A systematic analysis of PCR contamination.

In light of the strict legal scrutiny surrounding DNA typing at this time, it has become necessary to systematically address the issue of PCR contamination. To precisely define the parameters affecting PCR contamination under casework analysis conditions, PCR amplification reactions were intentionally compromised by employing sub-standard laboratory technique and by introducing secondary sources of DNA. The PCR parameters considered for potential sources of contamination include amplification set-up, amplification product handling, aerosol DNA and storage. In addition, analyst technique was evaluated by modifying or eliminating standard safeguards. Under the circumstances normally encountered during casework analysis, PCR contamination was never noted. Significantly, using the dot blot detection method, contamination was never observed when nanogram quantities of genomic DNA were mishandled or aerosolized. Contamination occurred only when amplification product was carelessly manipulated or purposefully sprayed near or directly into open tubes containing water or genomic DNA. Although standard precautions should be employed during PCR-based DNA typing, our data indicates that contamination during amplification procedures is not prevalent when detected by dot blot analysis.     

NaOH treatment to neutralize inhibitors of Taq polymerase.

The introduction of polymerase chain reaction (PCR) into the forensic field has greatly extended the ability to analyze DNA from small or degraded samples. However, one significant problem with PCR analysis is the sensitivity of Taq Polymerase to inhibitors found in many substrates commonly encountered with evidentiary materials. We hypothesize that the most problematic of these compounds intercalate into double stranded DNA (dsDNA) and have significantly less affinity for single stranded DNA (ssDNA). This study presents a comprehensive analysis of a novel method for the neutralization of Taq inhibitors by denaturation and washing with NaOH in Microcon-100 filtration units. The data show that DNA recovered following NaOH repurification routinely amplifies when other inhibitor neutralization techniques are unsuccessful. Genetic profiles have been obtained with both AmpliType PM + DQA1 and D1S80 systems. However, the NaOH protocol is not advised when the quantity of DNA is limited since the treatment results in significant loss of DNA.     

A simple DNA extraction method for marijuana samples used in amplified fragment length polymorphism (AFLP) analysis

As a first step in developing a molecular method for the individualization of marijuana samples, we evaluated a plant DNA extraction kit. The QIAGEN plant DNeasy method uses a spin column format for recovery of DNA and is effective for obtaining high molecular weight DNA from leaf, flower (bud), and seed samples of marijuana. The average DNA yield was 125-500 ng per 100 milligrams of fresh plant tissue. The recovered DNA was of polymerase chain reaction (PCR) quality as measured by the ability to generate reproducible amplified fragment length polymorphism (AFLP) profiles. AFLP is a technique used to create a DNA profile for plant varieties and is being applied to marijuana samples by the authors to link growers and distributors of clonal material. The QIAGEN plant DNeasy method was simple, efficient, and reproducible for processing small quantities of marijuana into DNA.