https://bridgeslab.sph.umich.edu/protocols/index.php?action=history&feed=atom&title=Talk%3APCR_Amplification_of_DNATalk:PCR Amplification of DNA - Revision history2026-04-19T22:37:08ZRevision history for this page on the wikiMediaWiki 1.45.1https://bridgeslab.sph.umich.edu/protocols/index.php?title=Talk:PCR_Amplification_of_DNA&diff=185&oldid=prevDavebrid: comment from DGT2009-06-10T14:24:31Z<p>comment from DGT</p>
<p><b>New page</b></p><div>from [[http://damngoodtechnician.blogspot.com/2009/06/recommended-by-dgt-part-2.html Damn Good Technician]] suggestions:<br />
<br />
<blockquote>What polymerase do I use, you ask? Why, it's KOD polymerase, from EMD Biosciences. For all I know, it's the polymerase everyone uses. If it isn't, let me tell you the three basic reasons why you ought to use it. Reason 1: it has remarkable fidelity. I've never had a PCR-introduced base pair change in all the cloning I've done with it, and I've done quite a lot. Reason 2: it has blazing speed. My standard PCR extension times for a 3kb amplicon are around 30s, with annealing times of around 3-4s. If you don't pour your agarose gel to run your PCRs before you set up your PCR, it won't have solidified by the time your PCRs are done - it's that fast. Reason 3: it's very good with GC rich templates (specifically genomic templates), and also very long templates (also occasionally genomic templates).</blockquote>.<br />
<br />
I'll order in some KOD polymerase and try a 30s extension with a 3-4s annealing</div>Davebrid