, but not enough, possibly due to not enough digestion. For both sample types it appeared that the largest plug size used worked the best. Mike also noted that this may be due to a lack of cell density within the plugs. The agarose gel also appeared very messy, and needed to be cleaned up. We destained the gel in TAE buffer, viewed it again and decided on the following modifications for our next PFGE run:

  • Run for 20 hours with a 20 second switch interval. The switch interval was decreased in order to produce better/clearer separation.
  • 3 large samples for each plug treated with restriction enzyme and those without, as the larger samples seemed to work the best.
  • We also deep cleaned our glass wear and autoclaved the buffer used within the sealing agarose, in order to try to clean up our gel as best as possible.
  • Finally, when we produce more plugs, we will try to increase the cell density within the plugs and modify our cell suspension buffer/centrifuge stage.
  • We are keeping the buffer, ladder, sealing in plugs, temperature and voltage the same.

Excited to see if our modifications produce clearer band separation πŸ™‚

Afternoon Everyone Started off today by viewing our…

Afternoon Everyone!

Started off today by viewing our latest gel with Mike. Unfortunately our samples ran completely off the gel, and therefore we only saw the areas where the samples had passed. We also saw that the wells were very dark, due to too much DNA still being present within them. We also used the wrong ladder for Propionibacterium acnes. Mike therefore decided that we should run our next gel for 24 hours, at 4V/cm with a 30 second switch interval time, based on our two best previous gels (PFGE 5 and 6). We also decided to cut our plugs into different sizes in order to see how the size of the plug would effect the gel. We cut the plugs into two small pieces, one medium piece and one large piece. We still used samples of both plugs treated with restriction enzyme and without. We also used a reference ladder of NEB yeast.

We then helped Mike to re culture the Propionibacterium acnes by making up TGYE agar, autoclaving it and pouring 15 plates 20ml each. Which i have seen done before, but never done myself, so it was good to have the opportunity to practise! Managed to pour them all pretty well πŸ™‚

We came in at 5pm, to cut off the first well of the Propionibacterium acnes sample treated with restriction enzyme, to see it’s progress. We removed it, stained it and viewed it. We will interpret it when we have the final gel tomorrow.

See you all tomorrow, when our next gel comes out at 11am πŸ™‚

Evening all Today consisted of A LOT of…

Evening all!

Today consisted of A LOT of waiting! We started by washing the plugs in 1x wash buffer 4 times, for an hour each! This is to make sure that all the lysozyme and mutanolysin was removed. The plugs could then be stored in 1x wash buffer at 4Β°C.

We then put each plug into a separate eppendorf tube and washed once with 0.1x wash buffer for an hour, and then once more to ensure all EDTA had been removed, as it will remove cofactors that are very important to the restriction enzymes we want to use next! We then removed 3 plug eppendorfs, and put them into the fridge, in order to compare samples that were treated with restriction enzymes and those who weren’t. We removed the remaining buffer in the other 7, and added 1x restriction enzyme buffer to each, and left for an hour, at room temp. with gentle agitation. After this, we removed the restriction enzyme buffer, and added fresh restriction enzyme buffer, restriction enzyme (SpeI, which cuts at ACTAGT) and BSA (which acts as a crowder to increase conc. and allow increased collisions). This is to allow the fragmentation of our Propionibacterium acnes DNA, which is on average 100kb size fragments. We then incubated the plugs overnight.

Tomorrow we will be finishing off the plugs, preparing a new gel run and running a new gel with our home made plugs and new modifications.

See you all tomorrow! πŸ™‚

Good Evening Everyone Busy day today Myself Jo…

Good Evening Everyone!

Busy day today! Myself, Jo and Mike discussed possible modifications to the plug making method when using Propionibacterium acnes. We decided that we would need to use mutanolysin, which aids in cell lysis, as Propionibacterium acnes can be difficult to break into! We also decided to prolong the incubation time after the addition of mutanolysin and lysozyme from 2 hours to 3 hours at 37Β°C, in order to give them plenty to time to work on the Propionibacterium acnes.

We then began running through our first attempt at making the plugs! We started by adding chloramphenicol to our Propionibacterium acnes TYGE broth (that Mike inoculated for us). Once that had incubated for an hour we centrifuged it at full speed for 5mins, until we obtained a pellet. We then eluted this pellet in cell suspension buffer. We melted agarose and added these together. We then pipetted this into plug molds, which required a bit of practise! (we made 10 plugs) and left them at 4Β°C, to solidify. Once set we removed them into a universal tube and added lysozyme, it’s buffer and mutanolysin, it was then incubated at 37Β°C for 3 hours. We then removed the plugs and rinsed the plugs with pure water. We then added proteinase K and it’s buffer and left it to incubate at 50Β°C, until tomorrow morning.

We will be washing the plugs A LOT tomorrow! 4 times per plug 1 hour each, with wash buffer! We will then be working through the restriction enzyme digestion of the plugs info, and hopefully get ready to set up our first run with our hand made plugs! πŸ™‚

See you all tomorrow!

Evening All Today myself and Jo came into…

Evening All! πŸ™‚

Today myself and Jo came into the lab at 9am, and Mike gave us some new stuff to play with! – the newly arrived BioRad plug making kit and restriction enzyme digestion πŸ™‚
We worked through the kit and information provided, made some notes and researched anything we didn’t understand online and through a discussion with Mike. We then produced a new COSHH assessment for our new procedure of making plugs and researched any modifications that journals mentioned when using Propionibacterium acnes specically.

We then made up a stock solution of Chloramphenicol (90 mg/ml), that we will need during plug production. It is a antibiotic, that is bacterial static and stops replication. We will also be using lysozyme, to break down cell membranes, Proteinase K, to break down protein and restriction enzymes, to cut up DNA specifically. Each also has a specific buffer, this is due to enzymes specific nature (pH, Cofactors). We also discussed why it was important to remove remaining EDTA, as it removes cofactors, which are very important to enzyme activity! We also discussed how obtaining the proper cell concentration within the plugs is most likely to be the most difficult part of production. In order to get the most accurate concentration we will be using an OD and CFU/ml against time to produce two sigmoid curves in order to work concentration out.

Excited to start practising these new techniques, so bring on tomorrow morning! πŸ™‚