about
Biomimetic design of platelet adhesion inhibitors to block integrin α2β1-collagen interactions: II. Inhibitor library, screening, and experimental validation.Biomimetic design of affinity peptide ligand for capsomere of virus-like particle.Energetic changes caused by antigenic module insertion in a virus-like particle revealed by experiment and molecular dynamics simulations.Brazilin inhibits amyloid β-protein fibrillogenesis, remodels amyloid fibrils and reduces amyloid cytotoxicity.Targeted biopharmaceuticals for cancer treatment.Protein behavior at surfaces: orientation, conformational transitions and transport.Biomolecular engineering of virus-like particles aided by computational chemistry methods.Synergistic effects of negatively charged hydrophobic nanoparticles and (-)-epigallocatechin-3-gallate on inhibiting amyloid β-protein aggregation.Multifunctionality of Acidulated Serum Albumin on Inhibiting Zn²⁺-Mediated Amyloid β-Protein Fibrillogenesis and Cytotoxicity.Design of LVFFARK and LVFFARK-functionalized nanoparticles for inhibiting amyloid β-protein fibrillation and cytotoxicity.HP-β-cyclodextrin as an inhibitor of amyloid-β aggregation and toxicity.Brazilin Inhibits Prostatic Acidic Phosphatase Fibrillogenesis and Decreases its Cytotoxicity.Optimization of lipase-catalyzed enantioselective esterification of (±)-menthol in ionic liquid.Protein adsorption to poly(ethylenimine)-modified Sepharose FF: II. effect of ionic strength.A double-modification strategy for enhancing charge density of mono-sized beads for facilitated refolding of like-charged protein.Molecular insight into conformational transmission of human P-glycoprotein.A novel nickel-chelated surfactant for affinity-based aqueous two-phase micellar extraction of histidine-rich protein.Iminodiacetic Acid-Modified Human Serum Albumin: A Multifunctional Agent against Metal-Associated Amyloid β-Protein Aggregation and Cytotoxicity.Interactions between L-arginine/L-arginine derivatives and lysozyme and implications to their inhibition effects on protein aggregation.Iminodiacetic acid-conjugated nanoparticles as a bifunctional modulator against Zn2+-mediated amyloid β-protein aggregation and cytotoxicity.Modulation effect of acidulated human serum albumin on Cu2+-mediated amyloid β-protein aggregation and cytotoxicity under a mildly acidic condition.Design of a Molecular Hybrid of Dual Peptide Inhibitors Coupled on AuNPs for Enhanced Inhibition of Amyloid β-Protein Aggregation and Cytotoxicity.Design of nonapeptide LVFFARKHH: A bifunctional agent against Cu2+ -mediated amyloid β-protein aggregation and cytotoxicity.Purification of supercoiled plasmid DNA from clarified bacterial lysate by arginine-affinity chromatography: effects of spacer arms and ligand density.Protein adsorption to poly(ethylenimine)-modified Sepharose FF: I. a critical ionic capacity for drastically enhanced capacity and uptake kinetics.Membrane Interactions of hIAPP Monomer and Oligomer with Lipid Membranes by Molecular Dynamics Simulations.Kinetic Insights into Zn2+-Induced Amyloid β-Protein Aggregation Revealed by Stopped-Flow Fluorescence Spectroscopy.para-Sulfonatocalix[n]arenes Inhibit Amyloid β-Peptide Fibrillation and Reduce Amyloid Cytotoxicity.Ac-LVFFARK-NH2 conjugation to β-cyclodextrin exhibits significantly enhanced performance on inhibiting amyloid β-protein fibrillogenesis and cytotoxicity.Molecular Simulation Aspects of Amyloid Peptides at Membrane Interface.RTHLVFFARK-NH2: A potent and selective modulator on Cu2+-mediated amyloid-β protein aggregation and cytotoxicity.Grafting iminodiacetic acid on silica nanoparticles for facilitated refolding of like-charged protein and its metal-chelate affinity purification.Sequential tentacle grafting and charge modification for enhancing charge density of mono-sized beads for facilitated protein refolding and purification from inclusion bodies.Integrative refolding and purification of histidine-tagged protein by like-charge facilitated refolding and metal-chelate affinity adsorption.Fabrication of Surface Protein-Imprinted Nanoparticles Using a Metal Chelating Monomer via Aqueous Precipitation Polymerization.Enhanced protein adsorption and facilitated refolding of like-charged protein with highly charged silica nanoparticles fabricated by sequential double modifications.Dual-ligand affinity systems with octapeptide ligands for affinity chromatography of hIgG and monoclonal antibody.Coating of nanoparticles on cryogel surface and subsequent double-modification for enhanced ion-exchange capacity of protein.Octapeptide-based affinity chromatography of human immunoglobulin G: comparisons of three different ligands.Characterization of poly(allylamine) as a polymeric ligand for ion-exchange protein chromatography.
