Gating the bacterial mechanosensitive channel MscL invivo.
about
Mechanosensitive channels: what can they do and how do they do it?The role of lipids in mechanosensation.Loss-of-function mutations at the rim of the funnel of mechanosensitive channel MscLBreaking the hydrophobicity of the MscL pore: insights into a charge-induced gating mechanismThe gating mechanism of the bacterial mechanosensitive channel MscL revealed by molecular dynamics simulations: from tension sensing to channel openingThree-dimensional architecture of membrane-embedded MscS in the closed conformationLipid bilayer pressure profiles and mechanosensitive channel gating.Defining the physical gate of a mechanosensitive channel, MscL, by engineering metal-binding sites.Genetic models of mechanotransduction: the nematode Caenorhabditis elegans.An in vivo screen reveals protein-lipid interactions crucial for gating a mechanosensitive channel.Temperature-independent porous nanocontainers for single-molecule fluorescence studies.Lipid-protein interaction of the MscS mechanosensitive channel examined by scanning mutagenesis.Mechanosensitive channel gating transitions resolved by functional changes upon pore modification.Disulfide trapping the mechanosensitive channel MscL into a gating-transition state.Three routes to modulate the pore size of the MscL channel/nanovalveAn in vivo assay identifies changes in residue accessibility on mechanosensitive channel gating.The MscS and MscL families of mechanosensitive channels act as microbial emergency release valves.Interaction between the cytoplasmic and transmembrane domains of the mechanosensitive channel MscS.On the structure of the N-terminal domain of the MscL channel: helical bundle or membrane interfaceImproving the Design of a MscL-Based Triggered Nanovalve.An open-pore structure of the mechanosensitive channel MscL derived by determining transmembrane domain interactions upon gatingMolecular dynamics study on protein-water interplay in the mechanogating of the bacterial mechanosensitive channel MscL.A cytoplasmic helix is required for pentamer formation of the Escherichia coli MscL mechanosensitive channel.Mechanosensitive closed-closed transitions in large membrane proteins: osmoprotection and tension dampingC termini of the Escherichia coli mechanosensitive ion channel (MscS) move apart upon the channel opening.Anionic phospholipids affect the rate and extent of flux through the mechanosensitive channel of large conductance MscL.Cooperative response and clustering: Consequences of membrane-mediated interactions among mechanosensitive channels.Mechanosensitive channel activation by diffusio-osmotic force.Engineering a pH-Sensitive Liposomal MRI Agent by Modification of a Bacterial Channel.Functional design of bacterial mechanosensitive channels. Comparisons and contrasts illuminated by random mutagenesis.
P2860
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P2860
Gating the bacterial mechanosensitive channel MscL invivo.
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2002 nî lūn-bûn
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2002 թուականի Ապրիլին հրատարակուած գիտական յօդուած
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2002 թվականի ապրիլին հրատարակված գիտական հոդված
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2002年の論文
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2002年論文
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2002年論文
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2002年論文
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2002年論文
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2002年論文
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2002年论文
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name
Gating the bacterial mechanosensitive channel MscL invivo.
@ast
Gating the bacterial mechanosensitive channel MscL invivo.
@en
Gating the bacterial mechanosensitive channel MscL invivo.
@nl
type
label
Gating the bacterial mechanosensitive channel MscL invivo.
@ast
Gating the bacterial mechanosensitive channel MscL invivo.
@en
Gating the bacterial mechanosensitive channel MscL invivo.
@nl
prefLabel
Gating the bacterial mechanosensitive channel MscL invivo.
@ast
Gating the bacterial mechanosensitive channel MscL invivo.
@en
Gating the bacterial mechanosensitive channel MscL invivo.
@nl
P2093
P2860
P356
P1476
Gating the bacterial mechanosensitive channel MscL invivo.
@en
P2093
Ann Finney Batiza
Ching Kung
Kenjiro Yoshimura
Mario Meng-Chiang Kuo
P2860
P304
P356
10.1073/PNAS.082092599
P407
P577
2002-04-01T00:00:00Z