Resolving heterogeneity on the single molecular level with the photon-counting histogram.
about
Scanning image correlation spectroscopyOligomer size of the serotonin 5-hydroxytryptamine 2C (5-HT2C) receptor revealed by fluorescence correlation spectroscopy with photon counting histogram analysis: evidence for homodimers without monomers or tetramersMolecular heterogeneity of O-acetylserine sulfhydrylase by two-photon excited fluorescence fluctuation spectroscopyτFCS: multi-method global analysis enhances resolution and sensitivity in fluorescence fluctuation measurementsMeasuring protein dynamics in live cells: protocols and practical considerations for fluorescence fluctuation microscopyFluorescence correlation spectroscopy for the detection and study of single molecules in biologyAssociation of Endophilin B1 with Cytoplasmic Vesicles.Paxillin dynamics measured during adhesion assembly and disassembly by correlation spectroscopy.Mapping the number of molecules and brightness in the laser scanning microscope.Resting state Orai1 diffuses as homotetramer in the plasma membrane of live mammalian cellsNumber and brightness image analysis reveals ATF-induced dimerization kinetics of uPAR in the cell membraneAnalysis of the composite response of shear wave resonators to the attachment of mammalian cellsH-Ras forms dimers on membrane surfaces via a protein-protein interface.Probing protein oligomerization in living cells with fluorescence fluctuation spectroscopy.Measuring single-molecule nucleic acid dynamics in solution by two-color filtered ratiometric fluorescence correlation spectroscopy.Unraveling protein-protein interactions in living cells with fluorescence fluctuation brightness analysisPharmacology under the microscope: the use of fluorescence correlation spectroscopy to determine the properties of ligand-receptor complexes.Spectrally resolved fluorescence correlation spectroscopy based on global analysis.Fluorescence correlation spectroscopy analysis of serotonin, adrenergic, muscarinic, and dopamine receptor dimerization: the oligomer number puzzleEthanol/naltrexone interactions at the mu-opioid receptor. CLSM/FCS study in live cells.Fluorescence fluctuation spectroscopy of mCherry in living cellsFluorescence correlation spectroscopy: past, present, future.Analysis of coupled bimolecular reaction kinetics and diffusion by two-color fluorescence correlation spectroscopy: enhanced resolution of kinetics by resonance energy transferCellular characterization of adenylate kinase and its isoform: two-photon excitation fluorescence imaging and fluorescence correlation spectroscopy.Molecular brightness characterization of EGFP in vivo by fluorescence fluctuation spectroscopy.The photon counting histogram in fluorescence fluctuation spectroscopy with non-ideal photodetectorsHigh-pressure fluorescence correlation spectroscopy.Cumulant analysis in fluorescence fluctuation spectroscopyDual-color photon-counting histogram.Biophysical analysis of HTLV-1 particles reveals novel insights into particle morphology and Gag stochiometry.Cytochrome c conformations resolved by the photon counting histogram: watching the alkaline transition with single-molecule sensitivity.Characterization of brightness and stoichiometry of bright particles by flow-fluorescence fluctuation spectroscopy.Time-integrated fluorescence cumulant analysis in fluorescence fluctuation spectroscopy.Fluorescence correlation spectroscopy measures molecular transport in cells.Molecular kinetics. Ras activation by SOS: allosteric regulation by altered fluctuation dynamics.Phosphomimetic mutations enhance oligomerization of phospholemman and modulate its interaction with the Na/K-ATPase.Dual-color time-integrated fluorescence cumulant analysisNative serotonin 5-HT2C receptors are expressed as homodimers on the apical surface of choroid plexus epithelial cellsImportin-β modulates the permeability of the nuclear pore complex in a Ran-dependent manner.Application of three-photon excitation FCS to the study of protein oligomerization.
