about
The first selective agonist for the neuropeptide YY5 receptor increases food intake in ratsStabilization of the Dimeric Birch Pollen Allergen Bet v 1 Impacts Its Immunological PropertiesInhibition of delta-secretase improves cognitive functions in mouse models of Alzheimer's disease.G protein-coupled receptors function as logic gates for nanoparticle binding and cell uptake.Determination of affinity and activity of ligands at the human neuropeptide Y Y4 receptor by flow cytometry and aequorin luminescence.Photoresponsive cyclic bis(cysteinyl)peptides as catalysts of oxidative protein folding.Impact of the amino acid sequence on the conformation of side chain lactam-bridged octapeptides.The Id-protein family in developmental and cancer-associated pathways.Replacement of Thr32 and Gln34 in the C-terminal neuropeptide Y fragment 25-36 by cis-cyclobutane and cis-cyclopentane β-amino acids shifts selectivity toward the Y(4) receptor.Functional reconstitution of human neuropeptide Y (NPY) Y(2) and Y(4) receptors in Sf9 insect cells.Side chain cyclization based on serine residues: synthesis, structure, and activity of a novel cyclic analogue of the parathyroid hormone fragment 1-11.Ala31-Aib32: identification of the key motif for high affinity and selectivity of neuropeptide Y at the Y5-receptor.2-36[K4,RYYSA(19-23)]PP a novel Y5-receptor preferring ligand with strong stimulatory effect on food intake.Synthesis and conformation of an analog of the helix-loop-helix domain of the Id1 protein containing the O-acyl iso-prolyl-seryl switch motif.Self-recognition behavior of a helix-loop-helix domain by a fragment scan.Stable right- and left-handed peptide helices containing C(alpha)-tetrasubstituted alpha-amino acids.Reduction of cancer cell viability by synergistic combination of photodynamic treatment with the inhibition of the Id protein family.Complete NMR Assignment of Succinimide and Its Detection and Quantification in Peptides and Intact Proteins.Targeting of a Helix-Loop-Helix Transcriptional Regulator by a Short Helical Peptide.Fluorescence- and Radiolabeling of [Lys4,Nle17,30]hPP Yields Molecular Tools for the NPY Y4 Receptor.Visible-light photoredox-catalyzed desulfurization of thiol- and disulfide-containing amino acids and small peptides.Crystal structure of plant legumain reveals a unique two-chain state with pH-dependent activity regulation.The Modern Face of Synthetic Heterocyclic Chemistry.Peptides containing β-amino acid patterns: challenges and successes in medicinal chemistry.Fluorescence- and luminescence-based methods for the determination of affinity and activity of neuropeptide Y2 receptor ligands.Structural analyses of Arabidopsis thaliana legumain γ reveal the differential recognition and processing of proteolysis and ligation substrates.Aggregation and conformational transition in aqueous solution of a bombolitin III analogue containing a photoreactive side-chain group.The Recombinant Inhibitor of DNA Binding Id2 Forms Multimeric Structures via the Helix-Loop-Helix Domain and the Nuclear Export Signal.