Direct visualization of Escherichia coli chemotaxis receptor arrays using cryo-electron microscopy.
about
Self-organization of the Escherichia coli chemotaxis network imaged with super-resolution light microscopyLessons in Fundamental Mechanisms and Diverse Adaptations from the 2015 Bacterial Locomotion and Signal Transduction MeetingNutrient-sensing mechanisms across evolutionControlled bacterial lysis for electron tomography of native cell membranes.3D imaging of mammalian cells with ion-abrasion scanning electron microscopySingle molecule super-resolution imaging of proteins in living Salmonella enterica using self-labelling enzymesThe Structure of a Soluble Chemoreceptor Suggests a Mechanism for Propagating Conformational Signals † ‡The 3.2 Å Resolution Structure of a Receptor:CheA:CheW Signaling Complex Defines Overlapping Binding Sites and Key Residue Interactions within Bacterial Chemosensory ArraysCryo-electron tomography: the challenge of doing structural biology in situCryoEM and computer simulations reveal a novel kinase conformational switch in bacterial chemotaxis signalingMinicells, Back in FashionChemotaxis receptor complexes: from signaling to assemblyProtein Connectivity in Chemotaxis Receptor ComplexesInformation processing in bacteria: memory, computation, and statistical physics: a key issues reviewBiological imaging with 4D ultrafast electron microscopyCell surface filaments of the gliding bacterium Flavobacterium johnsoniae revealed by cryo-electron tomographyThree-dimensional imaging of the highly bent architecture of Bdellovibrio bacteriovorus by using cryo-electron tomographyRole of HAMP domains in chemotaxis signaling by bacterial chemoreceptors.Tsr-GFP accumulates linearly with time at cell poles, and can be used to differentiate 'old' versus 'new' poles, in Escherichia coli.The flat-ribbon configuration of the periplasmic flagella of Borrelia burgdorferi and its relationship to motility and morphology.Electron cryotomography: a new view into microbial ultrastructure.Imaging hydrated microbial extracellular polymers: comparative analysis by electron microscopySpiral architecture of the nucleoid in Bdellovibrio bacteriovorus.Molecular architecture of chemoreceptor arrays revealed by cryoelectron tomography of Escherichia coli minicells.ParP prevents dissociation of CheA from chemotactic signaling arrays and tethers them to a polar anchor.New insights into bacterial chemoreceptor array structure and assembly from electron cryotomography.Cryo-electron tomography of cells: connecting structure and functionRecognition of interaction interface residues in low-resolution structures of protein assemblies solely from the positions of C(alpha) atoms.Universal architecture of bacterial chemoreceptor arrays.Emotion: The Self-regulatory Sense.The chemoreceptor dimer is the unit of conformational coupling and transmembrane signalingThe photosensor protein Ppr of Rhodocista centenaria is linked to the chemotaxis signalling pathway.Bacterial chemoreceptors: providing enhanced features to two-component signaling.Subcellular location characteristics of the Pseudomonas aeruginosa GGDEF protein, WspR, indicate that it produces cyclic-di-GMP in response to growth on surfaces.Visualization of bacteriophage P1 infection by cryo-electron tomography of tiny Escherichia coliOverexpression of the recA gene decreases oral but not intraperitoneal fitness of Salmonella enterica.Direct visualization of HIV-1 with correlative live-cell microscopy and cryo-electron tomography.Structure of the ternary complex formed by a chemotaxis receptor signaling domain, the CheA histidine kinase, and the coupling protein CheW as determined by pulsed dipolar ESR spectroscopy.Kinase-active signaling complexes of bacterial chemoreceptors do not contain proposed receptor-receptor contacts observed in crystal structures3D structure determination of native mammalian cells using cryo-FIB and cryo-electron tomography.
