Cell Specific eQTL Analysis without Sorting Cells

10.1371/journal.pgen.1005223

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Main Authors:	Westra H.-J., Arends D., Esko T., Peters M.J., Schurmann C., Schramm K., Kettunen J., Yaghootkar H., Fairfax B.P., Andiappan A.K., Li Y., Fu J., Karjalainen J., Platteel M., Visschedijk M., Weersma R.K., Kasela S., Milani L., Tserel L., Peterson P., Reinmaa E., Hofman A., Uitterlinden A.G., Rivadeneira F., Homuth G., Petersmann A., Lorbeer R., Prokisch H., Meitinger T., Herder C., Roden M., Grallert H., Ripatti S., Perola M., Wood A.R., Melzer D., Ferrucci L., Singleton A.B., Hernandez D.G., Knight J.C., Melchiotti R., Lee B., Poidinger M., Zolezzi F., Larbi A., Wang D.Y., van den Berg L.H., Veldink J.H., Rotzschke O., Makino S., Salomaa V., Strauch K., Völker U., van Meurs J.B.J., Metspalu A., Wijmenga C., Jansen R.C., Franke L.
Other Authors:	MICROBIOLOGY AND IMMUNOLOGY
Format:	Article
Published:	Public Library of Science 2020
Subjects:	caspase recruitment domain protein 15 NOD2 protein, human Article cell selection cell specificity cohort analysis controlled study Crohn disease downstream processing gene expression profiling genotype environment interaction lymphocyte neutrophil NOD2 gene quantitative trait locus mapping single nucleotide polymorphism cell line cytology gene expression regulation genetics genome-wide association study human meta analysis metabolism phenotype principal component analysis procedures quantitative trait locus reproducibility Cell Line Crohn Disease Gene Expression Regulation Genome-Wide Association Study Humans Lymphocytes Neutrophils Nod2 Signaling Adaptor Protein Phenotype Polymorphism, Single Nucleotide Principal Component Analysis Quantitative Trait Loci Reproducibility of Results
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/165392
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Institution:	National University of Singapore

