about
The Cyclic Cystine Ladder in -Defensins Is Important for Structure and Stability, but Not Antibacterial ActivityAnticancer and toxic properties of cyclotides are dependent on phosphatidylethanolamine phospholipid targetingIdentification, Characterization, and Three-Dimensional Structure of the Novel Circular Bacteriocin, Enterocin NKR-5-3B, from Enterococcus faeciumMirror Images of Antimicrobial Peptides Provide Reflections on Their Functions and Amyloidogenic PropertiesA novel quantitative kinase assay using bacterial surface display and flow cytometryNMR and protein structure in drug design: application to cyclotides and conotoxins.Phosphatidylethanolamine binding is a conserved feature of cyclotide-membrane interactions.How to address CPP and AMP translocation? Methods to detect and quantify peptide internalization in vitro and in vivo (Review).Identification and characterization of a new family of cell-penetrating peptides: cyclic cell-penetrating peptides.Cyclotide isolation and characterization.Optimization of the cyclotide framework to improve cell penetration properties.Decoding the membrane activity of the cyclotide kalata B1: the importance of phosphatidylethanolamine phospholipids and lipid organization on hemolytic and anti-HIV activitiesDesign of substrate-based BCR-ABL kinase inhibitors using the cyclotide scaffold.Cell-penetrating peptides and antimicrobial peptides: how different are they?Development of a μO-Conotoxin Analogue with Improved Lipid Membrane Interactions and Potency for the Analgesic Sodium Channel NaV1.8.Translocation or membrane disintegration? Implication of peptide-membrane interactions in pep-1 activity.Cyclotides as templates in drug design.Is PrP(106-126) fragment involved in the membrane activity of the Prion protein?Importance of the cell membrane on the mechanism of action of cyclotides.Gating modifier toxin interactions with ion channels and lipid bilayers: Is the trimolecular complex real?Using the MCoTI-II Cyclotide Scaffold To Design a Stable Cyclic Peptide Antagonist of SET, a Protein Overexpressed in Human Cancer.Structural and functional characterization of chimeric cyclotides from the Möbius and trypsin inhibitor subfamilies.Orientation and Location of the Cyclotide Kalata B1 in Lipid Bilayers Revealed by Solid-State NMR.Cyclotide Structure and Function: The Role of Membrane Binding and Permeation.Interaction of Tarantula Venom Peptide ProTx-II with Lipid Membranes Is a Prerequisite for Its Inhibition of Human Voltage-gated Sodium Channel NaV1.7.New Potent Membrane-Targeting Antibacterial Peptides from Viral Capsid Proteins.PrP(106-126) does not interact with membranes under physiological conditions.Bacteria May Cope Differently from Similar Membrane Damage Caused by the Australian Tree Frog Antimicrobial Peptide Maculatin 1.1.Putative role of membranes in the HIV fusion inhibitor enfuvirtide mode of action at the molecular levelFast membrane association is a crucial factor in the peptide pep-1 translocation mechanism: a kinetic study followed by surface plasmon resonance.Design and characterization of novel antimicrobial peptides, R-BP100 and RW-BP100, with activity against Gram-negative and Gram-positive bacteria.The toxicity of prion protein fragment PrP(106-126) is not mediated by membrane permeabilization as shown by a M112W substitution.Understanding the Diversity and Distribution of Cyclotides from Plants of Varied Genetic Origin.Environmental factors that enhance the action of the cell penetrating peptide pep-1 A spectroscopic study using lipidic vesicles.Translocation of beta-galactosidase mediated by the cell-penetrating peptide pep-1 into lipid vesicles and human HeLa cells is driven by membrane electrostatic potential.Re-evaluating the role of strongly charged sequences in amphipathic cell-penetrating peptides: a fluorescence study using Pep-1.Lysine-rich Cyclotides: A New Subclass of Circular Knotted Proteins from Violaceae.Redesigned Spider Peptide with Improved Antimicrobial and Anticancer Properties.Lysine to arginine mutagenesis of chlorotoxin enhances its cellular uptake.Kalata B1 and Kalata B2 Have a Surfactant-Like Activity in Phosphatidylethanolomine-Containing Lipid Membranes.
P50
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P50
description
hulumtuese
@sq
onderzoeker
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researcher
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հետազոտող
@hy
name
Sónia Troeira Henriques
@ast
Sónia Troeira Henriques
@en
Sónia Troeira Henriques
@es
Sónia Troeira Henriques
@nl
Sónia Troeira Henriques
@sl
type
label
Sónia Troeira Henriques
@ast
Sónia Troeira Henriques
@en
Sónia Troeira Henriques
@es
Sónia Troeira Henriques
@nl
Sónia Troeira Henriques
@sl
prefLabel
Sónia Troeira Henriques
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Sónia Troeira Henriques
@en
Sónia Troeira Henriques
@es
Sónia Troeira Henriques
@nl
Sónia Troeira Henriques
@sl
P108
P1053
J-3500-2016
P106
P1153
6602860688
P21
P31
P3829
P496
0000-0001-9564-9651