P2860
Q21092731-82C76250-336E-4437-A6D6-613F5793B96BQ26801520-7C80BD99-865F-4A5E-9A6D-EA36E9F9BBDCQ27015819-47B470B5-DDDC-472F-A1FC-9B301395880EQ27303625-9B42228C-13C2-4E8E-B24A-C9FA7F2EA7D7Q27309040-8ACCD77F-69CE-48F4-9E62-3006F43374F6Q27317065-A6476E14-5877-4580-91B9-E61B8AC6E126Q27653438-6961A7A8-F1D5-46AC-91A4-BAC6010EDD33Q27678118-55491FF3-8784-4C70-A422-E7597ABFA83DQ27690657-96EA0BB9-7BAF-4A17-84A2-27F3AAE954CAQ27702647-D147CC1C-1E71-4EB9-AC2B-C07F3A2EF375Q28072415-056E7862-DE38-4978-9724-A2971EF457D3Q28469270-9114A6B6-54FC-44D6-8FA9-D3C7FE519448Q28551431-098E2920-F113-4871-B609-2EB18C2F7F84Q28829374-77859C02-9DD4-401E-BC7B-E13FC9311D02Q30478492-36B58575-F30D-4995-86E3-40E1FF5EFF3DQ30480939-62AB46B6-AB87-4D78-B6D7-025611332C22Q30481672-8DCA4F09-94B1-402A-AC58-3D08B44346EFQ30484174-B76DA2EB-2995-42C8-82BA-8F65CECD726EQ30484288-EAF2B19A-A1E3-45F0-BBAA-B699937D5091Q30485416-77DD0036-BDD4-4365-B05D-52587D6EFAC2Q30490369-4E904E67-D951-44A1-AB9B-09271AEBE980Q30499223-EA17655F-FE3B-4A22-A4AC-DA3B5554F708Q30499239-63E38792-E0D0-471E-851F-B18BAC0E04D9Q30518239-6CD64CF5-4159-4642-92EF-B3885F7CABD9Q30565959-CAAFBA9F-A760-4FDD-B8BB-B57472205E5CQ30576031-BF7CB56B-DFF5-4F00-BE8D-43F01AA838B2Q33345255-3106385E-12BF-456A-9CF3-623B4D2BD089Q33408837-3B30471C-A316-4732-B0C1-86EE6348659AQ33508742-CB92D3A3-4DEF-4A38-893B-FD65B6C33056Q33570061-983A1FE5-10DF-42FA-84C6-F861548C0AFAQ33648697-0D0E9EC1-F58A-4E18-AD5E-A576629B56A6Q33742769-C390A44A-F0A5-496F-8A18-FBB2429303E9Q33824193-1AAFD127-67DE-4EB2-8AF5-3D68C5588980Q33926739-4F3C8BDD-B271-4D4B-A20C-AD8AD654303CQ33957417-F2BA679B-769B-4BAB-8C89-2C20E105F9A1Q33963146-1F03A9CB-0ED0-4F4E-B337-89A4D8B9ED40Q34073213-A1C7943D-2B08-4CF5-B566-834232BAA5C1Q34107640-85E8E57F-8F0A-4816-AD37-140D982DD82BQ34117183-09F19DAE-E29E-461D-BDE7-2A3BE4ECB048Q34337819-CAA80C9D-5D29-4223-80DC-1E53A675405B
P2860
Direct visualization of Escherichia coli chemotaxis receptor arrays using cryo-electron microscopy.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Direct visualization of Escher ...... sing cryo-electron microscopy.
@ast
Direct visualization of Escher ...... sing cryo-electron microscopy.
@en
type
label
Direct visualization of Escher ...... sing cryo-electron microscopy.
@ast
Direct visualization of Escher ...... sing cryo-electron microscopy.
@en
prefLabel
Direct visualization of Escher ...... sing cryo-electron microscopy.
@ast
Direct visualization of Escher ...... sing cryo-electron microscopy.
@en
P2093
P2860
P921
P356
P1476
Direct visualization of Escher ...... using cryo-electron microscopy
@en
P2093
Cezar M Khursigara
Lisa M Hartnell
Peijun Zhang
P2860
P304
P356
10.1073/PNAS.0610106104
P407
P577
2007-02-26T00:00:00Z