about
Structural Insights into High Density Lipoprotein: Old Models and New FactsNew insights into the determination of HDL structure by apolipoproteins: Thematic review series: high density lipoprotein structure, function, and metabolismSequence conservation of apolipoprotein A-I affords novel insights into HDL structure-functionA model of lipid-free apolipoprotein A-I revealed by iterative molecular dynamics simulationCoarse-Grained Conformational Sampling of Protein Structure Improves the Fit to Experimental Hydrogen-Exchange Data.Congruency between biophysical data from multiple platforms and molecular dynamics simulation of the double-super helix model of nascent high-density lipoprotein.Site-specific nitration of apolipoprotein A-I at tyrosine 166 is both abundant within human atherosclerotic plaque and dysfunctional.Structures of discoidal high density lipoproteins: a combined computational-experimental approachComplexes between photoactivated rhodopsin and transducin: progress and questions.Elliptical structure of phospholipid bilayer nanodiscs encapsulated by scaffold proteins: casting the roles of the lipids and the proteinConformation of dimeric apolipoprotein A-I milano on recombinant lipoprotein particles.Novel N-terminal mutation of human apolipoprotein A-I reduces self-association and impairs LCAT activationMorphology and structure of lipoproteins revealed by an optimized negative-staining protocol of electron microscopy.Assessment of the validity of the double superhelix model for reconstituted high density lipoproteins: a combined computational-experimental approach.Structure of apolipoprotein A-I N terminus on nascent high density lipoproteins.The low resolution structure of ApoA1 in spherical high density lipoprotein revealed by small angle neutron scattering.Atomistic MD simulation reveals the mechanism by which CETP penetrates into HDL enabling lipid transfer from HDL to CETPApolipoprotein A-I structural organization in high-density lipoproteins isolated from human plasma."Sticky" and "promiscuous", the yin and yang of apolipoprotein A-I termini in discoidal high-density lipoproteins: a combined computational-experimental approach.Conformational transitions in the membrane scaffold protein of phospholipid bilayer nanodiscsRole of Conserved Proline Residues in Human Apolipoprotein A-IV Structure and Function.Apolipoprotein A-II-mediated conformational changes of apolipoprotein A-I in discoidal high density lipoproteins.Small-angle X-ray scattering of the cholesterol incorporation into human ApoA1-POPC discoidal particlesIdentification of Critical Paraoxonase 1 Residues Involved in High Density Lipoprotein InteractionDirect Measurement of the Structure of Reconstituted High-Density Lipoproteins by Cryo-EM.The low-resolution structure of nHDL reconstituted with DMPC with and without cholesterol reveals a mechanism for particle expansion.A Systematic Investigation of Structure/Function Requirements for the Apolipoprotein A-I/Lecithin Cholesterol Acyltransferase Interaction Loop of High-density Lipoprotein.Rotational and hinge dynamics of discoidal high density lipoproteins probed by interchain disulfide bond formationThree-dimensional structure of Bax-mediated pores in membrane bilayers.Myeloperoxidase, paraoxonase-1, and HDL form a functional ternary complexNative and Reconstituted Plasma Lipoproteins in Nanomedicine: Physicochemical Determinants of Nanoparticle Structure, Stability, and Metabolism.Function and distribution of apolipoprotein A1 in the artery wall are markedly distinct from those in plasmaAn abundant dysfunctional apolipoprotein A1 in human atheroma.Unreported intrinsic disorder in proteins: Building connections to the literature on IDPs.High-density lipoproteins and cardiovascular disease: 2010 update.Nanobiotechnology applications of reconstituted high density lipoprotein.HDL and cardiovascular disease: atherogenic and atheroprotective mechanisms.Evolving concepts of the role of high-density lipoprotein in protection from atherosclerosis.Lipid simulations: a perspective on lipids in action.Genetics of cholesterol efflux.
