Single-molecule evaluation of fluorescent protein photoactivation efficiency using an in vivo nanotemplate.
about
Current approaches to studying membrane organizationTwinkle, twinkle little star: photoswitchable fluorophores for super-resolution imagingFaster fluorescence microscopy: advances in high speed biological imagingProtein expression analyses at the single cell levelBotulinum neurotoxin type-A enters a non-recycling pool of synaptic vesicles.Quantitative super-resolution imaging with qPAINT.Mechanical slowing-down of cytoplasmic diffusion allows in vivo counting of proteins in individual cells.Live-cell superresolution microscopy reveals the organization of RNA polymerase in the bacterial nucleoidFluorescent Photo-conversion: A second chance to label unique cells.Spatiotemporal Fluctuation Analysis: A Powerful Tool for the Future Nanoscopy of Molecular ProcessesIn cellulo evaluation of phototransformation quantum yields in fluorescent proteins used as markers for single-molecule localization microscopy.Quantitative super-resolution imaging of Bruchpilot distinguishes active zone states.Super-resolution fluorescence of huntingtin reveals growth of globular species into short fibers and coexistence of distinct aggregatesα-SNAP regulates dynamic, on-site assembly and calcium selectivity of Orai1 channels.Complementarity of PALM and SOFI for super-resolution live-cell imaging of focal adhesions.SR-Tesseler: a method to segment and quantify localization-based super-resolution microscopy data.Automated Analysis of Single-Molecule Photobleaching Data by Statistical Modeling of Spot Populations.Ras Dimer Formation as a New Signaling Mechanism and Potential Cancer Therapeutic Target.Characterization and development of photoactivatable fluorescent proteins for single-molecule-based superresolution imagingUnraveling the Thousand Word Picture: An Introduction to Super-Resolution Data Analysis.Efficient switching of mCherry fluorescence using chemical caging.Cytoplasmic sensing by the inner membrane histidine kinase EnvZ.Quantitative analysis of single-molecule superresolution imagesStochastic approach to the molecular counting problem in superresolution microscopyImaging live cells at the nanometer-scale with single-molecule microscopy: obstacles and achievements in experiment optimization for microbiology.Visualization and functional dissection of coaxial paired SpoIIIE channels across the sporulation septumAccounting for limited detection efficiency and localization precision in cluster analysis in single molecule localization microscopy.In vivo single-cell labeling by confined primed conversion.Quantitative localization microscopy: effects of photophysics and labeling stoichiometry.Concentration- and chromosome-organization-dependent regulator unbinding from DNA for transcription regulation in living cells.Remodeling of the Z-Ring Nanostructure during the Streptococcus pneumoniae Cell Cycle Revealed by Photoactivated Localization MicroscopyOne, two or three? Probing the stoichiometry of membrane proteins by single-molecule localization microscopyNanoscale Landscape of Phosphoinositides Revealed by Specific Pleckstrin Homology (PH) Domains Using Single-molecule Superresolution Imaging in the Plasma Membrane.Single-molecule motions and interactions in live cells reveal target search dynamics in mismatch repair.Counting numbers of synaptic proteins: absolute quantification and single molecule imaging techniques.In Situ Characterization of Bak Clusters Responsible for Cell Death Using Single Molecule Localization Microscopy.Subdiffractional tracking of internalized molecules reveals heterogeneous motion states of synaptic vesicles.Single-molecule Super-resolution Imaging of Phosphatidylinositol 4,5-bisphosphate in the Plasma Membrane with Novel Fluorescent Probes.A novel method to accurately locate and count large numbers of steps by photobleachingSuper-resolution imaging with stochastic single-molecule localization: concepts, technical developments, and biological applications.
