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DNA Damage Reduces Taq DNA Polymerase Fidelity and PCR Amplification Efficiency

NCJ Number
306178
Journal
Biochemical and Biophysical Research Communications Volume: 355 Issue: 2 Dated: 2007 Pages: 431-437
Author(s)
Jan A. Sikorsky ; Donald A. Primerano ; Terry W. Fenger; James Denvir
Date Published
April 2007
Length
7 pages
Annotation

Since DNA damage blocks DNA polymerase progression and increases miscoding, this study assessed the effects of specific lesions on Taq DNA polymerase fidelity and amplification efficiency.

Abstract

In the presence of 8-oxo-7,8-dihydro-2′-deoxyguanosine (8-oxodG), Taq DNA polymerase inserted dCMP and to a lesser extent dAMP. 8-Oxo-7,8-dihydro-2′-deoxyadenosine (8-oxodA) instructed the incorporation of dTMP and caused a pronounced n − 1 deletion not observed in other systems. The presence of an abasic lesion led to dAMP incorporation and n − 1 deletions. In addition, the authors introduce the mean modified efficiency (MME) as a more precise method for determining PCR amplification efficiency of damaged templates. Using this method, they were able to quantify reductions in amplification efficiency of templates containing 8-oxodG (single or multiple), 8-oxodA, or abasic sites. Because the MME method can detect small reductions in amplification efficiency, it may be useful in comparing the extent of damage in environmentally degraded or archival DNA specimens. (Published abstract provided)

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