More and more noninvasive genetic data are being produced but a general methodology to quantify genotyping error rates from non-pilot data remains lacking. Here we propose a mathematical approach to estimate genotyping error rates by exploring the relationship between errors and PCR replicates. This method can be used to quantify the error rates for either the multi-tubes approach designed by Taberlet et al. (Nucleic Acids Res 24: 3189–3194, 1996) or the pilot method by Prugh et al. (Mol Ecol 14: 1585–1596, 2005)
A commonly-used method for testing for association between disease and a single-nucleotide polymorph...
Detection of genotyping errors and integration of such errors in statistical analysis are relatively...
The analysis of genome wide variation offers the possibility of unravelling the genes involved in th...
More and more noninvasive genetic data are being produced but a general methodology to quantify geno...
The use of noninvasively collected samples greatly expands the range of ecological issues that may b...
International audienceThe use of noninvasively collected samples greatly expands the range of ecolog...
AbstractA simple method of inferring the genotyping error rate of SNP arrays and similar high-throug...
Genotyping errors can cause difficulties in a variety of scientific analyses including genetic mappi...
Times Cited: 66International audienceAlthough genotyping errors affect most data and can markedly in...
Times Cited: 124International audienceGenotyping errors occur when the genotype determined after mol...
Abstract Background Maximum likelihood estimates of haplotype frequencies can be obtained from poole...
1. Genotyping errors are rules rather than exceptions in reality, and are found in virtually all but...
High density single nucleotide polymorphism (SNP) genotyping panels provide an alternative to micros...
A commonly-used method for testing for association between disease and a single-nucleotide polymorph...
Detection of genotyping errors and integration of such errors in statistical analysis are relatively...
The analysis of genome wide variation offers the possibility of unravelling the genes involved in th...
More and more noninvasive genetic data are being produced but a general methodology to quantify geno...
The use of noninvasively collected samples greatly expands the range of ecological issues that may b...
International audienceThe use of noninvasively collected samples greatly expands the range of ecolog...
AbstractA simple method of inferring the genotyping error rate of SNP arrays and similar high-throug...
Genotyping errors can cause difficulties in a variety of scientific analyses including genetic mappi...
Times Cited: 66International audienceAlthough genotyping errors affect most data and can markedly in...
Times Cited: 124International audienceGenotyping errors occur when the genotype determined after mol...
Abstract Background Maximum likelihood estimates of haplotype frequencies can be obtained from poole...
1. Genotyping errors are rules rather than exceptions in reality, and are found in virtually all but...
High density single nucleotide polymorphism (SNP) genotyping panels provide an alternative to micros...
A commonly-used method for testing for association between disease and a single-nucleotide polymorph...
Detection of genotyping errors and integration of such errors in statistical analysis are relatively...
The analysis of genome wide variation offers the possibility of unravelling the genes involved in th...