review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1016/S0163-7827(00)00011-4 |
P698 | PubMed publication ID | 11082506 |
P2093 | author name string | Leroux J | |
Drummond DC | |||
Zignani M | |||
P2860 | cites work | Delivery of macromolecules into living cells: a method that exploits folate receptor endocytosis | Q24564481 |
Lipofection: a highly efficient, lipid-mediated DNA-transfection procedure | Q24634002 | ||
Actin filaments and the growth, movement, and spread of the intracellular bacterial parasite, Listeria monocytogenes | Q24679402 | ||
Formation and intracellular transport of a heterodimeric viral spike protein complex | Q27485688 | ||
The envelope glycoprotein from tick-borne encephalitis virus at 2 A resolution | Q27730234 | ||
Interactions of serum proteins with small unilamellar liposomes composed of dioleoylphosphatidylethanolamine and oleic acid: high-density lipoprotein, apolipoprotein A1, and amphipathic peptides stabilize liposomes | Q28329353 | ||
pH-sensitive, plasma-stable liposomes with relatively prolonged residence in circulation | Q28334431 | ||
Energetics of intermediates in membrane fusion: comparison of stalk and inverted micellar intermediate mechanisms | Q28769387 | ||
A versatile vector for gene and oligonucleotide transfer into cells in culture and in vivo: polyethylenimine | Q29616154 | ||
Endocytosis and molecular sorting | Q29616706 | ||
Virus-cell and cell-cell fusion | Q30469833 | ||
Transferrin-polycation-mediated introduction of DNA into human leukemic cells: stimulation by agents that affect the survival of transfected DNA or modulate transferrin receptor levels | Q33600489 | ||
Surface aggregation and membrane penetration by peptides: relation to pore formation and fusion | Q33637965 | ||
Liposome formulations with prolonged circulation time in blood and enhanced uptake by tumors | Q33649082 | ||
Poly(ethylenimine) and its role in gene delivery | Q33698747 | ||
Solubilization and reconstitution of vesicular stomatitis virus envelope using octylglucoside | Q33915275 | ||
Role of the N-terminal peptides of viral envelope proteins in membrane fusion. | Q33933461 | ||
Biological barriers to cellular delivery of lipid-based DNA carriers | Q33933468 | ||
Effect of cholesterol and charge on pore formation in bilayer vesicles by a pH-sensitive peptide | Q34041314 | ||
Formation of virosomes from influenza subunits and liposomes | Q34053696 | ||
Bacillus subtilis expressing a haemolysin gene from Listeria monocytogenes can grow in mammalian cells | Q34151692 | ||
Orientation of the pore-forming peptide GALA in POPC vesicles determined by a BODIPY-avidin/biotin binding assay | Q34170259 | ||
Fusion of phosphatidylethanolamine-containing liposomes and mechanism of the L alpha-HII phase transition | Q34189125 | ||
H+- and Ca2+-induced fusion and destabilization of liposomes. | Q34199456 | ||
Viral and cellular membrane fusion proteins | Q34208540 | ||
Membrane fusion and molecular segregation in phospholipid vesicles | Q34220149 | ||
Polyamidoamine cascade polymers mediate efficient transfection of cells in culture | Q34347285 | ||
Measurement of endosome pH following folate receptor-mediated endocytosis. | Q34388863 | ||
Delivery of antisense oligodeoxyribonucleotides against the human epidermal growth factor receptor into cultured KB cells with liposomes conjugated to folate via polyethylene glycol | Q34433380 | ||
Fluorescence probe measurement of the intralysosomal pH in living cells and the perturbation of pH by various agents | Q34556950 | ||
Development of anti-p185HER2 immunoliposomes for cancer therapy | Q34607767 | ||
Diphtheria toxin fragment forms large pores in phospholipid bilayer membranes | Q35461718 | ||
Immunopotentiating reconstituted influenza virus virosome vaccine delivery system for immunization against hepatitis A | Q35613832 | ||
Immunopotentiating reconstituted influenza virosomes (IRIVs) and other adjuvants for improved presentation of small antigens | Q35624905 | ||
Phosphatidylethanolamine liposomes: drug delivery, gene transfer and immunodiagnostic applications | Q35756732 | ||
Procedure for preparation of liposomes with large internal aqueous space and high capture by reverse-phase evaporation | Q35989488 | ||
Membrane fusion mutants of Semliki Forest virus | Q36209563 | ||
Efficient cytoplasmic delivery of a fluorescent dye by pH-sensitive immunoliposomes | Q36212534 | ||
pH-induced alterations in the fusogenic spike protein of Semliki Forest virus | Q36214003 | ||
Anti-peptide antibodies detect steps in a protein conformational change: low-pH activation of the influenza virus hemagglutinin | Q36217109 | ||
Macrophages possess probenecid-inhibitable organic anion transporters that remove fluorescent dyes from the cytoplasmic matrix | Q36217291 | ||
A view of acidic intracellular compartments | Q36218662 | ||
A prelysosomal compartment sequesters membrane-impermeant fluorescent dyes from the cytoplasmic matrix of J774 macrophages | Q36219515 | ||
The glycophospholipid-linked folate receptor internalizes folate without entering the clathrin-coated pit endocytic pathway | Q36222686 | ||
pH-sensitive liposomes: acid-induced liposome fusion | Q36255409 | ||
Changes in the conformation of influenza virus hemagglutinin at the pH optimum of virus-mediated membrane fusion | Q36281287 | ||
Structural and functional comparisons of pH-sensitive liposomes composed of phosphatidylethanolamine and three different diacylsuccinylglycerols | Q41730384 | ||
Endocytosis of liposomes by macrophages: binding, acidification and leakage of liposomes monitored by a new fluorescence assay | Q41733888 | ||
Mechanisms of delivery of liposome-encapsulated cytosine arabinoside to CV-1 cells in vitro. Fluorescence-microscopic and cytotoxicity studies | Q41736738 | ||
