Literature DB >> 8593617

Approach to genotyping errors caused by nontemplated nucleotide addition by Taq DNA polymerase.

J R Smith1, J D Carpten, M J Brownstein, S Ghosh, V L Magnuson, D A Gilbert, J M Trent, F S Collins.   

Abstract

Thermostable DNA polymerases can catalyze nontemplated addition of a nucleotide to the 3' end of amplification products. This presents a potential source of error in genotyping studies employing Taq DNA polymerase to amplify microsatellite loci. Although the activity is marker specific, experimental variation is often seen in the degree of modification. Consequently, for a given microsatellite marker, an allele may be inconsistently identified as either the unmodified or modified amplification product. Full automation of high-throughput genotyping has been hampered by the need for manual editing of data because of this source of allele misidentification. In this study we estimate a 1% to 3% error rate attributable to nontemplated nucleotide addition in the ABI PRISM genotyping system. We present a PCR-based strategy to minimize this source of error.

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Year:  1995        PMID: 8593617     DOI: 10.1101/gr.5.3.312

Source DB:  PubMed          Journal:  Genome Res        ISSN: 1088-9051            Impact factor:   9.043


  20 in total

1.  Loss of heterozygosity analysis using whole genome amplification, cell sorting, and fluorescence-based PCR.

Authors:  T G Paulson; P C Galipeau; B J Reid
Journal:  Genome Res       Date:  1999-05       Impact factor: 9.043

2.  Undetected genotyping errors cause apparent overtransmission of common alleles in the transmission/disequilibrium test.

Authors:  Adele A Mitchell; David J Cutler; Aravinda Chakravarti
Journal:  Am J Hum Genet       Date:  2003-02-13       Impact factor: 11.025

3.  Modification of the GeneScan 2500 fluorescent dye standard for accurate product sizing.

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Journal:  Mol Biotechnol       Date:  1999-12-15       Impact factor: 2.695

4.  A novel method for automatic genotyping of microsatellite markers based on parametric pattern recognition.

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Journal:  Hum Genet       Date:  2003-07-12       Impact factor: 4.132

5.  Development of a standard set of microsatellite reference alleles for identification of grape cultivars.

Authors:  P This; A Jung; P Boccacci; J Borrego; R Botta; L Costantini; M Crespan; G S Dangl; C Eisenheld; F Ferreira-Monteiro; S Grando; J Ibáñez; T Lacombe; V Laucou; R Magalhães; C P Meredith; N Milani; E Peterlunger; F Regner; L Zulini; E Maul
Journal:  Theor Appl Genet       Date:  2004-09-30       Impact factor: 5.699

6.  Novel algorithm for automated genotyping of microsatellites.

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Journal:  Nucleic Acids Res       Date:  2004-11-19       Impact factor: 16.971

7.  The pattern of genetic diversity of Guinea-race Sorghum bicolor (L.) Moench landraces as revealed with SSR markers.

Authors:  Rolf T Folkertsma; H Frederick W Rattunde; Subhash Chandra; G Soma Raju; C Tom Hash
Journal:  Theor Appl Genet       Date:  2005-06-18       Impact factor: 5.699

8.  Strategies for genotyping: Effectiveness of tailing primers to increase accuracy in short tandem repeat determinations.

Authors:  Linda Wood Ballard; Pamela Scott Adams; Yongde Bao; Duane Bartley; Doug Bintzler; Laura Kasch; Lynn Petukhova; Caprice Rosato
Journal:  J Biomol Tech       Date:  2002-03

9.  Association mapping of disease loci, by use of a pooled DNA genomic screen.

Authors:  L F Barcellos; W Klitz; L L Field; R Tobias; A M Bowcock; R Wilson; M P Nelson; J Nagatomi; G Thomson
Journal:  Am J Hum Genet       Date:  1997-09       Impact factor: 11.025

10.  High-precision genotyping by denaturing capillary electrophoresis.

Authors:  H Wenz; J M Robertson; S Menchen; F Oaks; D M Demorest; D Scheibler; B B Rosenblum; C Wike; D A Gilbert; J W Efcavitch
Journal:  Genome Res       Date:  1998-01       Impact factor: 9.043
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