The monolayer technique: a potent tool for studying the interfacial properties of antimicrobial and membrane-lytic peptides and their interactions with lipid membranes.
about
A Review of the Latest Advances in Encrypted Bioactive Peptides from Protein-Rich WasteThe effect of amidation on the behaviour of antimicrobial peptidesAn insight into the sialome of the blood-sucking bug Triatoma infestans, a vector of Chagas’ diseaseCrystal structure of the Borna disease virus matrix protein (BDV-M) reveals ssRNA binding propertiesEmerging methodologies to investigate lipid-protein interactionsAmyloid oligomer neurotoxicity, calcium dysregulation, and lipid raftsActive fragments from pro- and antiapoptotic BCL-2 proteins have distinct membrane behavior reflecting their functional divergenceAggregation of puroindoline in phospholipid monolayers spread at the air-liquid interface.Self-assembled monolayers from a designed combinatorial library of de novo beta-sheet proteinsStructural and biological characterization of chromofungin, the antifungal chromogranin A-(47-66)-derived peptide.Interaction of the P-type cardiotoxin with phospholipid membranes.The singular behavior of a β-type semi-synthetic two branched polypeptide: three-dimensional structure and mode of action.Comparison of VILIP-1 and VILIP-3 binding to phospholipid monolayers.Autoinsertion of soluble oligomers of Alzheimer's Abeta(1-42) peptide into cholesterol-containing membranes is accompanied by relocation of the sterol towards the bilayer surface.Comprehensive characterization of molecular interactions based on nanomechanicsA raft-associated species of phosphatidylethanolamine interacts with cholesterol comparably to sphingomyelin. A Langmuir-Blodgett monolayer study.Affinity of alkylphosphocholines to biological membrane of prostate cancer: studies in natural and model systemsA miniature mimic of host defense peptides with systemic antibacterial efficacy.Key amino acid residues of ankyrin-sensitive phosphatidylethanolamine/phosphatidylcholine-lipid binding site of βI-spectrin.Simulations of zwitterionic and anionic phospholipid monolayers.Conformation, orientation, and adsorption kinetics of dermaseptin B2 onto synthetic supports at aqueous/solid interfaceSurface behavior and lipid interaction of Alzheimer beta-amyloid peptide 1-42: a membrane-disrupting peptideLipid headgroup discrimination by antimicrobial peptide LL-37: insight into mechanism of action.Exploring the membrane mechanism of the bioactive peptaibol ampullosporin a using lipid monolayers and supported biomimetic membranes.Interaction of antimicrobial peptide temporin L with lipopolysaccharide in vitro and in experimental rat models of septic shock caused by gram-negative bacteria.Hydrogen Exchange Mass Spectrometry of Proteins at Langmuir MonolayersCyclosporin A in Membrane Lipids Environment: Implications for Antimalarial Activity of the Drug--The Langmuir Monolayer Studies.Infectious Disease: Connecting Innate Immunity to Biocidal Polymers.Interaction of the neurotransmitter, neuropeptide Y, with phospholipid membranes: film balance and fluorescence microscopy studies.Interaction of the neurotransmitter, neuropeptide Y, with phospholipid membranes: infrared spectroscopic characterization at the air/water interface.Protegrin interaction with lipid monolayers: Grazing incidence X-ray diffraction and X-ray reflectivity study.Self-assembly and lipid interactions of diacylglycerol lactone derivatives studied at the air/water interface.Biophysical interactions with model lipid membranes: applications in drug discovery and drug delivery.Thermodynamics and mechanics of membrane curvature generation and sensing by proteins and lipidsA simple guide to biochemical approaches for analyzing protein-lipid interactions.Comparison between the behavior of different hydrophobic peptides allowing membrane anchoring of proteins.Identification of an ATP-binding cassette transporter for export of the O-antigen across the inner membrane in Rhizobium etli based on the genetic, functional, and structural analysis of an lps mutant deficient in O-antigen.Antimicrobial peptides with selective antitumor mechanisms: prospect for anticancer applications.Aggregation of gramicidin A in phospholipid Langmuir-Blodgett monolayers.Pre-transmembrane sequence of Ebola glycoprotein. Interfacial hydrophobicity distribution and interaction with membranes.