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spelling	sg-nus-scholar.10635-1653922024-11-11T03:47:21Z Cell Specific eQTL Analysis without Sorting Cells Westra H.-J. Arends D. Esko T. Peters M.J. Schurmann C. Schramm K. Kettunen J. Yaghootkar H. Fairfax B.P. Andiappan A.K. Li Y. Fu J. Karjalainen J. Platteel M. Visschedijk M. Weersma R.K. Kasela S. Milani L. Tserel L. Peterson P. Reinmaa E. Hofman A. Uitterlinden A.G. Rivadeneira F. Homuth G. Petersmann A. Lorbeer R. Prokisch H. Meitinger T. Herder C. Roden M. Grallert H. Ripatti S. Perola M. Wood A.R. Melzer D. Ferrucci L. Singleton A.B. Hernandez D.G. Knight J.C. Melchiotti R. Lee B. Poidinger M. Zolezzi F. Larbi A. Wang D.Y. van den Berg L.H. Veldink J.H. Rotzschke O. Makino S. Salomaa V. Strauch K. Völker U. van Meurs J.B.J. Metspalu A. Wijmenga C. Jansen R.C. Franke L. MICROBIOLOGY AND IMMUNOLOGY OTOLARYNGOLOGY BIOLOGICAL SCIENCES caspase recruitment domain protein 15 caspase recruitment domain protein 15 NOD2 protein, human Article cell selection cell specificity cohort analysis controlled study Crohn disease downstream processing gene expression profiling genotype environment interaction lymphocyte neutrophil NOD2 gene quantitative trait locus mapping single nucleotide polymorphism cell line cytology gene expression regulation genetics genome-wide association study human meta analysis metabolism phenotype principal component analysis procedures quantitative trait locus reproducibility single nucleotide polymorphism Cell Line Crohn Disease Gene Expression Regulation Genome-Wide Association Study Humans Lymphocytes Neutrophils Nod2 Signaling Adaptor Protein Phenotype Polymorphism, Single Nucleotide Principal Component Analysis Quantitative Trait Loci Reproducibility of Results 10.1371/journal.pgen.1005223 PLoS Genetics 11 5 e1005223 2020-03-13T05:24:26Z 2020-03-13T05:24:26Z 2015 Article Westra H.-J., Arends D., Esko T., Peters M.J., Schurmann C., Schramm K., Kettunen J., Yaghootkar H., Fairfax B.P., Andiappan A.K., Li Y., Fu J., Karjalainen J., Platteel M., Visschedijk M., Weersma R.K., Kasela S., Milani L., Tserel L., Peterson P., Reinmaa E., Hofman A., Uitterlinden A.G., Rivadeneira F., Homuth G., Petersmann A., Lorbeer R., Prokisch H., Meitinger T., Herder C., Roden M., Grallert H., Ripatti S., Perola M., Wood A.R., Melzer D., Ferrucci L., Singleton A.B., Hernandez D.G., Knight J.C., Melchiotti R., Lee B., Poidinger M., Zolezzi F., Larbi A., Wang D.Y., van den Berg L.H., Veldink J.H., Rotzschke O., Makino S., Salomaa V., Strauch K., Völker U., van Meurs J.B.J., Metspalu A., Wijmenga C., Jansen R.C., Franke L. (2015). Cell Specific eQTL Analysis without Sorting Cells. PLoS Genetics 11 (5) : e1005223. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pgen.1005223 15537390 https://scholarbank.nus.edu.sg/handle/10635/165392 Public Library of Science Unpaywall 20200320
institution	National University of Singapore
building	NUS Library
continent	Asia
country	Singapore Singapore
content_provider	NUS Library
collection	ScholarBank@NUS
topic	caspase recruitment domain protein 15 caspase recruitment domain protein 15 NOD2 protein, human Article cell selection cell specificity cohort analysis controlled study Crohn disease downstream processing gene expression profiling genotype environment interaction lymphocyte neutrophil NOD2 gene quantitative trait locus mapping single nucleotide polymorphism cell line cytology gene expression regulation genetics genome-wide association study human meta analysis metabolism phenotype principal component analysis procedures quantitative trait locus reproducibility single nucleotide polymorphism Cell Line Crohn Disease Gene Expression Regulation Genome-Wide Association Study Humans Lymphocytes Neutrophils Nod2 Signaling Adaptor Protein Phenotype Polymorphism, Single Nucleotide Principal Component Analysis Quantitative Trait Loci Reproducibility of Results
spellingShingle	caspase recruitment domain protein 15 caspase recruitment domain protein 15 NOD2 protein, human Article cell selection cell specificity cohort analysis controlled study Crohn disease downstream processing gene expression profiling genotype environment interaction lymphocyte neutrophil NOD2 gene quantitative trait locus mapping single nucleotide polymorphism cell line cytology gene expression regulation genetics genome-wide association study human meta analysis metabolism phenotype principal component analysis procedures quantitative trait locus reproducibility single nucleotide polymorphism Cell Line Crohn Disease Gene Expression Regulation Genome-Wide Association Study Humans Lymphocytes Neutrophils Nod2 Signaling Adaptor Protein Phenotype Polymorphism, Single Nucleotide Principal Component Analysis Quantitative Trait Loci Reproducibility of Results Westra H.-J. Arends D. Esko T. Peters M.J. Schurmann C. Schramm K. Kettunen J. Yaghootkar H. Fairfax B.P. Andiappan A.K. Li Y. Fu J. Karjalainen J. Platteel M. Visschedijk M. Weersma R.K. Kasela S. Milani L. Tserel L. Peterson P. Reinmaa E. Hofman A. Uitterlinden A.G. Rivadeneira F. Homuth G. Petersmann A. Lorbeer R. Prokisch H. Meitinger T. Herder C. Roden M. Grallert H. Ripatti S. Perola M. Wood A.R. Melzer D. Ferrucci L. Singleton A.B. Hernandez D.G. Knight J.C. Melchiotti R. Lee B. Poidinger M. Zolezzi F. Larbi A. Wang D.Y. van den Berg L.H. Veldink J.H. Rotzschke O. Makino S. Salomaa V. Strauch K. Völker U. van Meurs J.B.J. Metspalu A. Wijmenga C. Jansen R.C. Franke L. Cell Specific eQTL Analysis without Sorting Cells
description	10.1371/journal.pgen.1005223
author2	MICROBIOLOGY AND IMMUNOLOGY
author_facet	MICROBIOLOGY AND IMMUNOLOGY Westra H.-J. Arends D. Esko T. Peters M.J. Schurmann C. Schramm K. Kettunen J. Yaghootkar H. Fairfax B.P. Andiappan A.K. Li Y. Fu J. Karjalainen J. Platteel M. Visschedijk M. Weersma R.K. Kasela S. Milani L. Tserel L. Peterson P. Reinmaa E. Hofman A. Uitterlinden A.G. Rivadeneira F. Homuth G. Petersmann A. Lorbeer R. Prokisch H. Meitinger T. Herder C. Roden M. Grallert H. Ripatti S. Perola M. Wood A.R. Melzer D. Ferrucci L. Singleton A.B. Hernandez D.G. Knight J.C. Melchiotti R. Lee B. Poidinger M. Zolezzi F. Larbi A. Wang D.Y. van den Berg L.H. Veldink J.H. Rotzschke O. Makino S. Salomaa V. Strauch K. Völker U. van Meurs J.B.J. Metspalu A. Wijmenga C. Jansen R.C. Franke L.
format	Article
author	Westra H.-J. Arends D. Esko T. Peters M.J. Schurmann C. Schramm K. Kettunen J. Yaghootkar H. Fairfax B.P. Andiappan A.K. Li Y. Fu J. Karjalainen J. Platteel M. Visschedijk M. Weersma R.K. Kasela S. Milani L. Tserel L. Peterson P. Reinmaa E. Hofman A. Uitterlinden A.G. Rivadeneira F. Homuth G. Petersmann A. Lorbeer R. Prokisch H. Meitinger T. Herder C. Roden M. Grallert H. Ripatti S. Perola M. Wood A.R. Melzer D. Ferrucci L. Singleton A.B. Hernandez D.G. Knight J.C. Melchiotti R. Lee B. Poidinger M. Zolezzi F. Larbi A. Wang D.Y. van den Berg L.H. Veldink J.H. Rotzschke O. Makino S. Salomaa V. Strauch K. Völker U. van Meurs J.B.J. Metspalu A. Wijmenga C. Jansen R.C. Franke L.
author_sort	Westra H.-J.
title	Cell Specific eQTL Analysis without Sorting Cells
title_short	Cell Specific eQTL Analysis without Sorting Cells
title_full	Cell Specific eQTL Analysis without Sorting Cells
title_fullStr	Cell Specific eQTL Analysis without Sorting Cells
title_full_unstemmed	Cell Specific eQTL Analysis without Sorting Cells
title_sort	cell specific eqtl analysis without sorting cells
publisher	Public Library of Science
publishDate	2020
url	https://scholarbank.nus.edu.sg/handle/10635/165392
_version_	1821185752762941440

Cell Specific eQTL Analysis without Sorting Cells

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