Institution
Wellcome Trust Sanger Institute
Nonprofit•Cambridge, United Kingdom•
About: Wellcome Trust Sanger Institute is a nonprofit organization based out in Cambridge, United Kingdom. It is known for research contribution in the topics: Population & Genome. The organization has 4009 authors who have published 9671 publications receiving 1224479 citations.
Topics: Population, Genome, Gene, Genome-wide association study, Genomics
Papers published on a yearly basis
Papers
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TL;DR: A case of human infection with Middle East respiratory syndrome coronavirus after exposure to infected camels is investigated and analysis of the whole human-derived virus and 15% of the camel- derived virus sequence yielded nucleotide polymorphism signatures suggestive of cross-species transmission.
Abstract: We investigated a case of human infection with Middle East respiratory syndrome coronavirus (MERS-CoV) after exposure to infected camels. Analysis of the whole human-derived virus and 15% of the camel-derived virus sequence yielded nucleotide polymorphism signatures suggestive of cross-species transmission. Camels may act as a direct source of human MERS-CoV infection.
345 citations
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TL;DR: SpatialDE is described, a statistical test to identify genes with spatial patterns of expression variation from multiplexed imaging or spatial RNA-sequencing data and implements 'automatic expression histology', a spatial gene-clustering approach that enables expression-based tissue histology.
Abstract: Technological advances have made it possible to measure spatially resolved gene expression at high throughput. However, methods to analyze these data are not established. Here we describe SpatialDE, a statistical test to identify genes with spatial patterns of expression variation from multiplexed imaging or spatial RNA-sequencing data. SpatialDE also implements 'automatic expression histology', a spatial gene-clustering approach that enables expression-based tissue histology.
344 citations
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University Medical Center Groningen1, European Bioinformatics Institute2, Netherlands Cancer Institute3, Georgia Institute of Technology4, Leipzig University5, Johns Hopkins University6, University of Cambridge7, NHS Blood and Transplant8, Garvan Institute of Medical Research9, University of Tartu10, Ontario Institute for Cancer Research11, University of Washington12, Public Health Research Institute13, University of Chicago14, Greifswald University Hospital15, Ludwig Maximilian University of Munich16, University of Bristol17, Erasmus University Rotterdam18, University of Westminster19, Luleå University of Technology20, Royal Devon and Exeter Hospital21, Swiss Institute of Bioinformatics22, University of Lausanne23, University of Geneva24, University of Dundee25, Agency for Science, Technology and Research26, University of Queensland27, Leiden University Medical Center28, Radboud University Nijmegen29, University of Liège30, University of Oxford31, Menzies Research Institute32, Icahn School of Medicine at Mount Sinai33, Ikerbasque34, VU University Amsterdam35, Stanford University36, Turku University Hospital37, University of Turku38, Maastricht University39, Karolinska Institutet40, Utrecht University41, University of Helsinki42, National Institutes of Health43, Technische Universität München44, Wellcome Trust Sanger Institute45, German Cancer Research Center46, Westlake University47, University of New South Wales48
TL;DR: In this article, the authors performed cis-and trans-expression quantitative trait locus (eQTL) analyses using blood-derived expression from 31,684 individuals through the eQTLGen Consortium.
Abstract: Trait-associated genetic variants affect complex phenotypes primarily via regulatory mechanisms on the transcriptome. To investigate the genetics of gene expression, we performed cis- and trans-expression quantitative trait locus (eQTL) analyses using blood-derived expression from 31,684 individuals through the eQTLGen Consortium. We detected cis-eQTL for 88% of genes, and these were replicable in numerous tissues. Distal trans-eQTL (detected for 37% of 10,317 trait-associated variants tested) showed lower replication rates, partially due to low replication power and confounding by cell type composition. However, replication analyses in single-cell RNA-seq data prioritized intracellular trans-eQTL. Trans-eQTL exerted their effects via several mechanisms, primarily through regulation by transcription factors. Expression of 13% of the genes correlated with polygenic scores for 1,263 phenotypes, pinpointing potential drivers for those traits. In summary, this work represents a large eQTL resource, and its results serve as a starting point for in-depth interpretation of complex phenotypes.
