Orally administrated cinnamon extract reduces β-amyloid oligomerization and corrects cognitive impairment in Alzheimer's disease animal modelsFormation of bacterial pilus-like nanofibres by designed minimalistic self-assembling peptides.Single cell imaging and quantification of TDP-43 and α-synuclein intercellular propagation.Multiporous Supramolecular Microspheres for Artificial PhotosynthesisCathepsin nanofiber substrates as potential agents for targeted drug delivery.Diphenylalanine as a Reductionist Model for the Mechanistic Characterization of β-Amyloid Modulators.Inhibition of amyloid oligomerization into different supramolecular architectures by small molecules: mechanistic insights and design rules.Altered protein glycosylation predicts Alzheimer's disease and modulates its pathology in disease model Drosophila.Disruption of diphenylalanine assembly by a Boc-modified variant.Molecular self-assembly using peptide nucleic acids.Cl-NQTrp Alleviates Tauopathy Symptoms in a Model Organism through the Inhibition of Tau Aggregation-Engendered Toxicity.Interplay between protein glycosylation pathways in Alzheimer's disease.Self-assembling peptide semiconductors.Seeding of proteins into amyloid structures by metabolite assemblies may clarify certain unexplained epidemiological associations.Minimalistic peptide supramolecular co-assembly: expanding the conformational space for nanotechnology.Mechanistic perspective and functional activity of insulin in amylin aggregation.Bioinspired Stable and Photoluminescent Assemblies for Power GenerationA Self-Healing, All-Organic, Conducting, Composite Peptide Hydrogel as Pressure Sensor and Electrogenic Cell Soft SubstrateOrganization of Amino Acids into Layered Supramolecular Secondary StructuresElectrical Conductivity, Selective Adhesion, and Biocompatibility in Bacteria-Inspired Peptide-Metal Self-Supporting NanocompositesGo with the Flow-Microfluidics Approaches for Amyloid ResearchPiezoelectric Peptide and Metabolite MaterialsHigh-Efficiency Fluorescence through Bioinspired Supramolecular Self-AssemblyBiocompatible Hybrid Organic/Inorganic Microhydrogels Promote Bacterial Adherence and Eradication in Vitro and in VivoTransition of Metastable Cross-α Crystals into Cross-β Fibrils by β-Turn FlippingIntrinsic Fluorescence of Metabolite Amyloids Allows Label-Free Monitoring of Their Formation and Dynamics in Live CellsFunctional Coiled-Coil-like Assembly by Knob-into-Hole Packing of Single Heptad RepeatDeciphering the Rules for Amino Acid Co-Assembly Based on Interlayer DistancesMechanically rigid supramolecular assemblies formed from an Fmoc-guanine conjugated peptide nucleic acidRigid Tightly Packed Amino Acid Crystals as Functional Supramolecular MaterialsUnravelling the role of amino acid sequence order in the assembly and function of the amyloid-β coreAntagonistic Activity of Naphthoquinone-Based Hybrids toward Amyloids Associated with Alzheimer's Disease and Type-2 DiabetesExpanding the Functional Scope of the Fmoc-Diphenylalanine Hydrogelator by Introducing a Rigidifying and Chemically Active Urea Backbone ModificationOligosaccharides