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Genetically personalised organ-specific metabolic models in health and disease.
Foguet, Carles; Xu, Yu; Ritchie, Scott C; Lambert, Samuel A; Persyn, Elodie; Nath, Artika P; Davenport, Emma E; Roberts, David J; Paul, Dirk S; Di Angelantonio, Emanuele; Danesh, John; Butterworth, Adam S; Yau, Christopher; Inouye, Michael.
Afiliación
  • Foguet C; Cambridge Baker Systems Genomics Initiative, Department of Public Health and Primary Care, University of Cambridge, Cambridge, UK. cf545@medschl.cam.ac.uk.
  • Xu Y; Health Data Research UK Cambridge, Wellcome Genome Campus and University of Cambridge, Cambridge, UK. cf545@medschl.cam.ac.uk.
  • Ritchie SC; British Heart Foundation Cardiovascular Epidemiology Unit, Department of Public Health and Primary Care, University of Cambridge, Cambridge, UK. cf545@medschl.cam.ac.uk.
  • Lambert SA; Heart and Lung Research Institute, University of Cambridge, Cambridge, UK. cf545@medschl.cam.ac.uk.
  • Persyn E; Cambridge Baker Systems Genomics Initiative, Department of Public Health and Primary Care, University of Cambridge, Cambridge, UK.
  • Nath AP; British Heart Foundation Cardiovascular Epidemiology Unit, Department of Public Health and Primary Care, University of Cambridge, Cambridge, UK.
  • Davenport EE; Heart and Lung Research Institute, University of Cambridge, Cambridge, UK.
  • Roberts DJ; Cambridge Baker Systems Genomics Initiative, Department of Public Health and Primary Care, University of Cambridge, Cambridge, UK.
  • Paul DS; British Heart Foundation Cardiovascular Epidemiology Unit, Department of Public Health and Primary Care, University of Cambridge, Cambridge, UK.
  • Di Angelantonio E; Heart and Lung Research Institute, University of Cambridge, Cambridge, UK.
  • Danesh J; British Heart Foundation Centre of Research Excellence, University of Cambridge, Cambridge, UK.
  • Butterworth AS; Cambridge Baker Systems Genomics Initiative, Baker Heart and Diabetes Institute, Melbourne, VIC, Australia.
  • Yau C; Cambridge Baker Systems Genomics Initiative, Department of Public Health and Primary Care, University of Cambridge, Cambridge, UK.
  • Inouye M; Health Data Research UK Cambridge, Wellcome Genome Campus and University of Cambridge, Cambridge, UK.
Nat Commun ; 13(1): 7356, 2022 11 29.
Article en En | MEDLINE | ID: mdl-36446790
ABSTRACT
Understanding how genetic variants influence disease risk and complex traits (variant-to-function) is one of the major challenges in human genetics. Here we present a model-driven framework to leverage human genome-scale metabolic networks to define how genetic variants affect biochemical reaction fluxes across major human tissues, including skeletal muscle, adipose, liver, brain and heart. As proof of concept, we build personalised organ-specific metabolic flux models for 524,615 individuals of the INTERVAL and UK Biobank cohorts and perform a fluxome-wide association study (FWAS) to identify 4312 associations between personalised flux values and the concentration of metabolites in blood. Furthermore, we apply FWAS to identify 92 metabolic fluxes associated with the risk of developing coronary artery disease, many of which are linked to processes previously described to play in role in the disease. Our work demonstrates that genetically personalised metabolic models can elucidate the downstream effects of genetic variants on biochemical reactions involved in common human diseases.
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Texto completo: 1 Colección: 01-internacional Banco de datos: MEDLINE Asunto principal: Enfermedad de la Arteria Coronaria / Tejido Adiposo Límite: Humans Idioma: En Revista: Nat Commun Asunto de la revista: BIOLOGIA / CIENCIA Año: 2022 Tipo del documento: Article País de afiliación: Reino Unido
Texto completo
Imprimir
XML
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Buscar en Google

Texto completo: 1 Colección: 01-internacional Banco de datos: MEDLINE Asunto principal: Enfermedad de la Arteria Coronaria / Tejido Adiposo Límite: Humans Idioma: En Revista: Nat Commun Asunto de la revista: BIOLOGIA / CIENCIA Año: 2022 Tipo del documento: Article País de afiliación: Reino Unido