Ion channels as molecular coulter counters to probe metabolite transport.
about
Nanopores: maltoporin channel as a sensor for maltodextrin and lambda-phageCharacterization of protein unfolding with solid-state nanoporesSelective individual primary cell capture using locally bio-functionalized microporesDynamics of nucleotides in VDAC channels: structure-specific noise generationSize-dependent forced PEG partitioning into channels: VDAC, OmpC, and α-hemolysinImpact of distant charge reversals within a robust beta-barrel protein porePartitioning of individual flexible polymers into a nanoscopic protein pore.Cosegregation of permeability and single-channel conductance in chimeric connexins.A novel, fast, HMM-with-Duration implementation - for application with a new, pattern recognition informed, nanopore detectorNanopore Detector based analysis of single-molecule conformational kinetics and binding interactions.Support vector machine implementations for classification & clusteringNanopore current transduction analysis of protein binding to non-terminal and terminal DNA regions: analysis of transcription factor binding, retroviral DNA terminus dynamics, and retroviral integrase-DNA bindingThe alpha-hemolysin nanopore transduction detector - single-molecule binding studies and immunological screening of antibodies and aptamers.Hydrogen Peroxide Sensing Based on Inner Surfaces Modification of Solid-State Nanopore.Exploring transmembrane transport through alpha-hemolysin with grid-steered molecular dynamics.Partitioning of a polymer into a nanoscopic protein pore obeys a simple scaling law.Effect of charge, topology and orientation of the electric field on the interaction of peptides with the α-hemolysin pore.Permeation through the cell membrane of a boron-based β-lactamase inhibitor.Deciphering ionic current signatures of DNA transport through a nanopore.Single-molecule observation of protein adsorption onto an inorganic surface.Designed to penetrate: time-resolved interaction of single antibiotic molecules with bacterial pores.Stochastic sensors inspired by biology.Transport of maltodextrins through maltoporin: a single-channel study.Partitioning of differently sized poly(ethylene glycol)s into OmpF porinTranslocation of rodlike polymers through membrane channelsDynamics of DNA molecules in a membrane channel probed by active control techniques.Residue ionization and ion transport through OmpF channels.Accessibility of cx46 hemichannels for uncharged molecules and its modulation by voltage.Field-dependent effect of crown ether (18-crown-6) on ionic conductance of alpha-hemolysin channelsInteraction of zwitterionic penicillins with the OmpF channel facilitates their translocation.Solid-state nanopore for detecting individual biopolymers.Multiplexed ionic current sensing with glass nanopores.Rectification of the current in alpha-hemolysin pore depends on the cation type: the alkali series probed by MD simulations and experimentsThe effect of translocating cylindrical particles on the ionic current through a nanoporeMonitoring protein adsorption with solid-state nanoporesLocation of a constriction in the lumen of a transmembrane pore by targeted covalent attachment of polymer molecules.Sizing the protein translocation pathway of colicin Ia channels.Inspection of the engineered FhuA ΔC/Δ4L protein nanopore by polymer exclusion.Current concepts in nuclear pore electrophysiology.Sampling a biomarker of the human immunodeficiency virus across a synthetic nanopore
P2860
Q24804490-6000EA31-3C04-42CC-9334-565AE43ABE10Q27009998-C69BB13F-06EA-41C7-8033-CCEE3250D27AQ27312429-E860A339-8478-480B-8403-D59CE567B1F1Q28366849-259DAD82-05C4-43AC-A2D6-CC53A5231523Q30152748-2E26CB06-AED7-4CB7-9EAA-6DE707F544C9Q30156821-A886757A-BCB2-4A8D-89E2-35BC95ED263EQ30164605-39F8DDBC-2CB5-4AFA-98E5-ED293E3C9135Q30476803-AC06169E-4715-4D6B-B0C6-28E77B0EFB30Q30499623-DFB2DC42-3713-409E-BA21-311671336994Q33264203-BF0AF65D-5998-4C94-8C85-5190E415723CQ33264205-FF6B4A07-A344-456C-B054-5EC50D42191AQ33307836-1F63DD8F-4264-43F8-821B-E607B8C247D6Q33307867-11F72CB0-98C2-401C-914B-751DC9120B2DQ33818656-0D6F2C89-308C-4654-8351-E856583EDAEFQ33924818-64938A6C-241C-446E-8D8E-799400022917Q33943002-709D15CF-5C5A-4FE3-A6DE-CE6929D03E71Q33964139-FA7F0A9D-27FD-4907-9331-3EA95A9996EFQ33999238-9D804945-291E-4B7F-8B8E-FAF1939ACFE6Q34018554-433965DA-8077-45D5-BFB3-8B3689D9A224Q34048996-C6E1A4EB-FA65-4F79-982E-6E208A4A15A9Q34075592-16AF3D5C-56DE-440E-B707-7A687B978B78Q34091345-E2BB21EA-0C19-42DF-973E-7A0ABF828DD4Q34177184-815AFE8F-A813-4247-B873-C412E570B264Q34179668-4EA92E60-0654-4300-AE87-07F78EF2CD76Q34180299-9091B39C-1ABF-4152-BBA0-FA1A045A4231Q34180841-F0168717-B074-4C19-97B1-39D61823D2DBQ34183932-284F7BB0-213A-4D7B-851C-CD4CEC00DC10Q34184969-E2319AC3-668E-4414-A2D9-26D25ACE4D8BQ34187663-DA644DFB-AB67-4A2C-B10F-10ED37BC478FQ34354272-6148EFA5-C47C-453F-B570-4F43F8DE68D8Q34568789-E9764D27-BCD7-486E-BD7E-F931021F7D78Q34657448-62F29424-BD21-4B37-99D0-E68752C8C15BQ35171840-D4ACDA30-4834-4352-8A3F-920BA7870F98Q35613626-639CD7C3-1AF4-42AD-B7D9-BCF33AB37213Q35964187-B1E3F3D5-CA92-4961-9C4A-6361A9C019A6Q36427252-7EDCE961-937B-416B-ADBB-9F248FFE818BQ36436522-1D118C7C-2904-4862-88C8-1D190E0F28DFQ36439499-5917CA2C-E815-47DE-98F0-4D5B6495FFA8Q36562717-F1D6FFAF-4D2A-4D90-A91C-C5789BEB00EBQ36791394-F9BDE863-0207-4CFE-90A2-C83315DAFD36
P2860
Ion channels as molecular coulter counters to probe metabolite transport.
description
2000 nî lūn-bûn
@nan
2000 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի մարտին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Ion channels as molecular coulter counters to probe metabolite transport.
@ast
Ion channels as molecular coulter counters to probe metabolite transport.
@en
type
label
Ion channels as molecular coulter counters to probe metabolite transport.
@ast
Ion channels as molecular coulter counters to probe metabolite transport.
@en
prefLabel
Ion channels as molecular coulter counters to probe metabolite transport.
@ast
Ion channels as molecular coulter counters to probe metabolite transport.
@en
P356
P1476
Ion channels as molecular coulter counters to probe metabolite transport.
@en
P2093
Bezrukov SM
P2888
P356
10.1007/S002320001026
P577
2000-03-01T00:00:00Z
P5875
P6179
1037333164