P2860
Q26766176-2FE6BCC9-0DBE-43B0-B917-58C91E01C06AQ26823617-CAFFF5CE-328C-4DC5-A807-00B36B1B437FQ26995843-2FDE04CE-5545-4CDB-849E-BB7D98078AA2Q27027088-EAE0EA84-4D4B-4FBB-A985-3CD046EED09EQ27301079-EE5FC82B-DB0E-4DE5-BB20-C6F6EE57071AQ27313334-E773921B-284D-4F47-8730-66336B3810FAQ27316297-3A34E084-74BA-4433-B467-C3CA39A64824Q27322413-7B6B2FA8-B077-4DCD-9F83-9E0410380D8CQ27344998-39ACABD0-6FDA-4BC3-AE4F-9DD8A8D25670Q28069491-115E85A3-8432-4791-8B17-12F81B454670Q30436580-FF66809E-779F-4FF4-94F9-1FF9B96C7304Q30586285-E8315670-BC48-4F9A-85D7-8C73E11B0816Q30610715-6CBA0EAF-568F-46DD-AFA9-6E9BCC21CF49Q30798747-7E4E4C37-422C-4F6C-BF2D-269A561A7D46Q30833075-E5B88C23-468F-44D5-94C2-D44CD0DEC6EAQ30991819-706ADF86-7C46-43F8-9B84-195C90C624B7Q31030279-51EFC597-C202-48DD-95BC-C57DDD3E7C5CQ33646519-7A015A28-8637-4B69-A0E7-DD375D5170CAQ33767568-C5D192C4-4E0D-4999-A976-A98F3BDFF423Q33843023-030C1CEC-EF4E-44A7-9BD5-129C64F0C116Q33886938-F1350D9D-D460-4463-9892-0773124053BAQ34474859-E298F73C-39F2-4EAD-8D66-7B9F95C45E19Q34613102-3B8770CE-3367-4237-8368-D85A526A40F3Q34985508-548FB696-33A5-4784-853B-F70BFB547544Q35136420-AAF11E07-6D1E-4029-B9FA-EEA91D98EDC2Q35579095-10C5520B-7772-4FE2-BDB9-45234DF043ACQ35582760-8F6B8E32-5955-46AF-974C-EB0297033F25Q35634095-169553E0-EC57-41D8-9AA0-5735FC6AE005Q35636362-89690F8D-CD12-4864-B6E8-A28288F91EF3Q35865022-8FF8965F-ADC5-4DC0-A241-A53CDF9562DBQ35973037-196F1991-514A-4BF8-886B-808D592693E7Q36273650-1EB03478-730D-4837-948D-90659536EF0CQ36283894-84BA738B-E22F-4119-8E2C-52B8E4D706C6Q36394407-F948C4DA-BCCB-4CBC-8C56-2BCAA9AA546FQ36964519-FDCC8268-93A7-4F36-AB4A-0FAA4EE09252Q36996518-79BEAD0E-C9F6-4F80-A5E9-1CF10E8E03DFQ37367143-9AB7C700-9D2D-42CF-B2D4-88B4C793EDA3Q37388894-106E4EC8-4E34-4DBF-90CB-9E4E36AC13BFQ37573294-A3A77F30-F78A-4350-9713-20F0E002BC35Q38195004-9E6010C0-42BB-4142-8286-05F441339C41
P2860
Single-molecule evaluation of fluorescent protein photoactivation efficiency using an in vivo nanotemplate.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh-hant
name
Single-molecule evaluation of ...... using an in vivo nanotemplate.
@en
Single-molecule evaluation of ...... using an in vivo nanotemplate.
@nl
type
label
Single-molecule evaluation of ...... using an in vivo nanotemplate.
@en
Single-molecule evaluation of ...... using an in vivo nanotemplate.
@nl
prefLabel
Single-molecule evaluation of ...... using an in vivo nanotemplate.
@en
Single-molecule evaluation of ...... using an in vivo nanotemplate.
@nl
P2860
P50
P356
P1433
P1476
Single-molecule evaluation of ...... using an in vivo nanotemplate
@en
P2093
Angel Sandoval-Álvarez
Melike Lakadamyali
P2860
P2888
P304
P356
10.1038/NMETH.2784
P577
2014-01-05T00:00:00Z