about
MicroRNAs in platelet production and activationPlatelet microRNA-mRNA coexpression profiles correlate with platelet reactivity.Human platelet microRNA-mRNA networks associated with age and gender revealed by integrated plateletomics.Anti-miR-148a regulates platelet FcγRIIA signaling and decreases thrombosis in vivo in mice.TULA-2 (T-Cell Ubiquitin Ligand-2) Inhibits the Platelet Fc Receptor for IgG IIA (FcγRIIA) Signaling Pathway and Heparin-Induced Thrombocytopenia in Mice.Chromatin modification and the endothelial-specific activation of the E-selectin gene.Mechanism of race-dependent platelet activation through the protease-activated receptor-4 and Gq signaling axis.Common variants in the human platelet PAR4 thrombin receptor alter platelet function and differ by raceNF-kappa B-dependent assembly of an enhanceosome-like complex on the promoter region of apoptosis inhibitor Bfl-1/A1High-throughput screening uncovers a compound that activates latent HIV-1 and acts cooperatively with a histone deacetylase (HDAC) inhibitor.MicroRNA expression differences in human hematopoietic cell lineages enable regulated transgene expression.Human genome-wide association and mouse knockout approaches identify platelet supervillin as an inhibitor of thrombus formation under shear stressIntegrative Multi-omic Analysis of Human Platelet eQTLs Reveals Alternative Start Site in Mitofusin 2.Nuclear factor kappa B-dependent activation of the antiapoptotic bfl-1 gene by the Epstein-Barr virus latent membrane protein 1 and activated CD40 receptor.The human platelet: strong transcriptome correlations among individuals associate weakly with the platelet proteome.Small RNAs as potential platelet therapeutics.MicroRNAs in platelet production and activation.MicroRNAs in Platelet Physiology and Function.The role of platelet microvesicles in intercellular communication.Platelet microparticles infiltrating solid tumors transfer miRNAs that suppress tumor growth.Identification of a functional genetic variant driving racially dimorphic platelet gene expression of the thrombin receptor regulator, PCTP.The Protease-Activated Receptor 4 Ala120Thr Variant Alters Platelet Responsiveness to Low-Dose Thrombin, Protease-Activated Receptor 4 Desensitization and Is Blocked by Noncompetitive P2Y InhibitionGenetic Variant in Human PAR (Protease-Activated Receptor) 4 Enhances Thrombus Formation Resulting in Resistance to Antiplatelet TherapeuticsDesign tools for MPRA experimentsEffects of genetic variation in protease activated receptor 4 after an acute coronary syndrome: Analysis from the TRACER trialmiR-15a-5p regulates expression of multiple proteins in the megakaryocyte GPVI signaling pathwayIdentification of the Regulatory Elements and Target Genes of Megakaryopoietic Transcription Factor MEF2CFunctionalization of CD36 cardiovascular disease and expression associated variants by interdisciplinary high throughput analysisHorizontal RNA transfer goes deep: platelet consumption and microRNA utilization by vascular smooth muscle cells
P50
Q24622537-9FF1623B-9C4C-4DA7-B142-7B196947AC6EQ30500885-BED86F90-86C2-4DA2-8EC0-FE212169257BQ30576348-9AE35505-E17C-4151-A18C-19D69CCFB8A6Q33427174-0B4CA2C4-E558-4C21-852E-8E2037FBD506Q33436179-01E849CF-840F-42A2-94AF-EE0829E367F1Q34406082-8533A315-A112-48FC-B681-917C86334617Q34550588-8BC52423-9F26-4F69-8CAF-5EFCD691AB1CQ34580117-52122318-C8B6-4027-B9EC-2875FD83EE3DQ34888292-73A3BFA4-4085-46C6-919A-E06C4486B0F8Q35065109-D398E168-50F8-4D4E-B958-1A6F669890D1Q35207667-9C5424F0-4E33-4EE8-95BA-0D443F0AC045Q36449448-7DEAF06B-341B-4CF1-8A17-D59344EC689FQ36891131-0577E0D4-97AF-4FD8-B370-03CA89E24B60Q36961875-7BB77F23-F431-40C2-A709-0FB49366B57CQ37607420-3854EA44-CC92-4D7E-8642-F1BB25808A09Q38037413-81E4A4F7-2676-4747-8545-3CD77FFA2CA4Q38117746-5A9323AF-0024-4B64-97D0-969446143261Q38764229-E2A0C22D-E99C-42A7-AFD2-4FEFA392197BQ39032612-F0988042-8BCA-448F-A97B-34D9C10786B9Q46366691-55329F58-41AD-4E52-9F8E-1B7E428937A5Q51115896-1B618D9F-BAA6-4077-959D-67D1FE6D16A7Q57804232-EE3D8B7A-AE75-444B-BA6E-998A605D5810Q88633436-8BAF0AD8-3E5C-4C94-8621-C3A242EE34C0Q90569777-10D15F74-2117-46D3-A335-B70475CB8E83Q90589919-6FD6D1E7-306D-4DD5-98D4-364932AE67A6Q90994979-EA34ECAE-2EBC-49FE-9EA7-E7B751EB8543Q91401277-0E11B2E1-0404-447D-984A-68840B7BB9F1Q92172420-8099B3FA-DB69-4AA2-9854-275DE0D73999Q93142126-9CAD1CFD-4F16-457D-A959-C14CF7C0ED20
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Leonard C. Edelstein
@ast
Leonard C. Edelstein
@en
Leonard C. Edelstein
@es
Leonard C. Edelstein
@nl
Leonard C. Edelstein
@sl
type
label
Leonard C. Edelstein
@ast
Leonard C. Edelstein
@en
Leonard C. Edelstein
@es
Leonard C. Edelstein
@nl
Leonard C. Edelstein
@sl
prefLabel
Leonard C. Edelstein
@ast
Leonard C. Edelstein
@en
Leonard C. Edelstein
@es
Leonard C. Edelstein
@nl
Leonard C. Edelstein
@sl
P108
P106
P1153
7003983585
P21
P31
P496
0000-0002-8976-6410