344 citations
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Wellcome Trust Sanger Institute1, Leiden University Medical Center2, University of Cambridge3, University of Oxford4, Max Planck Society5, University of Helsinki6, Leiden University7, University of Copenhagen8, University of Liège9, University of Bonn10, University of Duisburg-Essen11, University of Kiel12, Erasmus University Medical Center13
TL;DR: This article identified the minor allele of rs1835740 on chromosome 8q22.1 to be associated with migraine (P = 5.38 x 10(-)(9), odds ratio = 1.23, 95% CI 1.150-1.324) in a genomewide association study of 2,731 migraine cases ascertained from three European headache clinics and 10,747 population-matched controls.
Abstract: Migraine is a common episodic neurological disorder, typically presenting with recurrent attacks of severe headache and autonomic dysfunction. Apart from rare monogenic subtypes, no genetic or molecular markers for migraine have been convincingly established. We identified the minor allele of rs1835740 on chromosome 8q22.1 to be associated with migraine (P = 5.38 x 10(-)(9), odds ratio = 1.23, 95% CI 1.150-1.324) in a genome-wide association study of 2,731 migraine cases ascertained from three European headache clinics and 10,747 population-matched controls. The association was replicated in 3,202 cases and 40,062 controls for an overall meta-analysis P value of 1.69 x 10(-)(1)(1) (odds ratio = 1.18, 95% CI 1.127-1.244). rs1835740 is located between MTDH (astrocyte elevated gene 1, also known as AEG-1) and PGCP (encoding plasma glutamate carboxypeptidase). In an expression quantitative trait study in lymphoblastoid cell lines, transcript levels of the MTDH were found to have a significant correlation to rs1835740 (P = 3.96 x 10(-)(5), permuted threshold for genome-wide significance 7.7 x 10(-)(5). To our knowledge, our data establish rs1835740 as the first genetic risk factor for migraine.
344 citations
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Brigham and Women's Hospital1, University Hospital Bonn2, Wellcome Trust Sanger Institute3, University of Helsinki4, Leiden University5, National Institutes of Health6, Griffith University7, Helsinki University Central Hospital8, Ludwig Maximilian University of Munich9, University of Ulm10, French Institute of Health and Medical Research11
TL;DR: In a population-based genome-wide analysis including 5,122 migraineurs and 18,108 non-migraineurs, rs2651899, rs10166942 and rs11172113 were among the top seven associations with migraine, plausibly linking both genes to migraine pathophysiology.
Abstract: Migraine is a common, heterogeneous and heritable neurological disorder. Its pathophysiology is incompletely understood, and its genetic influences at the population level are unknown. In a population-based genome-wide analysis including 5,122 migraineurs and 18,108 non-migraineurs, rs2651899 (1p36.32, PRDM16), rs10166942 (2q37.1, TRPM8) and rs11172113 (12q13.3, LRP1) were among the top seven associations (P < 5 × 10(-6)) with migraine. These SNPs were significant in a meta-analysis among three replication cohorts and met genome-wide significance in a meta-analysis combining the discovery and replication cohorts (rs2651899, odds ratio (OR) = 1.11, P = 3.8 × 10(-9); rs10166942, OR = 0.85, P = 5.5 × 10(-12); and rs11172113, OR = 0.90, P = 4.3 × 10(-9)). The associations at rs2651899 and rs10166942 were specific for migraine compared with non-migraine headache. None of the three SNP associations was preferential for migraine with aura or without aura, nor were any associations specific for migraine features. TRPM8 has been the focus of neuropathic pain models, whereas LRP1 modulates neuronal glutamate signaling, plausibly linking both genes to migraine pathophysiology.
344 citations
Authors
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Name | H-index | Papers | Citations |
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Nicholas J. Wareham | 212 | 1657 | 204896 |
Gonçalo R. Abecasis | 179 | 595 | 230323 |
Panos Deloukas | 162 | 410 | 154018 |
Michael R. Stratton | 161 | 443 | 142586 |
David W. Johnson | 160 | 2714 | 140778 |
Michael John Owen | 160 | 1110 | 135795 |
Naveed Sattar | 155 | 1326 | 116368 |
Robert E. W. Hancock | 152 | 775 | 88481 |
Julian Parkhill | 149 | 759 | 104736 |
Nilesh J. Samani | 149 | 779 | 113545 |
Michael Conlon O'Donovan | 142 | 736 | 118857 |
Jian Yang | 142 | 1818 | 111166 |
Christof Koch | 141 | 712 | 105221 |
Andrew G. Clark | 140 | 823 | 123333 |
Stylianos E. Antonarakis | 138 | 746 | 93605 |