γ-Aminoadamantanecarboxylic Acids Through Direct C–H Bond AmidationsAn explorative study towards the chemical synthesis of the immunoglobulin G1 Fc CH3 domainUnique α,β- and α,α,β,β-Peptide Foldamers Based on cis-β-Aminocyclopentanecarboxylic AcidAnalogues of Neuropeptide Y Containing β-Aminocyclopropane Carboxylic Acids are the Shortest Linear Peptides That Are Selective for the Y1 ReceptorThe Synthesis of Diastereo- and Enantiomerically Pureβ-Aminocyclopropanecarboxylic AcidsMimicking of Arginine by Functionalized Nω-Carbamoylated Arginine As a New Broadly Applicable Approach to Labeled Bioactive Peptides: High Affinity Angiotensin, Neuropeptide Y, Neuropeptide FF, and Neurotensin Receptor Ligands As ExamplesThe NMR signature of gluconoylation: a frequent N-terminal modification of isotope-labeled proteinsInvestigation of crudes of synthesis of [Leu31, Pro34]-neuropeptide Y by capillary zone electrophoresis/mass spectrometryBinding properties of three neuropeptide Y receptor subtypes from zebrafish: comparison with mammalian Y1 receptorsStepwise solid-phase synthesis and spontaneous homodimerization of the helix-loop-helix protein Id3Switching from the unfolded to the folded state of the helix-loop-helix domain of the Id proteins based on the O-acyl isopeptide methodHow ionic liquids can help to stabilize native proteins
P50
Q27626600-69BEEED7-4325-44D1-B964-ADC16D39E1A5Q27680648-F7AEE32C-56BF-4044-9C50-E90651D99F3FQ30358929-975BE078-88EA-449E-BCB2-F9A24A491225Q33934981-7FF96E8F-5C0C-40EA-902F-4CCD3A5E22D2Q34691674-8655014F-E952-496F-9352-45C37597F126Q35030208-6102B737-E859-4AC3-A4D8-DCA08360C040Q36332636-C239A9A6-0729-48E4-A4B1-F7F0B482C251Q39103288-B55930B1-D332-473D-8BEA-D3F472682B6BQ39340149-6CFA6940-3379-4EA2-86A0-6ED175857920Q39509078-5951B243-5F42-4836-87E4-48AA516EEDEBQ39638862-5C0C1865-EF00-4D99-9D4E-322775715BBEQ40724370-D4B77FB6-CE5D-4AED-AA21-F8F79371C5CAQ40894811-DAFDFEF5-3799-4ED5-9479-C0978EFC8403Q43061896-2EA8E827-D3A9-4656-8C57-DB092566C090Q45323689-6A3B12E5-B5F0-4CB0-AB4E-87D9735D90F0Q46057000-77F6C660-7A74-4ADC-8E13-7CD90909535FQ47289544-4775A965-5FA2-459D-A0EA-56D7A0916B8DQ47617587-76363717-FC5E-48F1-92D9-BF68C32F4565Q47957753-E92C6A60-4879-4CEA-A282-090D280C786EQ48043736-B2447E84-734C-4B01-8F32-9BF9A5287929Q48280915-4C3A992B-516C-47EE-AC45-1CBA3CFECC7CQ49914632-43708CC9-95D8-4092-A993-15CFB491743EQ50215949-5605E731-0533-49EF-85F6-DA418EF48AD7Q51055342-F147DDE8-411E-44A3-B354-57498B7A55ABQ51803342-96DC9613-8AA3-4BE6-8236-B5ADB8B41005Q52328720-34CAD364-BB1C-4925-91F4-454A93468722Q52553639-464290C1-D603-4E83-9322-8CDFE803B172Q52593699-C969EAD4-00B2-40EE-B40B-938B17E60CBCQ56565657-2D0BB712-CA7B-481F-B567-B62A5D4341F2Q57804113-9730185C-0251-4F40-99DD-A6A5F202035AQ58214113-F037F156-C324-4D92-A270-12B60FEC5DC4Q58214356-E7108758-0EF4-437B-921A-595A202E211FQ58214410-09B67A8E-0D1D-46CA-B2E2-0F7308ABF73FQ64030166-547DE4EA-B86F-4AC6-8827-FA071F9256E1Q64286359-08233E4F-B549-4EF4-B818-8FB2071A8D87Q70819646-0754A458-E772-4E87-83A8-AE8EF62C214DQ73275897-5A45628F-21D7-465F-B68F-E218C9E55BB5Q79788340-3535D10F-6EF6-411E-B559-64F434723F86Q81660297-07C82746-BC2A-442D-BF7B-58728CFCDC54Q82536609-7CBE3B15-192F-44F9-B6BE-1978455D88EE
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Chiara Cabrele
@ast
Chiara Cabrele
@en
Chiara Cabrele
@es
Chiara Cabrele
@nl
Chiara Cabrele
@sl
type
label
Chiara Cabrele
@ast
Chiara Cabrele
@en
Chiara Cabrele
@es
Chiara Cabrele
@nl
Chiara Cabrele
@sl
prefLabel
Chiara Cabrele
@ast
Chiara Cabrele
@en
Chiara Cabrele
@es
Chiara Cabrele
@nl
Chiara Cabrele
@sl
P108
P106
P21
P31
P496
0000-0002-7550-6896