Immunoliposomes with different acid sensitivities as probes for the cellular endocytic pathway | Q41758406 | ||
Reconstitution of the fusogenic activity of vesicular stomatitis virus. | Q41827323 | ||
pH-sensitive liposomes mediate cytoplasmic delivery of encapsulated macromolecules | Q41918013 | ||
Effects of ammonium chloride and chloroquine on endocytic uptake of liposomes by Kupffer cells in vitro | Q41919239 | ||
Endocytosis of liposomes and intracellular fate of encapsulated molecules: encounter with a low pH compartment after internalization in coated vesicles | Q41921571 | ||
Inhibition of Semliki forest virus penetration by lysosomotropic weak bases | Q41923695 | ||
Acidic pH triggers LCMV membrane fusion activity and conformational change in the glycoprotein spike | Q41935856 | ||
Liposome-encapsulated antigens are processed in lysosomes, recycled, and presented to T cells | Q41942524 | ||
Lipid interaction of Pseudomonas aeruginosa exotoxin A. Acid-triggered permeabilization and aggregation of lipid vesicles | Q42036139 | ||
Liposomes containing synthetic lipid derivatives of poly(ethylene glycol) show prolonged circulation half-lives in vivo | Q42042312 | ||
Specificity of amphiphilic anionic peptides for fusion of phospholipid vesicles | Q42184772 | ||
Small, but not large, unilamellar liposomes composed of dioleoylphosphatidylethanolamine and oleic acid can be stabilized by human plasma | Q42193508 | ||
Destabilization of phosphatidylethanolamine-containing liposomes: hexagonal phase and asymmetric membranes | Q42219112 | ||
Biodistribution of pH-sensitive immunoliposomes | Q42222822 | ||
Pharmacokinetic behavior of vincristine sulfate following administration of vincristine sulfate liposome injection | Q42674865 | ||
Effect of the cholesterol content of small unilamellar liposomes on their stability in vivo and in vitro | Q42746832 | ||
Conformation of membrane fusion-active 20-residue peptides with or without lipid bilayers. Implication of alpha-helix formation for membrane fusion | Q43579771 | ||
Photolabeling identifies a putative fusion domain in the envelope glycoprotein of rabies and vesicular stomatitis viruses | Q43631145 | ||
pH-dependent membrane fusion activity of a synthetic twenty amino acid peptide with the same sequence as that of the hydrophobic segment of influenza virus hemagglutinin | Q44047893 | ||
Immunogenicity and adverse effects of inactivated virosome versus alum-adsorbed hepatitis A vaccine: a randomized controlled trial | Q44048281 | ||
Effect of lysolecithin on the structure and permeability of lecithin bilayer vesicles | Q44093181 | ||
Interaction of influenza hemagglutinin amino-terminal peptide with phospholipid vesicles: a fluorescence study | Q44111720 | ||
Mechanism of leakage of phospholipid vesicle contents induced by the peptide GALA. | Q44282173 | ||
Application of membrane-active peptides for nonviral gene delivery | Q44320484 | ||
An improved method of loading pH-sensitive liposomes with soluble proteins for class I restricted antigen presentation | Q44458932 | ||
Targeted delivery of hygromycin B using reconstituted Sendai viral envelopes lacking hemagglutinin-neuraminidase | Q44496637 | ||
Peptides and membrane fusion: towards an understanding of the molecular mechanism of protein-induced fusion | Q44600727 | ||
pH sensitive liposomes provide an efficient means of sensitizing target cells to class I restricted CTL recognition of a soluble protein | Q44624457 | ||
Stabilization of cationic liposome-plasmid DNA complexes by polyamines and poly(ethylene glycol)-phospholipid conjugates for efficient in vivo gene delivery | Q45090289 | ||
Membrane Fusion by Peptide Analogues of Influenza Virus Haemagglutinin | Q45154024 | ||
Mutational analysis of the fusion peptide of the human immunodeficiency virus type 1: identification of critical glycine residues. | Q45771113 | ||
Preparation, properties, and applications of reconstituted influenza virus envelopes (virosomes). | Q45776156 | ||
Structure and topology of the influenza virus fusion peptide in lipid bilayers | Q45790260 | ||
Virosomes constructed from lipid and purified Friend leukaemia virus glycoprotein | Q45794133 | ||
Mouse mammary tumor virus can mediate cell fusion at reduced pH | Q45796741 | ||
Glycoprotein micelles isolated from vesicular stomatitis virus spontaneously partition into sonicated phosphatidylcholine vesicles | Q45802698 | ||
Virosomes reconstituted from human immunodeficiency virus proteins and lipids | Q45849443 | ||
Membrane fusion activity of the influenza virus hemagglutinin: interaction of HA2 N-terminal peptides with phospholipid vesicles | Q45854072 | ||
Gene transfer mediated by fusion protein hemagglutinin reconstituted in cationic lipid vesicles | Q45862556 | ||
Mechanisms of gene transfer mediated by lipoplexes associated with targeting ligands or pH-sensitive peptides | Q45864035 | ||
Enhanced folate receptor mediated gene therapy using a novel pH-sensitive lipid formulation | Q45864705 | ||
Cationic liposome-mediated intravenous gene delivery | Q45866771 | ||
Cellular and Molecular Barriers to Gene Transfer by a Cationic Lipid | Q45868044 | ||
Pore-forming peptides induce rapid phospholipid flip-flop in membranes. | Q46016360 | ||
The acid-triggered entry pathway of Pseudomonas exotoxin A. | Q46067010 | ||
Systemic Gene Expression After Intravenous DNA Delivery into Adult Mice | Q46128630 | ||
Efficiency of cytoplasmic delivery by pH-sensitive liposomes to cells in culture | Q46140381 | ||
Copolymers of N-isopropylacrylamide can trigger pH sensitivity to stable liposomes | Q46169436 | ||
Association of a pH-sensitive peptide with membrane vesicles: role of amino acid sequence | Q46362467 | ||
