about
Aquaporin-Based Biomimetic Polymeric Membranes: Approaches and ChallengesSimple surface functionalization of polymersomes using non-antibacterial peptide anchorsEngineering of the E. coli outer membrane protein FhuA to overcome the hydrophobic mismatch in thick polymeric membranesReal-time observations of single bacteriophage lambda DNA ejections in vitroInternal DNA pressure modifies stability of WT phage.Classification of 17 newly isolated virulent bacteriophages of Pseudomonas aeruginosa.Measurements of DNA lengths remaining in a viral capsid after osmotically suppressed partial ejection.Dynamics of DNA ejection from bacteriophage.Osmotic pressure inhibition of DNA ejection from phage.Dynamic Cellular Adhesion Mediated by Copolymeric Nanofilm Substrates.Sensing-applications of surface-based single vesicle arraysApproaches to enhance the efficacy of DNA vaccines.Synthetic biomimetic membranes and their sensor applicationsClickable Amphiphilic Triblock Copolymers.Effects of salt concentrations and bending energy on the extent of ejection of phage genomesDetermination of pore sizes and relative porosity in porous nanoshell architectures using dextran retention with single monomer resolution and proton permeationControlling water transport through artificial polymer/protein hybrid membranes.Highly permeable polymeric membranes based on the incorporation of the functional water channel protein Aquaporin Z.Poly(2-oxazoline)s as polymer therapeutics.DNA bending-induced phase transition of encapsidated genome in phage λ.Self-assembling materials for therapeutic delivery.Polymersome carriers: from self-assembly to siRNA and protein therapeutics.Shape effects of filaments versus spherical particles in flow and drug delivery.Protein delivery: from conventional drug delivery carriers to polymeric nanoreactors.Recent trends in the tuning of polymersomes' membrane properties.Can polymeric vesicles that confine enzymatic reactions act as simplified organelles?Protein-polymer nanoreactors for medical applications.Synthetic biology, inspired by synthetic chemistry.Progressive macromolecular self-assembly: from biomimetic chemistry to bio-inspired materials.Emerging Applications of Polymersomes in Delivery: from Molecular Dynamics to Shrinkage of Tumors.The effect of genome length on ejection forces in bacteriophage lambda.Polymeric 3D nano-architectures for transport and delivery of therapeutically relevant biomacromolecules.Durable vesicles for reconstitution of membrane proteins in biotechnologyNanotherapy for Duchenne muscular dystrophy.A kinetic analysis of DNA ejection from tailed phages revealing the prerequisite activation energy.Oriented insertion of phi29 N-hexahistidine-tagged gp10 connector protein assemblies into C20BAS bolalipid membrane vesiclesWet nanoscale imaging and testing of polymersomes.Dynamic and static light scattering analysis of DNA ejection from the phage lambda.Polymer nanoreactors shown to produce and release antibiotics locally.Co-assembly behaviour of Janus nanoparticles and amphiphilic block copolymers in dilute solution.
P2860
Q26799172-D9656941-60B8-429F-92E0-E3118180A08EQ28829263-7F09C911-FA9C-4765-B14F-2BC5833A6928Q30155616-228940F0-34FD-4528-A3AD-9BC156A4C303Q30480045-908B45C7-EB84-4393-BA33-F24B336EB87DQ33286113-C2D47BB2-8501-4C8B-8FB2-2109A2B95A14Q33746414-D5F2D976-C30E-4B79-909C-C9ACDCB415BFQ34188653-F72446DD-FB30-498E-9651-2247E9495F01Q34698689-EAFF8DA5-D773-4189-9CD2-B71E83F3D129Q35234453-C891E8D4-B8E4-4D66-BDB6-FB9A67A5871DQ35454209-3EAAC8BA-18FA-4EB4-B2D0-004E43A26E45Q35593723-D8848049-73F8-46EC-A969-4CF2A9F76FD9Q35743279-440A7C0E-2389-4B2C-B431-968272FEC7FAQ36239159-0036193B-17A8-4BB5-B3AF-CBAB8CCE5FDBQ36340925-46CC6D2D-6F50-41C4-AC56-913C3162C184Q36344961-9D4883C9-A33D-49BA-A763-E448065C2FF3Q36413001-D0B86136-B5D2-4580-801A-120208535457Q36693235-3AA3B014-3D56-4DF1-87DB-4CDF5D312FB3Q36696305-3F9E8043-F5A6-469D-958F-69606A4EACD5Q36716915-8FE1952B-B9FF-4257-B201-D7F14A95303AQ36783615-49B2D726-0E77-4F46-A998-E6AE31987BA6Q37310864-D53B6EE3-4294-4016-BF71-41909A7A1BAFQ37314709-F510F396-1CBF-4B8A-9B83-8C845B434F33Q37338776-C4EAFCC8-FB7B-48B4-9728-93007D4F6320Q37644500-8509E342-9FDE-453C-BAB1-08A29137C931Q37845254-44D657D7-322D-4E0D-8DF8-52A1FFB0BA64Q37874742-8AC0D8FE-854F-4832-B529-DD0FAF19C18BQ37956493-995642D2-8C95-4CC9-B4F9-DFF790F2FF26Q38018757-C701FEE9-F3E3-4148-BB2D-96B37B0599F2Q38136156-CD251E04-81E4-4823-88C0-7206F5047ADAQ38201455-E6F0F518-423B-4CF6-A6E3-27F25BE67EF7Q38544696-176B1C17-18C1-4413-9F20-188A4B7F7E38Q38555019-4FA98CD3-F7FA-44A9-B2F3-594651B3B0E7Q39137307-5E068C81-F7A7-4953-866E-2683F9FFD6F3Q39233936-449860FF-BC0F-47E6-8745-D227B26FC6A7Q40320442-C46DE011-5A2E-4288-AB3E-EEBC7D585DE9Q41354345-025F46D8-A1FD-4E0A-A6EC-9138CB749785Q42547546-254316F5-9639-4DE8-99A0-B1E4BB25DD46Q44005071-32DD90AD-3104-4EA6-ABB5-1B6F127DCD33Q45299588-F2FFAE2B-5116-4B8F-878E-D869555D8471Q47759053-BD790E97-5100-42C0-93AD-753B0F45E859
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի մարտին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Virus-assisted loading of polymer nanocontainer
@ast
Virus-assisted loading of polymer nanocontainer
@en
Virus-assisted loading of polymer nanocontainer
@nl
type
label
Virus-assisted loading of polymer nanocontainer
@ast
Virus-assisted loading of polymer nanocontainer
@en
Virus-assisted loading of polymer nanocontainer
@nl
prefLabel
Virus-assisted loading of polymer nanocontainer
@ast
Virus-assisted loading of polymer nanocontainer
@en
Virus-assisted loading of polymer nanocontainer
@nl
P2093
P2860
P356
P1476
Virus-assisted loading of polymer nanocontainer
@en
P2093
Alexandra Graff
Marc Sauer
Patrick Van Gelder
Wolfgang Meier
P2860
P304
P356
10.1073/PNAS.062654499
P407
P577
2002-03-26T00:00:00Z