Integrated transcriptional profiling and linkage analysis for identification of genes underlying disease

Hübner, Norbert; Wallace, Caroline A.; Zimdahl, Heike; Petretto, Enrico; Schulz, Herbert; MacIver, Fiona H.; Mueller, Michael; Hummel, Oliver; Monti, Jan; Zidek, Vaclav; Musilová, Alena; Křen, Vladimı́r; Causton, Helen C.; Gamé, Laurence; Born, Gabriele; Schmidt, Sabine; Müller, Anita; Cook, Stuart A.; Kurtz, Theodore W.; Whittaker, John C.; Pravenec, Michal; Aitman, Timothy J.

doi:10.1038/ng1522

Cited by 468 publications

(440 citation statements)

References 47 publications

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“…To date, expression quantitative trait loci, or eQTLs, have been mapped in populations segregating polymorphisms [2][3][4][5][6][7][8][9][10][11][12] , but power in such studies is limited by the frequency of ~1 crossover per chromosome per meiosis.…”

mentioning

confidence: 99%

Fine mapping of regulatory loci for mammalian gene expression using radiation hybrids

et al. 2008

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We mapped regulatory loci for nearly all protein-coding genes in mammals using comparative genomic hybridization and expression array measurements from a panel of mouse-hamster radiation hybrid cell lines. The large number of breaks in the mouse chromosomes and the dense genotyping of the panel allowed extremely sharp mapping of loci. As the regulatory loci result from extra gene dosage, we call them copy number expression quantitative trait loci, or ceQTLs. The −2log 10 P support interval for the ceQTLs was <150 kb, containing an average of <2-3 genes. We identified 29,769 trans ceQTLs with −log 10 P > 4, including 13 hotspots each regulating >100 genes in trans. Further, this work identifies 2,761 trans ceQTLs harboring no known genes, and provides evidence for a mode of gene expression autoregulation specific to the X chromosome.

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mentioning

confidence: 99%

Fine mapping of regulatory loci for mammalian gene expression using radiation hybrids

et al. 2008

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“…Although traditionally experimental stroke research has focused on early mechanisms of damage, only recently a surprising capacity of the central nervous system (CNS) for regeneration and plasticity has been identified, raising the hopes of developing therapeutic approaches based on these findings (Chen et al, 2002;Lindvall and Kokaia, 2004;Savitz et al, 2004Savitz et al, , 2002Roitberg, 2004;Chopp and Li, 2002). Further progress in the field has come from a recent tremendous expansion of the methodological portfolio of experimental stroke research, ranging from genome-wide transcriptional and protein expression screens (Carmichael, 2003;Hubner et al, 2005), to the targeted deletion or overexpression of candidate genes (Liang et al, 2004), to sophisticated highresolution in vivo imaging (Dijkhuizen and Nicolay, 2003).…”

Section: Decades Of Progress In Basic Stroke Pathophysiologymentioning

confidence: 99%

Bench to Bedside: The Quest for Quality in Experimental Stroke Research

Dirnagl

2006

J Cereb Blood Flow Metab

313

239

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Over the past decades, great progress has been made in clinical as well as experimental stroke research. Disappointingly, however, hundreds of clinical trials testing neuroprotective agents have failed despite efficacy in experimental models. Recently, several systematic reviews have exposed a number of important deficits in the quality of preclinical stroke research. Many of the issues raised in these reviews are not specific to experimental stroke research, but apply to studies of animal models of disease in general. It is the aim of this article to review some quality-related sources of bias with a particular focus on experimental stroke research. Weaknesses discussed include, among others, low statistical power and hence reproducibility, defects in statistical analysis, lack of blinding and randomization, lack of quality-control mechanisms, deficiencies in reporting, and negative publication bias. Although quantitative evidence for quality problems at present is restricted to preclinical stroke research, to spur discussion and in the hope that they will be exposed to meta-analysis in the near future, I have also included some quality-related sources of bias, which have not been systematically studied. Importantly, these may be also relevant to mechanism-driven basic stroke research. I propose that by a number of rather simple measures reproducibility of experimental results, as well as the step from bench to bedside in stroke research may be made more successful. However, the ultimate proof for this has to await successful phase III stroke trials, which were built on basic research conforming to the criteria as put forward in this article.

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“…Using this approach, a gene expression pattern strongly associated with murine obesity was identified leading to the identification of four new QTL linked to this complex phenotype. 110 More recently, genetical genomics yielded the identification of regulatory networks affecting stem cell function, 111 blood pressure, 112 and some neural phenotypes. 113 In humans, analysis of genomically controlled variation in gene expression has also been reported 114 opening a promising venue for unraveling biological pathways in complex diseases.…”

Section: Functional Genomicsmentioning

confidence: 99%

Multiple sclerosis genetics: leaving no stone unturned

2005

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Compelling epidemiologic and molecular data indicate that genes play a primary role in determining who is at risk for developing multiple sclerosis (MS), how the disease progresses, and how someone responds to therapy. The genetic component of MS etiology is believed to result from the action of allelic variants in several genes. Their incomplete penetrance and moderate individual effect probably reflects epistatic interactions, post-transcriptional regulatory mechanisms, and significant environmental influences. Equally significant, it is also likely that locus heterogeneity exists, whereby specific genes influence susceptibility and pathogenesis in some individuals but not in others. With the aid of novel analytical algorithms, the combined study of genomic, transcriptional, proteomic, and phenotypic information in well-controlled study groups will define a useful conceptual model of pathogenesis and a framework for understanding the mechanisms of action of existing therapies for this disorder, as well as the rationale for novel curative strategies.

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Integrated transcriptional profiling and linkage analysis for identification of genes underlying disease

Cited by 468 publications

References 47 publications

Fine mapping of regulatory loci for mammalian gene expression using radiation hybrids

Fine mapping of regulatory loci for mammalian gene expression using radiation hybrids

Bench to Bedside: The Quest for Quality in Experimental Stroke Research

Multiple sclerosis genetics: leaving no stone unturned

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