Sterically stabilized pH-sensitive liposomes. Intracellular delivery of aqueous contents and prolonged circulation in vivo | Q46380222 | ||
Liposomes with detachable polymer coating: destabilization and fusion of dioleoylphosphatidylethanolamine vesicles triggered by cleavage of surface-grafted poly(ethylene glycol). | Q46391939 | ||
Membrane contact, fusion, and hexagonal (HII) transitions in phosphatidylethanolamine liposomes | Q46543012 | ||
Thermosensitive liposomes: extravasation and release of contents in tumor microvascular networks | Q46601538 | ||
Interaction of diphtheria toxin with model membranes | Q68342920 | ||
Tissue specific opsonins for phagocytic cells and their different affinity for cholesterol-rich liposomes | Q68412199 | ||
Orientation into the lipid bilayer of an asymmetric amphipathic helical peptide located at the N-terminus of viral fusion proteins | Q68610948 | ||
31P- and 1H-NMR investigations of the effect of n-alcohols on the hydrolysis by phospholipase A2 of phospholipid vesicular membranes | Q68640673 | ||
Low pH induced membrane fusion of lipid vesicles containing proton-sensitive polymer | Q68686250 | ||
Effect of exogenous lysolecithin on liposomal membranes. Its relation to membrane fluidity | Q68710167 | ||
Fate of protein-containing liposomes injected into rats. An approach to the treatment of storage diseases | Q68990458 | ||
Chimerasome-mediated gene transfer in vitro and in vivo | Q69363191 | ||
pH-dependent stability and fusion of liposomes combining protonatable double-chain amphiphiles with phosphatidylethanolamine | Q69394027 | ||
Light-induced fusion of liposomes with release of trapped marker dye is sensitised by photochromic phospholipid | Q69417473 | ||
Large unilamellar liposomes with low uptake into the reticuloendothelial system | Q69422002 | ||
Novel preparation of functional Sindbis virosomes | Q69613600 | ||
Polylysine induces pH-dependent fusion of acidic phospholipid vesicles: a model for polycation-induced fusion | Q69613633 | ||
pH-dependent bilayer destabilization and fusion of phospholipidic large unilamellar vesicles induced by diphtheria toxin and its fragments A and B | Q69647867 | ||
pH sensitization of phospholipid vesicles via complexation with synthetic poly(carboxylic acid)s | Q69840851 | ||
Membrane fusion | Q69915796 | ||
Role of cholesterol in membranes. Effects on phospholipid-protein interactions, membrane permeability and enzymatic activity | Q70004463 | ||
Rotary dialysis: its application to the preparation of large liposomes and large proteoliposomes (protein-lipid vesicles) with high encapsulation efficiency and efficient reconstitution of membrane proteins | Q70099604 | ||
Conformational studies of amphipathic alpha-helical peptides containing an amino acid with a long alkyl chain and their anchoring to lipid bilayer liposomes | Q70135123 | ||
beta-Galactosidase-induced destabilization of liposome composed of phosphatidylethanolamine and ganglioside GM1 | Q70383661 | ||
Role of lipid phase separations and membrane hydration in phospholipid vesicle fusion | Q70423005 | ||
Stability of small unilamellar liposomes in serum and clearance from the circulation: the effect of the phospholipid and cholesterol components | Q70434011 | ||
Effect of lipoprotein-free plasma on the interaction of human plasma high density lipoprotein with egg yolk phosphatidylcholine liposomes | Q70652977 | ||
Leakage of the fluorescent Ca2+ indicator fura-2 in smooth muscle | Q70683343 | ||
A study of phospholipid interactions between high-density lipoproteins and small unilamellar vesicles | Q70720803 | ||
Fusion activity of an amphiphilic polypeptide having acidic amino acid residues: generation of fusion activity by alpha-helix formation and charge neutralization | Q70779196 | ||
Virosomes as carriers for combined vaccines | Q70961248 | ||
Transfer and exchange of phospholipid between small unilamellar liposomes and rat plasma high density lipoproteins Dependence on cholesterol content and phospholipid composition | Q70968141 | ||
Influence of cholesterol on the association of plasma proteins with liposomes | Q71028970 | ||
Poly(ethylene glycol)--lipid conjugates regulate the calcium-induced fusion of liposomes composed of phosphatidylethanolamine and phosphatidylserine | Q71028995 | ||
Kinetics of membrane micellization by the hydrophobic polyelectrolyte poly(2-ethylacrylic acid) | Q71029184 | ||
Control of membrane fusion by phospholipid head groups. II. The role of phosphatidylethanolamine in mixtures with phosphatidate and phosphatidylinositol | Q71033529 | ||
Triggerable plasmalogen liposomes: improvement of system efficiency | Q71065353 | ||
Mechanism of DNA release from cationic liposome/DNA complexes used in cell transfection | Q71099227 | ||
Cholesterol content of small unilamellar liposomes controls phospholipid loss to high density lipoproteins in the presence of serum | Q71142092 | ||
Interaction of fusogenic synthetic peptide with phospholipid bilayers: orientation of the peptide alpha-helix and binding isotherm | Q71145605 | ||
Oxidation of sulfhydryl groups of ribonuclease inhibitor in epithelial cells is sufficient for its intracellular degradation | Q71245530 | ||
pH-induced destabilization of phosphatidylethanolamine-containing liposomes: role of bilayer contact | Q71348420 | ||
pH-sensitive liposomes: possible clinical implications | Q71379883 | ||
Effect of liposomal composition on photoactivated liposome fusion | Q71506669 | ||
Transmembrane gradient driven phase transitions within vesicles: lessons for drug delivery | Q71561923 | ||
On the relationship between the probenecid-sensitive transport of daunorubicin or calcein and the glutathione status of cells overexpressing the multidrug resistance-associated protein (MRP) | Q71628024 | ||
