Platelet function is modified by common sequence variation in megakaryocyte super enhancers.

Authors :: Petersen R
Lambourne JJ
Javierre BM
Grassi L
Kreuzhuber R
Ruklisa D
Rosa IM
Tomé AR
Elding H
van Geffen JP
Jiang T
Farrow S
Cairns J
Al-Subaie AM
Ashford S
Attwood A
Batista J
Bouman H
Burden F
Choudry FA
Clarke L
Flicek P
Garner SF
Haimel M
Kempster C
Ladopoulos V
Lenaerts AS
Materek PM
McKinney H
Meacham S
Mead D
Nagy M
Penkett CJ
Rendon A
Seyres D
Sun B
Tuna S
van der Weide ME
Wingett SW
Martens JH
Stegle O
Richardson S
Vallier L
Roberts DJ
Freson K
Wernisch L
Stunnenberg HG
Danesh J
Fraser P
Soranzo N
Butterworth AS
Heemskerk JW
Turro E
Spivakov M
Ouwehand WH
Astle WJ
Downes K
Kostadima M
Frontini M
Source :: Nature communications [Nat Commun] 2017 Jul 13; Vol. 8, pp. 16058. Date of Electronic Publication: 2017 Jul 13.
Publication Year :: 2017
Abstract: Linking non-coding genetic variants associated with the risk of diseases or disease-relevant traits to target genes is a crucial step to realize GWAS potential in the introduction of precision medicine. Here we set out to determine the mechanisms underpinning variant association with platelet quantitative traits using cell type-matched epigenomic data and promoter long-range interactions. We identify potential regulatory functions for 423 of 565 (75%) non-coding variants associated with platelet traits and we demonstrate, through ex vivo and proof of principle genome editing validation, that variants in super enhancers play an important role in controlling archetypical platelet functions.

Subjects :: Chromatin
Humans
Promoter Regions, Genetic
Blood Platelets physiology
Enhancer Elements, Genetic
Erythroblasts chemistry
Genetic Variation
Megakaryocytes chemistry

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