Identification of the proteoglycan binding site in apolipoprotein B48.
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Glycation of LDL by methylglyoxal increases arterial atherogenicity: a possible contributor to increased risk of cardiovascular disease in diabetesMolecular processes that handle -- and mishandle -- dietary lipidsTriglyceride-Rich Lipoproteins and Remnants: Targets for Therapy?Immuno-electron cryo-microscopy imaging reveals a looped topology of apoB at the surface of human LDLHeparan sulfate 2-O-sulfotransferase is required for triglyceride-rich lipoprotein clearanceA murine model of obesity with accelerated atherosclerosis.Nonsynonymous mutations within APOB in human familial hypobetalipoproteinemia: evidence for feedback inhibition of lipogenesis and postendoplasmic reticulum degradation of apolipoprotein BAbnormal post-translational and extracellular processing of brevican in plaque-bearing mice over-expressing APPsw.Assembly of lipoprotein particles containing apolipoprotein-B: structural model for the nascent lipoprotein particleThe glycosylation-dependent interaction of perlecan core protein with LDL: implications for atherosclerosis.The small leucine-rich repeat proteoglycans in tissue repair and atherosclerosisMonogenic hypocholesterolaemic lipid disorders and apolipoprotein B metabolism.Apolipoproteins E and AV mediate lipoprotein clearance by hepatic proteoglycansMultiple Growth Factors, But Not VEGF, Stimulate Glycosaminoglycan Hyperelongation in Retinal Choroidal Endothelial Cells.Human autopsy study of drug-eluting stents restenosis: histomorphological predictors and neointimal characteristics.Heparan sulfate in perlecan promotes mouse atherosclerosis: roles in lipid permeability, lipid retention, and smooth muscle cell proliferation.Acidification of the intimal fluid: the perfect storm for atherogenesisAtherosclerotic cardiovascular disease: a review of initiators and protective factors.Do the Apoe-/- and Ldlr-/- Mice Yield the Same Insight on Atherogenesis?Targeting microsomal triglyceride transfer protein and lipoprotein assembly to treat homozygous familial hypercholesterolemia.Immunochemical analysis of the electronegative LDL subfraction shows that abnormal N-terminal apolipoprotein B conformation is involved in increased binding to proteoglycans.A low-protein diet exacerbates postprandial chylomicron concentration in moderately dyslipidaemic subjects in comparison to a lean red meat protein-enriched diet.Angiotensin II increases vascular proteoglycan content preceding and contributing to atherosclerosis development.Suppression of Hepatic FLOT1 (Flotillin-1) by Type 2 Diabetes Mellitus Impairs the Disposal of Remnant Lipoproteins via Syndecan-1.LDL Receptor Gene-Ablated Hamsters: A Rodent Model of Familial Hypercholesterolemia with Dominant Inheritance and Diet-Induced Coronary Atherosclerosis.Fasting APO B48 levels are associated with microalbuminuria in patients with type 2 diabetes.
P2860
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P2860
Identification of the proteoglycan binding site in apolipoprotein B48.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
2002年论文
@zh
2002年论文
@zh-cn
name
Identification of the proteoglycan binding site in apolipoprotein B48.
@en
type
label
Identification of the proteoglycan binding site in apolipoprotein B48.
@en
prefLabel
Identification of the proteoglycan binding site in apolipoprotein B48.
@en
P2093
P2860
P356
P1476
Identification of the proteoglycan binding site in apolipoprotein B48.
@en
P2093
Christofer Flood
Jere P Segrest
Maria Gustafsson
Paul E Richardson
Stephen C Harvey
P2860
P304
32228-32233
P356
10.1074/JBC.M204053200
P407
P50
P577
2002-06-17T00:00:00Z