Liposome longevity and stability in circulation: effects on the in vivo delivery to tumors and therapeutic efficacy of encapsulated anthracyclines | Q71674724 | ||
Polyamines. Biological modulators of membrane fusion | Q71787213 | ||
Mechanism of liposome destabilization by polycationic amino acids | Q71788662 | ||
Liposome fusion and lipid exchange on ultraviolet irradiation of liposomes containing a photochromic phospholipid | Q71966875 | ||
Interactions of liposome bilayers composed of 1,2-diacyl-3-succinylglycerol with protons and divalent cations | Q72031842 | ||
Novel pH-sensitive liposomes: liposomes bearing a poly(ethylene glycol) derivative with carboxyl groups | Q72076933 | ||
Synthesis and characterization of N-acylated, pH-sensitive ‘caged’ aminophospholipids | Q72112886 | ||
Characterization of putative polyphosphoinositide binding motifs from phospholipase C beta 2 | Q72143207 | ||
Interaction of the HIV-1 fusion peptide with phospholipid vesicles: different structural requirements for fusion and leakage | Q72311722 | ||
Membrane interaction and conformational properties of the putative fusion peptide of PH-30, a protein active in sperm-egg fusion | Q72371465 | ||
Folate-mediated tumor cell targeting of liposome-entrapped doxorubicin in vitro | Q72567988 | ||
Design of a short membrane-destabilizing peptide covalently bound to liposomes | Q72773899 | ||
Transmembrane ammonium sulfate gradients in liposomes produce efficient and stable entrapment of amphipathic weak bases | Q72927459 | ||
Polycation-induced fusion of negatively-charged vesicles | Q72956614 | ||
Interstitial pH and pO2 gradients in solid tumors in vivo: high-resolution measurements reveal a lack of correlation | Q73034285 | ||
Acid-catalyzed plasmenylcholine hydrolysis and its effect on bilayer permeability: a quantitative study | Q73202077 | ||
pH-induced destabilization of lipid bilayers by a lipopeptide derived from influenza hemagglutinin | Q73202087 | ||
Preparation and characterization of pH-responsive polymeric micelles for the delivery of photosensitizing anticancer drugs | Q73423000 | ||
In vitro characterization of a novel polymeric-based pH-sensitive liposome system | Q73450378 | ||
Interactions between poly(2-ethylacrylic acid) and lipid bilayer membranes: effects of cholesterol and grafted poly(ethylene glycol) | Q73816862 | ||
Controlling liposome blood clearance by surface-grafted polymers | Q73850384 | ||
Enhancement of the in vivo circulation lifetime of L-alpha-distearoylphosphatidylcholine liposomes: importance of liposomal aggregation versus complement opsonization | Q73883734 | ||
Poly(amidoamine)s as potential endosomolytic polymers: evaluation in vitro and body distribution in normal and tumour-bearing animals | Q74149975 | ||
Membrane fusion induced by 11-mer anionic and cationic peptides: a structure-function study | Q74252250 | ||
Temperature-dependent associating property of liposomes modified with a thermosensitive polymer | Q74520358 | ||
Phase I study of liposomal vincristine | Q74611898 | ||
Transfection of human macrophages by lipoplexes via the combined use of transferrin and pH-sensitive peptides | Q74628170 | ||
Triggerable liposomal fusion by enzyme cleavage of a novel peptide-lipid conjugate | Q74746687 | ||
Comparison of different hydrophobic anchors conjugated to poly(ethylene glycol): effects on the pharmacokinetics of liposomal vincristine | Q74801955 | ||
Adjuvant activity of immunopotentiating reconstituted influenza virosomes (IRIVs) | Q77295244 | ||
Acid- and calcium-induced structural changes in phosphatidylethanolamine membranes stabilized by cholesteryl hemisuccinate | Q93569078 | ||
Generation of pH-sensitive liposomes: use of large unilamellar vesicles containing N-succinyldioleoylphosphatidylethanolamine | Q93669688 | ||
Site-specific gene delivery in vivo through engineered Sendai viral envelopes | Q36324500 | ||
Tetanus toxin fragment forms channels in lipid vesicles at low pH | Q36325692 | ||
pH-dependent perforation of macrophage phagosomes by listeriolysin O from Listeria monocytogenes. | Q36380649 | ||
Rapid acidification of endocytic vesicles containing alpha 2-macroglobulin | Q36590519 | ||
Preparation of influenza virosome vaccine with muramyldipeptide derivative B30-MDP. | Q36841888 | ||
Cytoplasmic delivery of calcein mediated by liposomes modified with a pH-sensitive poly(ethylene glycol) derivative | Q36863146 | ||
Capacity of listeriolysin O, streptolysin O, and perfringolysin O to mediate growth of Bacillus subtilis within mammalian cells | Q36947229 | ||
Characterization of the insertion of Pseudomonas exotoxin A into membranes | Q37031247 | ||
High-efficiency receptor-mediated delivery of small and large (48 kilobase gene constructs using the endosome-disruption activity of defective or chemically inactivated adenovirus particles. | Q37093747 | ||
Influenza virus hemagglutinin HA-2 N-terminal fusogenic peptides augment gene transfer by transferrin-polylysine-DNA complexes: toward a synthetic virus-like gene-transfer vehicle | Q37171224 | ||
Adenovirus enhancement of transferrin-polylysine-mediated gene delivery | Q37603166 | ||
Antibody-targeted liposomes: increase in specific toxicity of methotrexate-gamma-aspartate | Q37605346 | ||
Sterically stabilized liposomes: improvements in pharmacokinetics and antitumor therapeutic efficacy | Q37650345 | ||
Delivery to cancer cells of antisense L-myc oligonucleotides incorporated in fusogenic, cationic-lipid-reconstituted influenza-virus envelopes (cationic virosomes). | Q38334893 | ||
Anti-HER2 immunoliposomes for targeted therapy of human tumors. | Q38340086 | ||
Design, synthesis, and characterization of a cationic peptide that binds to nucleic acids and permeabilizes bilayers. | Q38347812 | ||
Proton-induced fusion of oleic acid-phosphatidylethanolamine liposomes | Q38590583 | ||