Self-Assemble and Show Intrinsic Optical PropertiesComposite of Peptide-Supramolecular Polymer and Covalent Polymer Comprises a New Multifunctional, Bio-Inspired Soft MaterialSelf-Assembly of Aromatic Amino Acid Enantiomers into Supramolecular Materials of High RigidityUnusual Two-Step Assembly of a Minimalistic Dipeptide-Based Functional HypergelatorPhotoactive properties of supramolecular assembled short peptidesReal-Time In-Situ Monitoring of a Tunable Pentapeptide Gel-Crystal Transition
P50
Q21135564-EC5CCB68-7388-4D02-9406-0C6243BD3DF5Q31142707-30EA0735-D63A-43F2-A97A-0D4AB680AC05Q33674189-49BB7EE7-0A08-4481-B6B9-2901066A150EQ33736886-FFE05E39-F528-4F15-981D-D6131B95F409Q36210788-073B5A15-58F9-46D8-9AA9-0A6DE9B87B67Q36391231-B46F89D1-4763-4E1A-9A3C-BA14926DD47BQ38686092-44F5E5FA-E6B3-43B5-9191-69F8A431F5F6Q38759605-1A1500CE-4891-4256-8DCD-6C6BAE81C546Q38795668-F78CFA97-C87B-4D72-842D-C900CBEA831EQ38917065-A52F6D97-EC77-4853-925F-EBB0B5556545Q39270362-D28E2747-3290-4FD7-A046-7AB59AAF7E77Q41723383-9A02D344-E704-4CE0-81AC-BE99A937A802Q47340250-44C76FC7-0999-488A-8238-BDF0757DBD94Q48172417-B64CD6BC-A9EC-4140-B20B-A2126B4E4825Q52369514-DD035E8F-13D2-4D87-8EFD-4912DEFD46B7Q55039919-2C338D7F-1DB6-4B4B-BEA8-2C0DCAD42A69Q64275884-3BFAE96F-FD06-4C24-AA04-0B142638E595Q64317709-3AA8866D-BE67-4807-BB98-3824C8CD871DQ64324277-0D40200A-CEBA-45C8-89FE-AC32308C9E38Q64448305-F2FDC8C9-C81E-45DB-9C62-4C3D180137DEQ64863127-06287AD9-B13A-421D-ACEC-D46F38480595Q78946523-0428CC65-39BB-4834-9E5B-0C100E8BB286Q89512102-8052D378-265D-4830-BAB3-951C0E8D3DB0Q89628475-031F20D4-7FDE-4684-87D6-A376B11AF321Q90378566-9C36FCEC-B9CF-43FC-84A4-15FCA059A3F8Q90834546-EC050A2B-1BF1-439F-980C-44FDAF8B03A6Q90923045-89D4DAB5-BAD7-4107-969E-45C0FF822FA3Q91179614-435A7630-8880-422E-8F65-7EEBA7F969A2Q91361989-5B740319-2C68-44FF-AC83-79E92D932881Q91393527-28D99652-8D7F-49C0-8DB2-88DEE5D9ACCFQ91646873-D2FCAB41-315F-49D0-A3DB-2B9FA83E65D0Q91699193-5B7FAD8C-22E1-49D4-8316-A253D3E26086Q91974906-5C26E216-0323-4F22-9BEA-D6801BA04643Q92097409-F0DE5524-3DB5-456F-AB66-590E8228F97DQ92194773-77AA4D27-9468-449C-8106-59032C5CA6B3Q92686882-C7F20743-7EFD-48AF-ACA8-653190BB9AC6Q92957595-3F7604B4-F27D-4AF9-9767-5A29D9099BD4Q93009811-D0063639-10A0-48B3-B485-A8F5FFC53E60Q93067352-AB97B2B6-6304-402E-90AA-BF0B69B4BEED
P50
description
Israeli biochemist
@en
ahli biologi asal Israel
@id
biochimiste israélien
@fr
biologo israeliano
@it
bioloog uit Israël
@nl
bithchemiceoir Iosraelach
@ga
ביופיזיקאי, ביוכימאי וננוטכנולוג ישראלי
@he
زیستشناس اسرائیلی
@fa
name
Ehud Gazit
@ace
Ehud Gazit
@ast
Ehud Gazit
@ca
Ehud Gazit
@de
Ehud Gazit
@en
Ehud Gazit
@es
Ehud Gazit
@fr
Ehud Gazit
@ga
Ehud Gazit
@id
Ehud Gazit
@it
type
label
Ehud Gazit
@ace
Ehud Gazit
@ast
Ehud Gazit
@ca
Ehud Gazit
@de
Ehud Gazit
@en
Ehud Gazit
@es
Ehud Gazit
@fr
Ehud Gazit
@ga
Ehud Gazit
@id
Ehud Gazit
@it
prefLabel
Ehud Gazit
@ace
Ehud Gazit
@ast
Ehud Gazit
@ca
Ehud Gazit
@de
Ehud Gazit
@en
Ehud Gazit
@es
Ehud Gazit
@fr
Ehud Gazit
@ga
Ehud Gazit
@id
Ehud Gazit
@it
P106
P1006
P214
P244
P268
P269
P646
P1006
P101
P1053
C-3715-2011
P1412
P21
P213
0000 0000 5489 9526
P214
P244
n2007182730