P2860
Q26860528-7F5E942E-F166-4CC9-9517-9EB82C4B1388Q28266794-B7A1E9E6-9A8E-4D03-B04C-CB23CE8F77FBQ28360998-EB4233B7-9179-46A8-B2E8-506B709CD549Q28540273-F1003EE8-0139-4288-B8F9-5053AB87C506Q28655103-1E1A3F10-0DD3-4745-B6BA-7D2AA1C51308Q29400560-70DB12E4-1B05-4432-950B-9ECC71C0A095Q30008877-B79E436E-5B43-4522-BE9F-F807EAB7E5A8Q30441366-54A85077-3BCE-49C4-8B1F-5C4E3AAF52B2Q30441376-A896C78A-3DE5-46F2-8BC0-3FE76CF10EBDQ30497680-A3DFF99C-0EAD-4ECD-8869-80A1C3C3DD49Q30503536-DFDF6721-30AF-4F96-8445-5C4832A047FFQ30539021-11E93708-3D87-499D-A5F8-A2DF8ABE9EE1Q30573159-9F7709EA-3A48-4D4E-A19C-85D56967070AQ31032359-D716755B-B19D-404E-A540-2C8E9C193746Q31116892-BD2689A1-2D6A-4568-B568-491321FA45D9Q33213533-331486C5-452D-4261-9DC5-B48281184FBAQ33305512-E1B96CD9-60CD-4E4E-AAEB-3FEFFB26924DQ33324478-227117EF-D023-44BF-84B7-24499FD59AFDQ33356277-E64F3479-DE37-4676-8F11-EAD33222E67AQ33395349-843E5D31-0661-45A7-9E98-909848DD0D47Q34010214-50C5E2A3-3EEC-4B12-863F-E4F53581CED5Q34114385-8E8C873D-7388-4F91-87BC-6F81C4ECAF58Q34178367-32ECE815-BC27-4EDE-91AF-6329749C7B29Q34179358-934285B3-1776-4918-806E-79D7E8AD61C4Q34179658-E218E284-3581-46CD-8268-BD5DBC0C30E5Q34182767-2289F8F4-0973-4E63-A951-4EC21D5EC128Q34183228-B8213EC4-07BD-406A-8079-CD87EF12E14AQ34186119-5F25C450-AA9C-4C1B-8C8C-2CA95D08ED6EQ34189461-89ECBC6D-5000-40BE-8864-BFAC2B9CE30EQ34198903-0FA35A2B-94BE-4282-BB0B-DCC53F791267Q34202039-03B2E275-D2DA-4CA5-86BA-DC5B343FAF3FQ34250795-DDBBA2E0-C08F-4627-831B-0C83EFAF4E97Q34351515-D2212575-D6FA-4603-A533-3E7712E9B706Q34456621-1DC0F64E-29F5-442B-86D6-DDBBDC72811DQ34631440-65F3633C-AF2E-4DCA-89A6-4590103C31E8Q34685103-A3582375-4D5E-4F11-B97B-B2128743DEA1Q35021434-9053229A-31CC-4D14-8C6A-27EB0F1DF4D2Q35198061-B0C5A761-0E85-4E1E-B5B9-A407FD77F605Q35222521-F2A690A9-C918-4CEF-9570-F701CE57A88BQ35464104-572602A7-67D0-4B74-9894-A6ADF0098BA9
P2860
Resolving heterogeneity on the single molecular level with the photon-counting histogram.
description
2000 nî lūn-bûn
@nan
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
2000年论文
@zh
2000年论文
@zh-cn
name
Resolving heterogeneity on the single molecular level with the photon-counting histogram.
@en
type
label
Resolving heterogeneity on the single molecular level with the photon-counting histogram.
@en
prefLabel
Resolving heterogeneity on the single molecular level with the photon-counting histogram.
@en
P2093
P2860
P1433
P1476
Resolving heterogeneity on the single molecular level with the photon-counting histogram.
@en
P2093
P2860
P304
P356
10.1016/S0006-3495(00)76610-0
P407
P577
2000-01-01T00:00:00Z