Catecholamine uptake and concentration by liposomes maintaining pH gradients | Q39121313 | ||
Use of reconstituted influenza virus virosomes as an immunopotentiating delivery system for a peptide-based vaccine | Q39372910 | ||
Lipid intermolecular hydrogen bonding: influence on structural organization and membrane function | Q39668638 | ||
Lipid polymorphism and the functional roles of lipids in biological membranes | Q39840976 | ||
Vesicular stomatitis virus glycoprotein mutations that affect membrane fusion activity and abolish virus infectivity. | Q39869009 | ||
Fluorescence ratio imaging of interstitial pH in solid tumours: effect of glucose on spatial and temporal gradients | Q40027855 | ||
A physicochemical approach for predicting the effectiveness of peptide-based gene delivery systems for use in plasmid-based gene therapy | Q40121811 | ||
Membrane fusion proteins of enveloped animal viruses | Q40164521 | ||
Disintegration of phosphatidylcholine liposomes in plasma as a result of interaction with high-density lipoproteins | Q40169960 | ||
Interaction between unilamellar egg yolk lecithin vesicles and human high density lipoprotein | Q40208485 | ||
Amphiphilic peptides enhance the efficiency of liposome-mediated DNA transfection | Q40226407 | ||
Phase transitions and phase separations in phospholipid membranes induced by changes in temperature, pH, and concentration of bivalent cations | Q40303683 | ||
Preferred conformation and molecular packing of phosphatidylethanolamine and phosphatidylcholine | Q40310846 | ||
The folate receptor works in tandem with a probenecid-sensitive carrier in MA104 cells in vitro | Q40340486 | ||
Liposome-mediated cytoplasmic delivery of proteins: an effective means of accessing the MHC class I-restricted antigen presentation pathway | Q40568770 | ||
Cytosine arabinoside influx and nucleoside transport sites in acute leukemia | Q40684781 | ||
Stability of liposomal doxorubicin formulations: problems and prospects | Q40840462 | ||
Design of Liposomes for Enhanced Local Release of Drugs by Hyperthermia | Q40872200 | ||
A chimeric fusion protein containing transforming growth factor-alpha mediates gene transfer via binding to the EGF receptor | Q41036764 | ||
Cellular retention of liposome-delivered anionic compounds modulated by a probenecid-sensitive anion transporter | Q41084509 | ||
Membrane destabilization by N-terminal peptides of viral envelope proteins | Q41085283 | ||
Non-bilayer lipids and biological fusion intermediates | Q41114315 | ||
Influence of membrane-active peptides on lipospermine/DNA complex mediated gene transfer. | Q41123524 | ||
Intracellular distribution and mechanism of delivery of oligonucleotides mediated by cationic lipids | Q41170129 | ||
Interaction of tetanus toxin with lipid vesicles. Effects of pH, surface charge, and transmembrane potential on the kinetics of channel formation | Q41194770 | ||
Homodimeric Association of the Spike Glycoproteins G1 and G2 of Uukuniemi Virus | Q41316923 | ||
Engineered liposomes and virosomes for delivery of macromolecules | Q41328034 | ||
Cellular cytoplasmic delivery of a polypeptide toxin by reconstituted influenza virus envelopes (virosomes). | Q41449059 | ||
Immunoliposomes for Cancer Treatment | Q41526933 | ||
In vitro cytotoxicity of liposome-encapsulated doxorubicin: dependence on liposome composition and drug release | Q41607838 | ||
Influence of pH gradients on the transbilayer transport of drugs, lipids, peptides and metal ions into large unilamellar vesicles | Q41608176 | ||
Fusion activity of flaviviruses: comparison of mature and immature (prM-containing) tick-borne encephalitis virions | Q41682471 | ||
New detachable poly(ethylene glycol) conjugates: cysteine-cleavable lipopolymers regenerating natural phospholipid, diacyl phosphatidylethanolamine | Q41692785 | ||
Thermosensitive sterically stabilized liposomes: formulation and in vitro studies on mechanism of doxorubicin release by bovine serum and human plasma | Q46763113 | ||
N-succinyldioleoylphosphatidylethanolamine: structural preferences in pure and mixed model membranes | Q47591096 | ||
Evidence for the modulation of Pseudomonas aeruginosa exotoxin A-induced pore formation by membrane surface charge density | Q47650205 | ||
pH-dependent fusion of liposomes using titratable polycations | Q48552920 | ||
The fusion of artificial lipid membranes induced by the synthetic arenavirus 'fusion peptide' | Q50240173 | ||
pH-dependent membrane fusion and vesiculation of phospholipid large unilamellar vesicles induced by amphiphilic anionic and cationic peptides. | Q50795412 | ||
pH-dependent bilayer destabilization by an amphipathic peptide. | Q50902539 | ||
The accumulation of drugs within large unilamellar vesicles exhibiting a proton gradient: a survey. | Q51739405 | ||
The effect of surface charge on the hydrolysis kinetics of partially hydrogenated egg phosphatidylcholine and egg phosphatidylglycerol in aqueous liposome dispersions. | Q52399110 | ||
Gene transfer into hepatocytes using asialoglycoprotein receptor mediated endocytosis of DNA complexed with an artificial tetra-antennary galactose ligand. | Q52478451 | ||
Application of membrane-active peptides for drug and gene delivery across cellular membranes. | Q52539463 | ||
Polyhistidine mediates an acid-dependent fusion of negatively charged liposomes. | Q52688338 | ||
Phase transitions in phospholipid vesicles Fluorescence polarization and permeability measurements concerning the effect of temperature and cholesterol | Q52938610 | ||
Aggregation and fusion of lipid vesicles induced by diphtheria toxin at low pH: possible involvement of the P site and the NAD+ binding site. | Q53758098 | ||
