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The structure of apolipoprotein A-II in discoidal high density lipoproteinsApolipoprotein A-IV inhibits experimental colitisApolipoprotein A-IV reduces hepatic gluconeogenesis through nuclear receptor NR1D1Specific sequences in the N and C termini of apolipoprotein A-IV modulate its conformation and lipid associationInteraction of ApoA-IV with NR4A1 and NR1D1 Represses G6Pase and PEPCK Transcription: Nuclear Receptor-Mediated Downregulation of Hepatic Gluconeogenesis in Mice and a Human Hepatocyte Cell LineApolipoprotein A-I alpha -helices 7 and 8 modulate high density lipoprotein subclass distributionStabilization of alpha-synuclein secondary structure upon binding to synthetic membranesA three-dimensional molecular model of lipid-free apolipoprotein A-I determined by cross-linking/mass spectrometry and sequence threading.The structure of human apolipoprotein A-IV as revealed by stable isotope-assisted cross-linking, molecular dynamics, and small angle x-ray scattering.A proteolytic method for distinguishing between lipid-free and lipid-bound apolipoprotein A-I.High-Density Lipoprotein Proteomics: Identifying New Drug Targets and Biomarkers by Understanding Functionality.Estradiol increases the anorectic effect of central apolipoprotein A-IV.High density lipoprotein: it's not just about lipid transport anymoreAn amphipathic helical region of the N-terminal barrel of phospholipid transfer protein is critical for ABCA1-dependent cholesterol efflux.Hepatic deficiency of low density lipoprotein receptor-related protein-1 reduces high density lipoprotein secretion and plasma levels in miceApolipoprotein A-I structural organization in high-density lipoproteins isolated from human plasma.Melanocortin signaling in the CNS directly regulates circulating cholesterol.Role of Conserved Proline Residues in Human Apolipoprotein A-IV Structure and Function.The role of apolipoprotein AI domains in lipid bindingA comparison of the mouse and human lipoproteome: suitability of the mouse model for studies of human lipoproteinsA Comparison of Methods To Enhance Protein Detection of Lipoproteins by Mass SpectrometrySmall-angle X-ray scattering of apolipoprotein A-IV reveals the importance of its termini for structural stability.Red Blood Cell Dysfunction Induced by High-Fat Diet: Potential Implications for Obesity-Related Atherosclerosis.An Evaluation of the Crystal Structure of C-terminal Truncated Apolipoprotein A-I in Solution Reveals Structural Dynamics Related to Lipid Binding.Secreted progranulin is a homodimer and is not a component of high density lipoproteins (HDL)A three-dimensional homology model of lipid-free apolipoprotein A-IV using cross-linking and mass spectrometry.The effects of apolipoprotein B depletion on HDL subspecies composition and functionThe structure of apolipoprotein A-I in high density lipoproteins.Superiority of lipoprotein particle number to detect associations with arterial thickness and stiffness in obese youth with and without prediabetes.Asymmetry in the lipid affinity of bihelical amphipathic peptides. A structural determinant for the specificity of ABCA1-dependent cholesterol efflux by peptides.The effects of type 2 diabetes on lipoprotein composition and arterial stiffness in male youthEffect of intraperitoneal and intravenous administration of cholecystokinin-8 and apolipoprotein AIV on intestinal lymphatic CCK-8 and apo AIV concentration.Proteomic diversity of high density lipoproteins: our emerging understanding of its importance in lipid transport and beyondMulti-dimensional co-separation analysis reveals protein-protein interactions defining plasma lipoprotein subspecies.An analysis of the role of a retroendocytosis pathway in ABCA1-mediated cholesterol efflux from macrophages.ApoA-I induced CD31 in bone marrow-derived vascular progenitor cells increases adhesion: implications for vascular repair.Apolipoprotein A-I and Paraoxonase-1 Are Potential Blood Biomarkers for Ischemic Stroke Diagnosis.Weight loss surgery in adolescents corrects high-density lipoprotein subspecies and their function.Intraperitoneal CCK and fourth-intraventricular Apo AIV require both peripheral and NTS CCK1R to reduce food intake in male ratsCNS regulation of plasma cholesterol.
P50
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P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
William S Davidson
@ast
William S Davidson
@en
William S Davidson
@es
William S Davidson
@nl
type
label
William S Davidson
@ast
William S Davidson
@en
William S Davidson
@es
William S Davidson
@nl
prefLabel
William S Davidson
@ast
William S Davidson
@en
William S Davidson
@es
William S Davidson
@nl
P106
P31
P496
0000-0003-2756-2989