Transferring your proteins from gel to membraneĪ straightforward way to remember what goes where on your transfer sandwich is the phrase "run to red". This is a very easy mistake to make but takes hardly any time to double-check. I must repeat this to myself at least 100 times every time I’m carrying out a western blot! If the electrodes are plugged into the wrong positive/negative outlet the electric field will be reversed, and your samples would flow the wrong way out of the gel. Should the gel start to shrink at the edges, it’s best just to start over! You can wrap them in paper soaked with SDS Running Buffer or pour some ddH2O on top of the gel and seal it in a ziplock bag, gels can be kept at 4☌ for a couple of days. If you have prepared gels in advance, there are ways to store these for future use. After you have prepared your gel, be sure to use it soon after and try to avoid letting it stand out at room temperature. This will ensure that you achieve a flat line at the top of your separating gel and it won’t dry out! After the separating gel has polymerized, you can pour off your overlay solution, rinse well with ddH2O, before proceeding to pour your stacking gel on top. It is best to be patient at this stage!Īfter pouring the separating gel (ensuring you’ve left enough space for the stacking gel and comb) fill up the empty space with hydrated isopropanol whilst it is polymerizing. If a gel hasn’t properly polymerized this could lead to "wavy" bands. I have found that making fresh 10% APS improved the polymerization of my gels, and it doesn’t take long to prepare. Usually I prepare slightly more stacking gel and separating gel, therefore I can check the tube in which I have prepared the solutions to see if they have polymerized rather than manipulating the gel itself. Before starting to prepare your gel, check the molecular weight of your proteins and decide which gel percentage is most appropriate. If your protein of interest has a low molecular weight and your acrylamide percentage is too low, you risk it running off the gel. The acrylamide percentage you use is proportional to how easy it is for proteins to move through the gel. Make sure your solutions are made up correctly and are at the right pH the stacking gel is usually acidic at pH 6.8 and the separating gel is alkaline at pH 8.8. Sometimes, hours of work will have been put into preparing samples prior to carrying out the western blot but if the gel is not properly prepared all your hard work might go to waste, which would be a massive shame! Moreover, make sure you are always wearing gloves and all other equipment e.g. One way to prevent background is to clean all plates and combs with either 1% SDS or 70% Ethanol followed by distilled water then wipe them dry. And, because life is unfair, to me the background always seemed to coincide with where my bands should be therefore interfering with any subsequent quantification. Any dirt, dust or leftover gel on your plates or membrane WILL show up as background on your blots. This cannot be emphasized heavily enough. This prompted me to do a lot of troubleshooting along the road to a perfect western, and here I will provide some tips on how to achieve this. It definitely wasn’t as easy as I expected – I was getting different results with every blot and my blots were ALWAYS full of speckles in the background. In the first few months of my PhD I was attempting a lot of western blots (something which I had only read about before, I mean, how hard could it be to get a nice single band on a clean blot?). The membrane can then be scanned to visualize the protein of interest. The protein of interest is probed for using a specific antibody and finally detected by a secondary antibody, often conjugated to a fluorophore. The proteins are then transferred to a solid membrane, either nitrocellulose or PVDF, followed by a blocking step to prevent antibodies non-specifically binding to the membrane. Firstly, samples are separated by their molecular weight via gel electrophoresis. This is a technique utilizing antibodies to identify a protein of interest from a mixture in a biological sample. Scientists often wish to study proteins and one way to achieve this is by western blotting. Proteins are the molecular machinery of a cell, ensuring that every cell in the body can carry out its specific role.
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