Role of cholesterol in the stability of pH-sensitive, large unilamellar liposomes prepared by the detergent-dialysis method. | Q54351564 | ||
Transfer of condensed viral DNA into eukaryotic cells using proteoliposomes. | Q54386892 | ||
Amphipathic polyethyleneglycols effectively prolong the circulation time of liposomes | Q56386325 | ||
Elastase activated liposomal delivery to nucleated cells | Q57188971 | ||
Poly(ethylene glycol)-lipid conjugates promote bilayer formation in mixtures of non-bilayer-forming lipids | Q57189551 | ||
Effects of lysophosphatidylcholines on phosphatidylcholine and phosphatidylcholine/cholesterol liposome systems as revealed by 31P-NMR, electron microscopy and permeability studies | Q57190655 | ||
Interactions of liposomes and hydrophobically-modified poly-(N-isopropylacrylamides): an attempt to model the cytoskeleton | Q57355988 | ||
Temperature-controlled release property of phospholipid vesicles bearing a thermo-sensitive polymer | Q57355991 | ||
Temperature-sensitive liposomes: liposomes bearing poly (N-isopropylacrylamide) | Q57356621 | ||
Destabilization of cationic lipid vesicles by an anionic hydrophobically modified poly(N-isopropylacrylamide) copolymer: a solid-state 31P NMR and 2H NMR study | Q57357663 | ||
Modification of liposomes with N-substituted polyacrylamides: identification of proteins adsorbed from plasma | Q57357669 | ||
Contribution of Hydrogen Bonding to the Association of Liposomes and an Anionic Hydrophobically Modified Poly(N-isopropylacrylamide)† | Q57361306 | ||
Synthesis and Characterization of a Hydrophobically Modified Copolymer ofN-Isopropylacrylamide and Glycinyl Acrylamide | Q57362716 | ||
Temperature-Sensitivity of Liposomal Lipid Bilayers Mixed with Poly(N-Isopropylacrylamide-co-acrylic Acid) | Q57369929 | ||
Enzyme replacement via liposomes variations in lipid composition determine liposomal integrity in biological fluids | Q57731319 | ||
Interactions of colicin A domains with phospholipid monolayers and liposomes relevance to the mechanism of action | Q58197694 | ||
Graft copolymers that exhibit temperature-induced phase transitions over a wide range of pH | Q59049627 | ||
Solution Properties of Poly(N-isopropylacrylamide) | Q60670598 | ||
Targeting of Drugs to Solid Tumors Using Anti-Her2 Immunoliposomes | Q62101006 | ||
Targeting of Liposomes to Solid Tumors: The Case of Sterically Stabilized Anti-Her2 Immunoliposomes | Q62101032 | ||
Diphtheria toxin induces leakage of acidic liposomes | Q62140008 | ||
A Polymer-Triton X-100 Conjugate Capable of PH-Dependent Red Blood Cell Lysis: A Model System Illustrating the Possibility of Drug Delivery Within Acidic Intracellular Compartments | Q63413797 | ||
Poly(amidoamine)s with potential as drug carriers: degradation and cellular toxicity | Q63413812 | ||
Effects of membrane-active agents in gene delivery | Q64381942 | ||
Stability of liposomes invivo and invitro is promoted by their cholesterol content and the presence of blood cells | Q66954982 | ||
Interaction between oleic acid-containing pH-sensitive and plain liposomes. Fluorescent spectroscopy studies | Q67480772 | ||
Membrane fusion | Q67584890 | ||
Triggered release of hydrophilic agents from plasmalogen liposomes using visible light or acid | Q68017325 | ||
Versatility in lipid compositions showing prolonged circulation with sterically stabilized liposomes | Q68126326 | ||
Some negatively charged phospholipid derivatives prolong the liposome circulation in vivo | Q68222160 | ||
P433 | issue | 5 | |
P921 | main subject | drug delivery | Q1392806 |
P304 | page(s) | 409-460 | |
P577 | publication date | 2000-09-01 | |
P1433 | published in | Progress in Lipid Research | Q15757018 |
P1476 | title | Current status of pH-sensitive liposomes in drug delivery | |
P478 | volume | 39 |
Q48180722 | A Hollow NaGdF4 /AFn Nanosystem Based on "Relay Race" Release for Therapy |
Q47129888 | A dual-channel endoscope for quantitative imaging, monitoring, and triggering of doxorubicin release from liposomes in living mice |
Q49292594 | A microfluidic device for the delivery of enzymes into cells by liposome fusion |
Q44052380 | A novel pH-sensitive liposome formulation containing oleyl alcohol |
Q50881377 | A remote controlled valve in liposomes for triggered liposomal release. |
Q38187681 | A review of mechanistic insight and application of pH-sensitive liposomes in drug delivery |
Q35564513 | A single multifunctional nanoplatform based on upconversion luminescence and gold nanorods. |
Q41168991 | Acid-triggered transformation of diortho ester phosphocholine liposome |
Q39596127 | Activity of different anthracycline formulations in hormone-refractory prostate cancer cell lines: role of Golgi apparatus |
Q57904295 | Automated laboratory based X-ray beamline with multi-capillary sample chamber |
Q37679156 | Bioengineered nanoparticles for siRNA delivery |
Q38417345 | Bioinspired nanoreactors for the biomineralisation of metallic-based nanoparticles for nanomedicine |
Q36452643 | Biomimetic surface engineering of lanthanide-doped upconversion nanoparticles as versatile bioprobes |
Q36978824 | Breaking the bonds: non-viral vectors become chemically dynamic |
Q40142062 | Cellular association and cytotoxicity of doxorubicin-loaded immunoliposomes targeted via Fab' fragments of an anti-CD74 antibody |
Q37993466 | Challenges in development of targeted liposomal therapeutics |
Q28468315 | Chemophototherapy: An Emerging Treatment Option for Solid Tumors |
Q34207338 | Comparative effects of thermosensitive doxorubicin-containing liposomes and hyperthermia in human and murine tumours |
Q36793206 | Complexes containing cationic and anionic pH-sensitive liposomes: comparative study of factors influencing plasmid DNA gene delivery to tumors |
Q34300644 | Controlled self-assembly by mono-p-sulfonatocalix[n]arenes and bis-p-sulfonatocalix[n]arenes. |