P50
Q35139000-42D7241D-B001-4EC4-B033-6134E63DA405Q35197306-0309D6A6-D717-4029-934A-29A19E721C51Q35250141-B7365029-69AE-4925-86C0-C91D0630D9DAQ35547479-26836798-E268-4C52-B513-AF37850671C4Q38228647-DD33A5E3-410A-4DB7-813D-8532364139D3Q38324193-734C8E99-C7B2-43C2-A423-09F6C6A4358DQ38588882-BF7D469C-021D-4933-BDA6-A856AE6C6C6BQ38723138-5A5E9CEB-4F6F-46DD-BBB3-26217B680480Q38864598-E90E564C-A30B-4603-A884-3A71E5B60F46Q38907816-B958B266-D08B-4C70-8101-CA50B25452F4Q39609556-C4310971-CC01-4AE1-956E-25BADF256374Q40288210-D679A0CE-565B-4961-8A87-2F2BAE4DD94FQ40858581-D0221C43-4663-41B6-BF11-2EA0E95AE45EQ43423936-8488F46F-CDB0-4993-9A9D-67F28C403663Q44290526-4E234848-95C4-43F2-89F9-7199EAF96480Q44488182-1A24F6D2-468A-45B4-AF98-142E679EF5CBQ44584302-E6195A7D-B793-4FE7-B4DF-FA20675B33B1Q46327257-25E7B49A-6E63-49D7-90C3-B6F8ED1E917DQ46337436-437944B8-D724-4305-893A-AE11FE151AFBQ46338126-EB8108D1-636C-4612-8017-8DC907511FE8Q46391035-4FCD384D-2B60-4FF2-A83C-B85082B2F02BQ46429161-533556E6-139E-4FFC-B9DC-D9AE11F9A5ABQ47214921-E5612EB3-2F7B-4783-973E-EB39D4A2D2A0Q47890332-047594C0-8501-4F77-98D9-6CC568FB4948Q47957852-C0F51C1F-A97A-461A-AB4F-3641CCF22EFEQ48015718-35D9F81C-C71E-492F-B21F-33AF9EFF9C5AQ48318440-2264EB5C-54AE-48C2-A926-E7C8B05AA355Q48915639-49622BE0-A24F-4C21-82D3-BBF5FE5AB6AFQ49916748-61FA8ADF-3300-40C3-ABCC-91ED9FD11302Q50110702-62E6ADDE-20C6-452B-A85E-39F23264E800Q50171885-98DFFC47-0707-4798-9E05-4BBB07BF926AQ50235413-C8E8CFC0-3558-4DB8-A4C6-250974C416C9Q50456870-0D59952A-90C9-4FDD-A772-AC9175F755ACQ50457200-FBC2E23A-FB08-4B2F-B000-03A2284D1749Q50910427-4D4A40C0-6250-421C-A129-14EDE8093645Q51020038-0583AEE8-9EDA-4187-88B7-1138377127D2Q51031203-C1392FC8-52A3-4710-9F77-0AD75A4509F0Q51065552-8D3861EB-BCC7-4170-A114-1DDF8C20CF96Q51066125-1639024A-9330-4F2E-89DB-40C587AC236CQ51099610-5ED14CAA-B2B8-4F60-9AEF-8D8519E78B62
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Yan Sun
@ast
Yan Sun
@en
Yan Sun
@es
Yan Sun
@nl
Yan Sun
@sl
type
label
Yan Sun
@ast
Yan Sun
@en
Yan Sun
@es
Yan Sun
@nl
Yan Sun
@sl
prefLabel
Yan Sun
@ast
Yan Sun
@en
Yan Sun
@es
Yan Sun
@nl
Yan Sun
@sl
P106
P21
P214
2252149068526665730005
P31
P496
0000-0001-5256-9571
P569
2000-01-01T00:00:00Z
P735
P7859
viaf-2252149068526665730005