Transmission/Disequilibrium Test Based on Haplotype Sharing for Tightly Linked Markers

Zhang, Shuanglin; Sha, Qiuying; Chen, Huann-Sheng; Dong, Jing; Jiang, Rong

doi:10.1086/378205

Cited by 73 publications

(121 citation statements)

References 33 publications

(63 reference statements)

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“…As it has been reported that analyses using haplotypes of multiple tightly linked markers are usually more informative than those using a single marker, 23,24 we decided to perform multimarker transmission disequilibrium tests in the TNFRSF14 and TNFRSF6B loci with 931 family trios from the IMSGC GWAS data (Supplementary Figure 1 and Supplementary Tables 1 and 2). For each locus, we tested the statistical significance of the most common haplotype among the transmitted set.…”

Section: Resultsmentioning

confidence: 99%

Members 6B and 14 of the TNF receptor superfamily in multiple sclerosis predisposition

et al. 2010

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TNFRSF6B and TNFRSF14 genes were recently associated with Crohn's disease and rheumatoid arthritis. TNFRSF14 is known as herpes virus entry mediator (HVEM), and herpes viruses have been involved in the aetiology of multiple sclerosis (MS). MS patients present human herpes virus 6 (HHV6) in active plaques and increased antibody responses to HHV6. We aimed to ascertain the role of these genes in MS susceptibility and to investigate the relationship of the gene encoding the widely expressed HVEM receptor with the active replication of HHV6 found in some MS patients. Genotyping of 1370 Spanish MS patients and 1715 ethnically matched controls was performed. HHV6A DNA levels (surrogate of active viral replication) were analysed in serum of MS patients during a 2-year follow-up. Both polymorphisms were associated with MS predisposition, with stronger effect in patients with HHV6 active replication-TNFRSF6B-rs4809330*A: P ¼ 0.028, OR ¼ 1.13; TNFRSF14-rs6684865*A: overall P ¼ 0.0008, OR ¼ 1.2; and HHV6-positive patients vs controls: P ¼ 0.017, OR ¼ 1.69.

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Section: Resultsmentioning

confidence: 99%

Members 6B and 14 of the TNF receptor superfamily in multiple sclerosis predisposition

et al. 2010

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“…Therefore, genotyping error rates that are tolerable in the context of single-marker analysis can be unacceptable for analyses based on haplotypes. For example, Knapp and Becker 10 recently observed a dramatic inflation of the type I error rate of the haplotype-sharing transmission/disequilibrium test (HS-TDT) by Zhang et al 11 in the presence of genotyping error rates as small as 0.001. As haplotype analysis requires a higher standard of data integrity, it would be valuable to develop methods for the identification of probable genotyping errors that exploit the kind of data typically available.…”

Section: Introductionmentioning

confidence: 99%

Identification of probable genotyping errors by consideration of haplotypes

et al. 2006

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Undetected genotyping errors pose a problem in genetic epidemiological studies, as they may invalidate statistical analysis or reduce its power. Haplotype analysis requires an improved standard of the data, because a haplotype can be inferred correctly only if the genotypes of all its markers are correct. Here, we present a method that identifies probable genotyping errors in trio samples with the help of the estimated haplotype frequency distribution of the sample. If the likelihood of the most likely haplotype explanation depends strongly on just one genotype, in the sense that setting the genotype to be missing leads to a much more likely haplotype explanation, this genotype is considered as a potential genotyping error. We describe a method that systematically searches the whole data set for such potential errors. Based on the haplotype distribution of a real data set, we carry out a simulation study to estimate the sensitivity and specifity of the method. In addition, we apply our approach to the real data set itself. Potentially erroneous genotypes are re-determined via sequencing. The results of both the simulation study and of the application to the real data set show that a considerable proportion of true genotyping errors is detected and that the number of false-positive signals is acceptable. We conclude that it is indeed possible to identify probable genotyping errors by considering haplotypes. The method described here will be part of the next release of our FAMHAP software.

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“…In the context of association studies, when the disease association of a specific allele is dependent on cis-acting interactions with other loci, the disease association may not be detected by testing a single allele unless the whole functional haplotype itself is analyzed. This has been demonstrated through both empirical studies (Drysdale et al 2000;Martin et al 2000) and simulation studies (Zhang et al 2002(Zhang et al , 2003. Computational algorithms and statistical methods are currently the preferred means, particularly for largescale haplotype determination.…”

Section: Discussionmentioning

confidence: 99%

Accurate Haplotype Inference for Multiple Linked Single-Nucleotide Polymorphisms Using Sibship Data

2006

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Sibships are commonly used in genetic dissection of complex diseases, particularly for late-onset diseases. Haplotype-based association studies have been advocated as powerful tools for fine mapping and positional cloning of complex disease genes. Existing methods for haplotype inference using data from relatives were originally developed for pedigree data. In this study, we proposed a new statistical method for haplotype inference for multiple tightly linked single-nucleotide polymorphisms (SNPs), which is tailored for extensively accumulated sibship data. This new method was implemented via an expectationmaximization (EM) algorithm without the usual assumption of linkage equilibrium among markers. Our EM algorithm does not incur extra computational burden for haplotype inference using sibship data when compared with using unrelated parental data. Furthermore, its computational efficiency is not affected by increasing sibship size. We examined the robustness and statistical performance of our new method in simulated data created from an empirical haplotype data set of human growth hormone gene 1. The utility of our method was illustrated with an application to the analyses of haplotypes of three candidate genes for osteoporosis.

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Transmission/Disequilibrium Test Based on Haplotype Sharing for Tightly Linked Markers

Cited by 73 publications

References 33 publications

Members 6B and 14 of the TNF receptor superfamily in multiple sclerosis predisposition

Members 6B and 14 of the TNF receptor superfamily in multiple sclerosis predisposition

Identification of probable genotyping errors by consideration of haplotypes

Accurate Haplotype Inference for Multiple Linked Single-Nucleotide Polymorphisms Using Sibship Data

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