Q57645149 | Converging layer-by-layer polyelectrolyte microcapsule and cubic lyotropic liquid crystalline nanoparticle approaches for molecular encapsulation |
Q38729056 | Conveying a newly designed hydrophilic anti-human thymidylate synthase peptide to cisplatin resistant cancer cells: are pH-sensitive liposomes more effective than conventional ones? |
Q40661104 | Cytosolic delivery of macromolecules: I. Synthesis and characterization of pH-sensitive acyloxyalkylimidazoles |
Q57351064 | Design and development of pH-sensitive liposomes by evaluating the thermotropic behavior of their chimeric bilayers |
Q45892872 | Determination of nanostructure of liposomes containing two model drugs by X-ray scattering from a synchrotron source |
Q36278952 | Doxorubicin encapsulated in stealth liposomes conferred with light-triggered drug release. |
Q36920351 | Doxorubicin loaded pH-sensitive micelle: antitumoral efficacy against ovarian A2780/DOXR tumor. |
Q36316921 | Drug delivery strategies for cathepsin inhibitors in joint diseases |
Q35058921 | Drug delivery strategy utilizing conjugation via reversible disulfide linkages: role and site of cellular reducing activities |
Q38063945 | Drug delivery systems: Advanced technologies potentially applicable in personalized treatments |
Q27012856 | Echographic imaging of tumoral cells through novel nanosystems for image diagnosis. |
Q38900945 | Efficacious redox-responsive gene delivery in serum by ferrocenylated monomeric and dimeric cationic cholesterols. |
Q51263026 | Endocytosis Mechanism of Nano Metal-Organic Frameworks for Drug Delivery. |
Q35916173 | Endosomal escape and transfection efficiency of PEGylated cationic liposome-DNA complexes prepared with an acid-labile PEG-lipid. |
Q45856593 | Enhanced protein internalization and efficient endosomal escape using polyampholyte-modified liposomes and freeze concentration |
Q37520625 | Enhanced transfection efficiency of a systemically delivered tumor-targeting immunolipoplex by inclusion of a pH-sensitive histidylated oligolysine peptide |
Q37799614 | Enzyme-triggered nanomedicine: drug release strategies in cancer therapy. |
Q36555626 | Exploring the role of polymer structure on intracellular nucleic acid delivery via polymeric nanoparticles. |
Q48168207 | Far infrared spectroscopy of hydrogen bonding collective motions in complex molecular systems. |
Q36077599 | Formation of droplet networks that function in aqueous environments |
Q57838410 | Formation, stability, and pH sensitivity of free-floating, giant unilamellar vesicles using palmitic acid–cholesterol mixtures |
Q44709519 | Fourier transformed spectral bio-imaging for studying the intracellular fate of liposomes |
Q37166374 | Functional lipids and lipoplexes for improved gene delivery. |
Q38396298 | Functional liposomes in the cancer-targeted drug delivery. |
Q41239588 | Glucosomes: Glycosylated Vesicle-in-Vesicle Aggregates in Water from pH-Responsive Microbial Glycolipid |
Q35899936 | Hydrodynamic interactions of deformable polymeric nanocarriers and the effect of crosslinking |
Q37167336 | Imaging characteristics of zinc sulfide shell, cadmium telluride core quantum dots |
Q46629942 | Improved preparation of PEG-diortho ester-diacyl glycerol conjugates |
Q30665894 | In situ formation of magnetopolymersomes via electroporation for MRI. |
Q38004708 | In vivo gene delivery by nonviral vectors: overcoming hurdles? |
Q36247075 | Influence of polymer size, liposomal composition, surface charge, and temperature on the permeability of pH-sensitive liposomes containing lipid-anchored poly(2-ethylacrylic acid). |
Q46477273 | Interaction of pH-sensitive non-phospholipid liposomes with cellular mimetic membranes. |
Q41629194 | Interactions between pH-sensitive liposomes and model membranes |
Q40650255 | Intracellular delivery of ceramide lipids via liposomes enhances apoptosis in vitro |
Q35157616 | Ligand-targeted liposomal anticancer drugs |
Q36062119 | Lipid based particulate formulations for the delivery of antigen. |
Q52725104 | Lipid-Based Particles: Versatile Delivery Systems for Mucosal Vaccination against Infection. |
Q37670986 | Lipid-based nanotherapeutics for siRNA delivery |
Q37668583 | Liposomal Nanoparticles Carrying anti-IL6R Antibody to the Tumour Microenvironment Inhibit Metastasis in Two Molecular Subtypes of Breast Cancer Mouse Models |
Q37679954 | Liposomal cancer therapy: exploiting tumor characteristics |
Q38806793 | Liposomal drug delivery systems for targeted cancer therapy: is active targeting the best choice? |
Q42705145 | Liposome technology for industrial purposes |
Q35595419 | Liposome-based approaches to overcome anticancer drug resistance |
Q36554124 | Liposomes as targeted drug delivery systems in the treatment of breast cancer |
Q93956736 | Literature alerts |
Q92145740 | Loading and Releasing Ciprofloxacin in Photoactivatable Liposomes |
Q38049024 | Mathematical modeling of vesicle drug delivery systems 1: vesicle formation and stability along with drug loading and release |
Q92940334 | Mechanical Stability of Lipid Membranes Decorated with Dextran Sulfate |
Q34180623 | Mechanism of pH-triggered collapse of phosphatidylethanolamine liposomes stabilized by an ortho ester polyethyleneglycol lipid |
Q50935948 | Mechanisms of Light-induced Liposome Permeabilization. |
Q39388041 | Mesostructured chitosan-silica hybrid as a biodegradable carrier for a pH-responsive drug delivery system |
Q64238127 | Modification of fliposomes with a polycation can enhance the control of pH-induced release |
Q35116121 | Molecular-genetic imaging of cancer |
Q36969145 | Multifunctional nanoparticulate polyelectrolyte complexes |
Q37508725 | Nanocarriers' entry into the cell: relevance to drug delivery |
