DNA purification methods are indispensable tools of molecular biology, used for many decades. Nevertheless, for certain specialized applications, the currently employed techniques are not sufficiently effective. While examining a number of the existing methods to purify the genomic DNA of the thermophilic bacteriophage TP-84, which infects Geobacillus stearothermophilus (G. stearothermophilus), we have found out that the obtained DNA is contaminated with trace amounts of infectious TP-84 particles. This was detrimental for the bacteriophage genetic manipulation purposes, as finding the recombinant TP-84 clones was essentially impossible due to the appearance of a high background of native bacteriophage plaques. Thus, we have developed a method, which enables the fast and efficient isolation of a bacteriophage genomic DNA from concentrated phage preparations, obtained using CsCl gradient ultracentrifugation, without the need to remove concentrated CsCl solutions. The method employs silica columns and mini-scale isolation of microgram amounts of high quality DNA. It is universal-the silica mini-columns from various manufacturers can be used to conduct the procedure. The purified DNA, free from infectious bacteriophage particles, is ready for further manipulations. This is particularly important for such thermophilic bacteriophages that may partially survive standard isolation procedures and contaminate the final DNA product.
Keywords: DNA purification; TP-84; bacteriophage; genomics; phage display; thermophile.