Litcius/Paper detail

Fine-mapping, trans-ancestral and genomic analyses identify causal variants, cells, genes and drug targets for type 1 diabetes

Catherine C. Robertson, Jamie Inshaw, Suna Önengüt-Gümüşcü, Wei‐Min Chen, David Flores Santa Cruz, Hanzhi Yang, Antony J. Cutler, Daniel J. M. Crouch, Emily Farber, S. Louis Bridges, Jeffrey C. Edberg, Robert P. Kimberly, Jane H. Buckner, Panos Deloukas, Jasmin Divers, Dana Dabelea, Jean M. Lawrence, Santica M. Marcovina, Amy S. Shah, Carla J. Greenbaum, Mark A. Atkinson, Peter K. Gregersen, Jorge R. Oksenberg, Flemming Pociot, Marian Rewers, Andrea K. Steck, David B. Dunger, Linda S. Wicker, Patrick Concannon, John A. Todd, Stephen S. Rich

2021Nature Genetics298 citationsDOI

Topics & Concepts

BiologyChromatinGeneticsQuantitative trait locusGeneComputational biologyGenome-wide association studyEpigenomicsEnhancerEffectorGenomeImmune systemGene expressionSingle-nucleotide polymorphismDNA methylationImmunologyGenotypeDiabetes and associated disordersImmune Cell Function and InteractionT-cell and B-cell Immunology
Fine-mapping, trans-ancestral and genomic analyses identify causal variants, cells, genes and drug targets for type 1 diabetes | Litcius