P2860
Q26770434-F4135710-92AD-4BFB-9E1A-4675CE234536Q26851804-A1C63486-9968-43EC-8E61-3F5704F98684Q27690671-DAB2D98F-7A35-4734-A7AB-55ED9E1B4912Q28544802-414868CE-B874-4141-BB8D-42F6C91FE3F9Q30400360-B018003A-342C-4E77-A89C-94BB68BB6516Q33650108-11D77E59-3C36-4359-9B5B-67C30D0972EBQ33675617-2CABA824-8ADF-4707-B1E1-9F4D0A54775DQ33717557-316D6EFF-60E3-4F26-B0D4-23074A14789FQ33873779-A42511CE-C000-4FEE-8F38-D2FB52BFF22FQ33997831-70CF41C6-3067-49E5-BC56-24D2155F5833Q34160333-1AD6977E-78B2-4962-9AFA-C9C84D6EDC4CQ34395097-88522B7A-2E8F-467C-AFC7-AD6F33E5DC02Q34395191-3D4986DC-D5DE-469C-9B9B-814A3DBE9DDDQ34412842-B7E9644E-4AEC-42DB-BBAA-25B5B0AB48C3Q34509546-1C102BCC-0D5F-4775-A48A-A153D28EE262Q34752390-448BEB7D-41E9-468D-9F05-5EB25E4DE436Q34757508-1E01516A-06A1-4C72-AA2D-A91E2D1DEEE0Q34814166-73758CD4-BF27-4E36-8AC7-046365C39B0FQ35057765-A6A6CC5F-3DD1-49AB-832D-E66B9D99CDBFQ35264725-BE7C1482-B31B-46E2-8814-81133F47BFCBQ35536230-A53A60C0-7CCD-436E-ABE3-B2BAE7EBD8DFQ35802050-15BF24D5-93D7-404B-9347-2307235E5CD4Q36210669-C901A2F9-C4C5-4D35-8D8F-3D32BF159805Q36489313-C68D66F6-5BEA-4E43-9AD9-B9D1D4B109EBQ36644225-92C840CD-6DEA-4C07-AA12-DCF325442C66Q36709650-F9789C97-AC1E-4006-9207-4C4FE0037D95Q36744820-21167B23-B300-412A-B2E1-02DEE3C258A0Q36883660-27735ED5-8ED2-4F45-A1FF-DE291C1F3D19Q36985116-9992E5A9-CEB0-4765-A589-DE1F3ABA5EBEQ37123887-4B307FA0-C8DD-448F-AC0A-813D1C9E1D85Q37397956-2E7EC26C-8F8B-4169-B9F0-CC134059B22AQ37441776-E6BF8753-CDB7-4FCD-B662-0EA0976345ABQ37581580-CB9DB88B-2CCB-475F-AF61-D7013FF9F205Q37649607-0A2EFE95-DF13-45D6-AFFD-3935339352E6Q37707412-EBB6CB3F-B4EF-4B45-85B2-5A6CBE685568Q37814488-B1767CCD-F3CE-4F6C-8E66-9ECEFDD8B405Q37838234-373986CB-8E09-4FD8-BF61-59282BB83F16Q37850385-833CB056-822F-483B-8643-B3A73518F153Q37858333-6FE6A592-2445-48C3-A0D7-7D4D3245825DQ38005009-87429A66-F4B1-42A6-937D-EC819B4087E8
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Double Superhelix Model of High Density Lipoprotein
@ast
Double Superhelix Model of High Density Lipoprotein
@en
Double Superhelix Model of High Density Lipoprotein
@nl
type
label
Double Superhelix Model of High Density Lipoprotein
@ast
Double Superhelix Model of High Density Lipoprotein
@en
Double Superhelix Model of High Density Lipoprotein
@nl
prefLabel
Double Superhelix Model of High Density Lipoprotein
@ast
Double Superhelix Model of High Density Lipoprotein
@en
Double Superhelix Model of High Density Lipoprotein
@nl
P2093
P2860
P356
P1476
Double Superhelix Model of High Density Lipoprotein
@en
P2093
Arundhati Undurti
Giuseppe Zaccai
Irina Gutsche
Joseph A Didonato
Martine Moulin
Matthew A Wagner
Michael Haertlein
Roland P May
Stanley L Hazen
Valentin Gogonea
P2860
P304
P356
10.1074/JBC.M109.039537
P407
P577
2009-12-25T00:00:00Z