Michal Mokry Research At Umc Utrecht In my research, i unravel the biological mechanisms behind atherosclerosis. i employ a combination of bulk and single cell transcriptomics, epigenetics, and bioinformatics, and integrate these approaches with clinical datasets and in vitro experiments. Michal mokry, associate professor | cited by 7,057 | of university medical center utrecht, utrecht (umc utrecht) | read 237 publications | contact michal mokry.
Michal Mokrý Oktagon Mma Expertise: biobanking, biomarker, chromatin, data integration, epigenomics, integrative omics, single cell rna sequencing, transcriptomics. department institute: cdl exp. cardiology university medical center utrecht. email: [email protected]. website: mokrylab.org. Associate professor at umc utrecht · ervaring: umc utrecht · locatie: den haag · 500 connecties op linkedin. umc utrecht cited by 10,232 atherosclerosis vascular diseases transcriptomics epigenomics ibd. Here we analyze the gene expression profiles of 654 advanced human carotid plaques. the unsupervised, transcriptome driven clustering revealed five dominant plaque types. these plaque phenotypes were associated with clinical presentation and showed differences in cellular compositions.
Michal Mokry Associate Professor Md Phd University Medical umc utrecht cited by 10,232 atherosclerosis vascular diseases transcriptomics epigenomics ibd. Here we analyze the gene expression profiles of 654 advanced human carotid plaques. the unsupervised, transcriptome driven clustering revealed five dominant plaque types. these plaque phenotypes were associated with clinical presentation and showed differences in cellular compositions. My work leverages the largest biobank of well characterized atherosclerotic plaques from over 4,000 patients, known as the athero express study. we generate a variety of complex “ omics” datasets, which include genotyping, transcriptomics (bulk, single cell, and spatially resolved), dna methylation (both bulk and single cell), and proteomics. Cardiovascular genetics and complex data domain representatives michal mokry hester den ruijter peter van tintelen. Translational omics is a powerful approach that integrates various omics technologies—such as genomics, transcriptomics, proteomics, and epigenomics—to translate basic scientific discoveries into clinical applications. for general inquiries, please contact michal mokry.
my research utilizes the largest biobank of well characterized atherosclerotic plaques with more than 4000 included patients – the athero express study.
About Umc Utrecht Careers At Umc Utrecht My work leverages the largest biobank of well characterized atherosclerotic plaques from over 4,000 patients, known as the athero express study. we generate a variety of complex “ omics” datasets, which include genotyping, transcriptomics (bulk, single cell, and spatially resolved), dna methylation (both bulk and single cell), and proteomics. Cardiovascular genetics and complex data domain representatives michal mokry hester den ruijter peter van tintelen. Translational omics is a powerful approach that integrates various omics technologies—such as genomics, transcriptomics, proteomics, and epigenomics—to translate basic scientific discoveries into clinical applications. for general inquiries, please contact michal mokry.
my research utilizes the largest biobank of well characterized atherosclerotic plaques with more than 4000 included patients – the athero express study.
Andrei Mokry Associated Professor Phd Research Profile Translational omics is a powerful approach that integrates various omics technologies—such as genomics, transcriptomics, proteomics, and epigenomics—to translate basic scientific discoveries into clinical applications. for general inquiries, please contact michal mokry.
my research utilizes the largest biobank of well characterized atherosclerotic plaques with more than 4000 included patients – the athero express study.
Umc Utrecht Creating Temperature Registration Uniformity And Peace Of
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