P2860
Q26744366-A2D98EA7-28C1-49A2-A4DA-A54195A62393Q26770127-4CE0CE93-A591-4D63-94F7-0BEF1CB6FE3DQ27485466-444322D5-7C15-4228-85B9-01609EB09E0BQ27653915-12C7A953-66D0-4B7B-AC92-336F6E4FC061Q28386247-C998BE48-5EE4-4C4C-9FEE-376767D0BE50Q28742804-56E4117C-7F04-4106-89F8-77A5EC47E749Q28749082-AA2E3E1E-BE40-45ED-B17D-6E122610C2AEQ30503510-D22DB3E2-294A-49A4-AEF2-6BBBF942F621Q30660852-DF47A708-7817-4DF6-A542-55EE9BD0D927Q30687516-17D8C043-79B3-4122-BA81-F11EA05F10E6Q30787646-EB36509E-C362-45D1-A040-85794295511FQ31140527-6D1E330F-17EE-4BD7-88B8-F49BA59228EAQ31156372-5396584B-703B-4882-87E8-BA31455726DBQ33260929-6F33AEC5-E20F-419A-B37C-2C095D50C261Q33382109-3D2F65FC-DE6F-4A24-801B-3E1CD5C74207Q33423858-A7B9CA97-B625-489F-9C72-2295D0083BC0Q33735663-9FA124F8-2A3C-4362-959D-8FC9E0D11397Q33868731-E40F4070-643A-4CEB-9891-2BFD5DB9F3AFQ33955023-949E4CCD-B0D8-4F90-BE50-E902A62FBFEFQ34177523-42155E34-39F9-464C-8D38-E191A4212FFBQ34182358-70220CF5-0F26-40A2-8395-B707659D2D2DQ34189782-4E1D85A3-71F8-4A63-9E98-163DE0AF5943Q34354107-36A253F3-8667-44B3-A5D4-59C8A7011ABEQ34591003-F7A81590-74DE-4449-9F4E-D871AC00883FQ34721515-D88BF832-4027-4C1C-BA84-F16C8D177FC8Q35875913-54227D82-1C6E-4F3C-BB00-DB24DA4E6011Q36177459-A15FDB3D-7B8B-4C5C-9AAA-80319B7382E6Q36298207-E792B20A-43A4-4BB9-92B4-6D4A798C1C5DQ36909513-0AF9E301-9251-4E9F-96D2-0153FA4A1448Q37060499-DD500468-F3BB-48F9-A563-1E5F6D2B6DC1Q37297389-CC515AF1-ABE9-462C-BD4F-A7C325A8BA45Q37372984-8E2E4271-FB95-485D-A3E8-0DC08D302D30Q37376484-618450E1-C05C-44CD-A338-F7D62498329DQ37827119-DC0E1D01-94F0-47EC-B58C-C7F5E80F665FQ38030903-A9E71FF1-56F3-46C4-84BD-72E07BBE9C4EQ38190250-DB7561D8-9A77-402E-82E6-46AC32A969EFQ38302475-4DCC0A7F-A048-46A2-B175-CB21ACEE47FEQ39250554-953FD26A-7E11-4009-AEF9-1A604F3330B8Q40208678-878AF816-003C-41A2-99CE-E0963D0EAEC4Q40568440-5A355BA7-3F4A-4BE6-B00D-178FAB9480DD
P2860
The monolayer technique: a potent tool for studying the interfacial properties of antimicrobial and membrane-lytic peptides and their interactions with lipid membranes.
description
1999 nî lūn-bûn
@nan
1999 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
The monolayer technique: a pot ...... ractions with lipid membranes.
@ast
The monolayer technique: a pot ...... ractions with lipid membranes.
@en
type
label
The monolayer technique: a pot ...... ractions with lipid membranes.
@ast
The monolayer technique: a pot ...... ractions with lipid membranes.
@en
prefLabel
The monolayer technique: a pot ...... ractions with lipid membranes.
@ast
The monolayer technique: a pot ...... ractions with lipid membranes.
@en
P1476
The monolayer technique: a pot ...... ractions with lipid membranes.
@en
P2093
R Maget-Dana
P304
P356
10.1016/S0005-2736(99)00203-5
P407
P577
1999-12-01T00:00:00Z