about
Post-transcriptional regulation of Transforming Growth Factor Beta-1 by microRNA-744A conserved stem loop motif in the 5'untranslated region regulates transforming growth factor-β(1) translation.Loss of MicroRNA-192 promotes fibrogenesis in diabetic nephropathyLong-term exposure of proximal tubular epithelial cells to glucose induces transforming growth factor-beta 1 synthesis via an autocrine PDGF loop.SMAD7: at the interface of TGF-beta and proinflammatory signaling.Unconventional Human T Cells Accumulate at the Site of Infection in Response to Microbial Ligands and Induce Local Tissue Remodeling.Distinct bone marrow-derived and tissue-resident macrophage lineages proliferate at key stages during inflammation.Pleiotropy of microRNA-192 in the kidney.MicroRNAs, transforming growth factor beta-1, and tissue fibrosis.Interleukin-6 in renal disease and therapy.Acute kidney injury: a paradigm for miRNA regulation of the cell cycle.Hyaluronan attenuates transforming growth factor-beta1-mediated signaling in renal proximal tubular epithelial cells.Bone morphogenetic protein-7 inhibits proximal tubular epithelial cell Smad3 signaling via increased SnoN expression.ERK, p38, and Smad signaling pathways differentially regulate transforming growth factor-beta1 autoinduction in proximal tubular epithelial cells.Peritoneal Dialysis Fluid and Some of Its Components Potentiate Fibrocyte Differentiation.BMP-6 emerges as a potential major regulator of fibrosis in the kidneyThe transcription factor Gata6 links tissue macrophage phenotype and proliferative renewal.An unexpected and serious complication of treatment with the atypical antipsychotic drug clozapine.Peritoneal fibrosis is mouse strain dependent.miR-192 induces G2/M growth arrest in aristolochic acid nephropathy.A quantifiable proliferative burst of tissue macrophages restores homeostatic macrophage populations after acute inflammation.BMP-7 stops TGF-{beta} in peritoneal fibrosisTransforming growth factor β1 represses proximal tubular cell microRNA-192 expression through decreased hepatocyte nuclear factor DNA bindingAltering peritoneal membrane function: removing the GAG?
P50
Q21135019-17F7AB21-B7C6-49AF-88FC-B5FA4B6AC2B4Q33701542-85ADCDF5-211D-4CD2-BA4C-455FF291D3E1Q33702426-FE863844-C3C7-45D3-9280-77F032953E74Q35843226-E1A94163-9F4E-4027-B7BE-63FEF89C5B6BQ36912620-632C5503-FF8E-404D-86E9-AF114619D3A4Q37229095-25BE8BB8-1548-4C19-8AC0-6A64AD74143CQ37346583-6EB06030-04DF-40E9-BBAF-8BE21304A967Q38027952-3B8B55AD-5285-4018-A123-50D5BE8EE360Q38050081-8A57485E-4A01-4EE9-B00F-54B3C8E6150AQ38228079-2B3CD28B-06D9-40B8-8CC9-36761ACB5B68Q38238683-CFE40443-C8E7-4E02-B22D-AD4E1BA9A197Q38736931-5F71CD6B-4E04-4333-9C37-A8D9F7C07AE5Q39402781-303E1279-8DB7-44DB-B011-776E04C91AD4Q41091738-5F25C8BF-AE11-46BE-AD2D-8919A5E35244Q42430642-83927A5E-D796-4ECE-B7A2-B5313237E209Q42709318-34304ADB-369D-4F01-9AD6-526CD9C700E9Q42744709-62346136-6BB7-4EE5-909C-DCF122524C18Q43506058-3CC8B536-6D9E-43C8-A7A9-710A8E9B85C4Q44914519-A3E73764-A35F-4AB4-B618-D637C9E3A5D8Q45841408-947B210A-2D53-4DE0-8111-20A108664D35Q53237419-1B24928F-FA12-4D8D-8A77-0E099CDF6AABQ82892210-DC4939C2-BC9E-41C8-92C3-E4EEB958A8E6Q83293891-E19AF6E6-05F3-4455-BFA2-77313DAD43DAQ84734233-C12217E9-76D9-4AF1-B973-CB27C27E6CD5
P50
description
researcher, ORCID id # 0000-0003-0102-9342
@en
wetenschapper
@nl
name
Donald J Fraser
@ast
Donald J Fraser
@en
Donald J Fraser
@es
Donald J Fraser
@nl
type
label
Donald J Fraser
@ast
Donald J Fraser
@en
Donald J Fraser
@es
Donald J Fraser
@nl
prefLabel
Donald J Fraser
@ast
Donald J Fraser
@en
Donald J Fraser
@es
Donald J Fraser
@nl
P106
P31
P496
0000-0003-0102-9342