In Pyrosequencing, a DNA strand complementary to a single-stranded DNA (ssDNA) template is synthesized, whereby each incorporated nucleotide yields detectable light, and the light intensity is proportional to the incorporated nucleotides. Correct data interpretation (i.e., signal-to-noise ratio of light intensities) is hampered by artifacts due to the formation of secondary structures of single-stranded templates. Critical among these is the looping back of the template's nonbiotinylated 3' end to itself In the resulting structure, the 3' end functions as a primer, the extension of which results in background signals. We present two ways of preventing the self-priming of a template's 3' end: (i) the use of a modified oligonucleotide, called blOligo, which is complementary to the template's 3' end and (ii) the extension of the template's 3' end with a ddNMP. In contrast to unprotected 3' ends of ssDNA templates, causing inconsistent results, we show that protecting the 3' end of an ssDNA template using either blOligos or ddNMP enables the correct interpretation of signals and results in reliable quantification.