Q36942446 | Nanogel-Conjugated Reverse Transcriptase Inhibitors and Their Combinations as Novel Antiviral Agents with Increased Efficacy against HIV-1 Infection |
Q37426991 | Nanotechnology for delivery of drugs to the brain for epilepsy |
Q37058812 | Nanovehicular intracellular delivery systems |
Q85173990 | New pH-sensitive liposomes containing phosphatidylethanolamine and a bacterial dirhamnolipid |
Q34003800 | Next generation delivery system for proteins and genes of therapeutic purpose: why and how? |
Q28080632 | Nonenzymatic Reactions above Phospholipid Surfaces of Biological Membranes: Reactivity of Phospholipids and Their Oxidation Derivatives |
Q40509566 | Novel cationic lipids incorporating an acid-sensitive acylhydrazone linker: synthesis and transfection properties |
Q50497275 | One-step synthesis of small-sized and water-soluble NaREF4 upconversion nanoparticles for in vitro cell imaging and drug delivery. |
Q38020769 | Particulate systems for targeting of macrophages: basic and therapeutic concepts. |
Q36908719 | Pharmacokinetic, biodistribution and therapeutic efficacy of 5-fluorouracil-loaded pH-sensitive PEGylated liposomal nanoparticles in HCT-116 tumor bearing mouse |
Q39043619 | Plasma stable, pH-sensitive fusogenic polymer-modified liposomes: A promising carrier for mitoxantrone. |
Q39058091 | Plasma stable, pH-sensitive non-ionic surfactant vesicles simultaneously enhance antiproliferative effect and selectivity of Sirolimus |
Q57378079 | Polyacrylic Acid Modifies Local and Lateral Mobilities in Lipid Membranes |
Q40710913 | Polymer based pH-sensitive carriers as a means to improve the cytoplasmic delivery of drugs |
Q64972321 | Preparation and Characterization of Electrostatically Crosslinked Polymer⁻Liposomes in Anticancer Therapy. |
Q36442116 | Preparation and characterization of stable pH-sensitive vesicles composed of α-tocopherol hemisuccinate |
Q42767195 | Properties regulating the nature of the plasmacytoid dendritic cell response to Toll-like receptor 9 activation |
Q37805491 | Properties, engineering and applications of lipid-based nanoparticle drug-delivery systems: current research and advances |
Q43260853 | Quantitative high-performance thin-layer chromatography determination of common liposome components and critical parameters influencing the analysis results |
Q33765349 | RODENT STROKE MODEL GUIDELINES FOR PRECLINICAL STROKE TRIALS (1ST EDITION). |
Q36001035 | Rapid Light-Triggered Drug Release in Liposomes Containing Small Amounts of Unsaturated and Porphyrin-Phospholipids |
Q34006151 | Rattle-type hollow CaWO4:Tb(3+)@SiO2 nanocapsules as carriers for drug delivery |
Q36293288 | Recent advances in non-viral gene delivery |
Q37197375 | Recent progress in tumor pH targeting nanotechnology |
Q30456053 | Recent trends in multifunctional liposomal nanocarriers for enhanced tumor targeting |
Q42939121 | Recombinant Immunotoxin Therapy of Solid Tumors: Challenges and Strategies |
Q36771350 | Release mechanisms for polyelectrolyte capsules |
Q44031108 | Self-assembled hydrogel nanoparticles responsive to tumor extracellular pH from pullulan derivative/sulfonamide conjugate: characterization, aggregation, and adriamycin release in vitro |
Q80149584 | Sterically stabilized ph-sensitive liposomes |
Q50060960 | Stimulus-responsive liposomes as smart nanoplatforms for drug delivery applications |
Q38182668 | Strategies for drug delivery to the central nervous system by systemic route |
Q38116638 | Strategies for triggered drug release from tumor targeted liposomes |
Q58742505 | Strategies to Encapsulate the Bacteriophage phiIPLA-RODI |
Q36988355 | Surface-active liposomes for targeted cancer therapy |
Q35193987 | Synthesis and characterization of lipid-polymer hybrid nanoparticles with pH-triggered poly(ethylene glycol) shedding. |
Q39263297 | TRAIL-NP hybrids for cancer therapy: a review. |
Q51749858 | Targeted paclitaxel delivery to tumors using cleavable PEG-conjugated solid lipid nanoparticles. |
Q37930418 | Targeting ischemic penumbra Part II: selective drug delivery using liposome technologies |
Q43026319 | Temperature-controlled supramolecular vesicles modulated by p-sulfonatocalix[5]arene with pyrene. |
Q39640316 | Templating synthesis of preloaded Doxorubicin in hollow mesoporous silica nanospheres for biomedical applications. |
Q45280310 | Thiocholesterol-based lipids for ordered assembly of bioresponsive gene carriers |
Q37848296 | Topical and mucosal liposomes for vaccine delivery. |
Q37972351 | Trigger release liposome systems: local and remote controlled delivery? |
Q44133672 | Triggered release of doxorubicin following mixing of cationic and anionic liposomes |
Q73124685 | Tumor-cell targeted epiderimal growth factor liposomes loaded with boronated acridine: uptake and processing |
Q36293302 | What role can chemistry play in cationic liposome-based gene therapy research today? |
Q39499046 | pDNA-lipoplexes engrafted with flagellin-related peptide induce potent immunity and anti-tumour effects |
Q38794157 | pH sensitive coiled coils: a strategy for enhanced liposomal drug delivery |
Q42953897 | pH-Triggered Release from Nonphospholipid LUVs Modulated by the pKa of the Included Fatty Acid |
Q57363827 | pH-responsive mitoxantrone (MX) delivery using mesoporous silica nanoparticles (MSN) |
Q38136240 | pH-sensitive liposomes for drug delivery in cancer treatment. |
Q44650970 | pH-sensitive liposomes in nuclear targeting of macromolecules |
Q36790100 | pH-sensitive liposomes--principle and application in cancer therapy |
Q43774578 | pH-sensitive nanoparticles of poly(amino acid) dodecanoate complexes |
Q41629181 | pH-sensitive paramagnetic liposomes for MRI: assessment of stability in blood |
Q54724915 | γ-Amino acid mutated α-coiled coils as mild thermal triggers for liposome delivery. |
Search more.