Loryn N. Sellner scite author profile

For the Mutation Detection 2003 Special IssueScreening for deletions of all or part of genes poses a challenge in the diagnostic laboratory. Numerous methods are available for detecting deletions of a few base pairs or very large deletions, but difficulties arise in detecting deletions of a few kilobases. Two new techniques have recently been described that allow detection of such midsize deletions by simultaneously screening for the loss or duplication of up to 40 target sequences. These are the multiplex amplification and probe hybridization (MAPH) and the multiplex ligation-dependent probe amplification (MLPA). Both rely on sequence-specific probe hybridization to genomic DNA, followed by amplification of the hybridized probe, and semi-quantitative analysis of the resulting PCR products. The relative peak heights or band intensities from each target indicate their initial concentration. The two techniques differ in the ease with which probes can be generated in house, and the labor intensity of performing the assay.

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Reverse transcriptase inhibits Taq polymerase activity

Sellner

Coelen

Mackenzie

1992

Nucl Acids Res

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Detection of viral RNA by polymerase chain reaction (PCR) requires the prior reverse transcription of the viral RNA. In order to minimise the number of manual manipulations required for processing large numbers of samples, we attempted to design a system whereby all the reagents required for both reverse transcription and amplification can be added to one tube and a single, non-interrupted thermal cycling program performed. Whilst attempting to set up such a one-tube system with Taq polymerase (Taq; Biotech International) and avian myoblastosis virus (AMV) reverse transcriptase (RT), we noticed a substantial decrease in the sensitivity of detection of viral RNA. Investigation of this phenomenon has revealed direct interference of RT with Taq polymerase. Evidence supporting this conclusion includes the following observations: (1) increasing the ratio of Taq to RT improves sensitivity; (2) adding non-homologous RNA improves sensitivity; (3) RT that has been heat inactivated prior to Taq addition does not exert this effect; (4) the effect is not sequence restricted; (5) the Mg2+ ions are not sequestered by RT. In addition, the effect is not limited to AMV RT, Moloney murine leukaemia virus RT also affects Taq activity.

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Distinction between intraductal carcinoma of the prostate (IDC-P), high-grade dysplasia (PIN), and invasive prostatic adenocarcinoma, using molecular markers of cancer progression

et al. 2000

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Distinction between intraductal carcinoma of the prostate (IDC‐P), high‐grade dysplasia (PIN), and invasive prostatic adenocarcinoma, using molecular markers of cancer progression

Dawkins¹,

Sellner²,

Turbett³

et al. 2000

Prostate

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The Use of Optimal Cutting Temperature Compound Can Inhibit Amplification by Polymerase Chain Reaction

Turbett

Sellner

1997

Diagnostic Molecular Pathology

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Optimal cutting temperature (OCT) is a widely used embedding medium for tissues for histopathologic analysis. This investigation examined the effects that OCT storage can have upon the ability to perform subsequent molecular biological analyses. Tumor material was dissected into small pieces and stored at approximately 20 degrees C both with and without OCT. DNA and RNA were then extracted from the tissue fragments and analyzed by the polymerase chain reaction (PCR), using primer sets designed to amplify a range of product sizes, and also by reverse transcriptase-PCR (RT-PCR). The storage of pathological specimens in OCT compound was found to affect significantly and irreversibly the ability to amplify DNA in the PCR, particularly as the size of the amplified fragment increased. This effect appeared to occur as a result of greater degradation of DNA extracted from tissue embedded in OCT compared to DNA extracted from tissue stored without OCT. RNA quality appeared unaffected, which may be because of the extraction protocol employed. Our results suggest that OCT-embedded frozen-tissue samples may be used for RNA isolation for subsequent RT-PCR and for the in vitro amplification of DNA targets of approximately < 300 base pairs only. We strongly advise against the routine storage of any tissue biopsy material in OCT if molecular analyses may be required.

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Loryn N. Sellner

MLPA and MAPH: New techniques for detection of gene deletions

Reverse transcriptase inhibits Taq polymerase activity

Distinction between intraductal carcinoma of the prostate (IDC-P), high-grade dysplasia (PIN), and invasive prostatic adenocarcinoma, using molecular markers of cancer progression

Distinction between intraductal carcinoma of the prostate (IDC‐P), high‐grade dysplasia (PIN), and invasive prostatic adenocarcinoma, using molecular markers of cancer progression

The Use of Optimal Cutting Temperature Compound Can Inhibit Amplification by Polymerase Chain Reaction

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