![]() You probably have a standard recipe for this somewhere in your lab. Transfer Bufferĭepending on the type of transfer you are performing, the transfer stack is usually wetted with a transfer buffer. ![]() While 0.45 µm is sufficient for most proteins, a smaller pore size might be necessary if you work with smaller proteins.īe sure to check out this article that explains the differences between the two membranes in detail. You also get a choice of pore sizes, so make sure to pick one suitable for your protein size. PVDF membranes can bind more protein than nitrocellulose membranes but may yield higher background. Usually, you have a choice between two transfer membranes: nitrocellulose membranes and polyvinylidene fluoride (PVDF) membranes.Ĭhoosing between them comes down to a choice between binding capacity vs. Two other key points are worth mentioning here. Going from top to bottom, the pieces are as follows: Wipe it down with damp tissue paper if you notice this is the case. When, for example, the transfer device becomes encrusted with buffer salts. This is because the stack itself can result in a poor transfer. Knowing the pieces of the stack will also make you a better scientist, which is never a bad thing! A simple transfer stack that is used for wet transfers. Check out the simple illustration in Figure 1 below. What Are the Parts of the Transfer Stack?īefore discussing ways to optimize your western blot transfer, it’s worth familiarizing yourself with the parts of the transfer stack. Here are three tips to optimize your Western blot transfers to enable you to get clear blots consistently. The cause can often be a poor transfer, which can easily be fixed by optimizing your western blot transfers. Does your western blot look like someone sat on black playdough? If you’re lamenting over yet another blotchy or bad western blot, don’t fret.
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