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FCSとICS
FCS (fluorescence correlation spectroscopy)とICS (image correlation spectroscopy) の論文リスト.

Brown CM, Petersen NO (1998) er
An image correlation analysis of the distriburion of clathrin associated adaptor protein (AP-2) at the plasma membrane
J Cell Sci 111: 271-281
CLSMにより光学切片を得て,spatioICSにより凝集度(Degree of Aggregation)を定量.1次抗体濃度をふってDAが飽和することを確認.adaptor protein(AP)-2の抗体蛍光染色.

Digman MA, Brown CM, Sengupta P, Wiseman PW, Horwitz AR, Gratton E (2005) e
Measuring fast dynamics in solutions and cells with a laser scanning microscope
Biophys J 89: 1317-1327
RICS(raster ICS)の提唱.走査を利用した運動速度の定量.SFCSと似る?

Eigen M, Rigler R (1994) e
Sotring single molecules: application to diagnostics and evolutionary biotechnology
Proc Natl Acad Sci USA 91: 5740-5747
FCSの総説

Hebert B, Constantino S, Wiseman PW (2005) er
Spatiotemporal image correlation spectoscopy (STICS) theory, verification, and application to protein velocity mapping in living CHO cells
Biophys J 88: 3601-3614
二光子励起蛍光顕微鏡により光学切片を経時的(0.5~1fps)に得て,時間相関により二次元拡散と二次元流れを定量.拡散群と流れ群を同一画像セットから分離し定量できる.また,空間相関におけるピーク位置の時間発展にともなう変位により,流れによる移動をベクトルとして定量.ECFP-alpha- actininとEGFP-alpha5-integrinを発現するCHO細胞で,細胞表層における移動ベクトルを個別に得る.動かない蛍光成分の影響を除去するために低い時間周波数の成分を遮断.

Kolin DL, Constantino S, Wiseman PW (2006) e
Sampling effects, noise, and photobleaching in temporal image correlation spectroscopy
Biophys J 90: 628-639
TICSで求められるパラメタの誤差検証.退色やノイズの影響の検証.

Rocheleau JV, Wiseman PW, Petersen NO (2003) e
Isolation of bright aggregate fluctuations in a multipopulation image correlation spectroscopy system using intensity subtraction
Biophys J 84: 4011-4022
CLSMにより光学切片を得て,temporal-ICS/ICCS.Intensity Subtraction Analysis (ISA)の提唱.前処理で輝度の足切りをすると,空間相関が変化する.

Ruan Q, Cheng MA, Levi M, Gratton E, Mantulin WW (2004) e
Spatial-temporal studies of membrane dynamics: scanning fluorescence correlation spectroscopy (SFCS)
Biophys J 87: 1260-1267

Srivastava M, Petersen NO (1998) e
Diffusion of trasferrin receptor clusters
Biophys Chem 75: 201-211
CLSMにより光学切片を得て,spatio-およびtemporal-のICCS.transferrinレセプタの抗体蛍光染色.

St-Pierre PR, Petersen NO (1992) er
Average density and size of microclusters of epidermal growth factor receptors on A431 cells
Biochem 31: 2459-2463
走査により蛍光輝度の1次元分布を得て,空間相関を得る.EGFレセプタの抗体染色.SFCS.

Wiseman PW, Hoddelius P, Petersen NO, Magnusson KE (1997) er
Aggregation of PDGA-beta receptors in human skin fibroblasts: characterization by image correlation spectroscopy (ICS)
FEBS Lett 401: 43-48
CLSMにより光学切片を得て,spatioICSにより凝集度(CD; cluster density)を定量.PDGFレセプタB2の抗体蛍光染色.

Wiseman PW, Petersen NO (1999) er
Image correlation spectroscopy. II. Optimization for ultrasensitive detection of preexisting platelet-derived growth factor-beta receptor oligomers on intact cells
Biophys J 76: 963-977
CLSMにより光学切片を得て,spatioICSにより,凝集物密度(N),凝集度(Degree of Aggregation)を定量.無励起状態,1次抗体のみ,2次抗体のみの3つのコントロールを得て補正.PDGFレセプタB2の抗体蛍光染色.

Wiseman PW, Squier JA, Ellisman MH, Wilson KR (2000) er
Two-photon image correlation spectroscopy and image cross-correlation spectroscopy
J Microsc 200: 14-25
二光子励起蛍光顕微鏡により連続光学切片を経時的(~15fps)に得て,水中の蛍光ビーズの流れ,濃砂糖水中の蛍光ビーズの三次元拡散,およびCHO細胞表層のGFP-integrin adhesion receptorの二次元拡散を主に時間画像自己相関(temporalICS)により定量.

Wiseman PW, Brown CM, Webb DJ, Hebert B, Johnson NL, Squier JA, Ellisman MH, Horwitz AF (2004) e
Spatial mapping of integrin interactions and dynamics during cell migration by image correlation microscopy
J Cell Sci 117: 5521-5534
二光子励起蛍光顕微鏡,spatio-/temporal-ICS/ICCS

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Aragon SR, Pecora R (1976) w
Fluorescence correlation spectroscopy as a probe for molecular dynamics
J Chem Phys 64: 1791-1803
FCS

Berland KM, So PTC, Chen Y, Mantulin W, Gratton E (1996) w
Scanning two-photon fluctuation spectroscopy: particle counting measurements for detection of molecular aggregation
Biophys J 71: 410-420
FCS?

Brown CM, Roth MG, Henis YI, Petersen NO (1999) w
An internalization-component influenza Hemaggulutinin mutant causes the redistribution of AP-2 to existing coated pits and is colocalizaed with AP-2 in clathrin free clusters
Biochem 38: 15166-15173

Dittrich PS, Schwille P (2002) w
Spatial two-photon fluorescence cross-correlation spectroscopy for controlling molecular transport in microfluodic structures
Anal Chem 74: 4472-4479
FCCS

Elson EL, Magde D (1974) w
Fluorescence correlation spectroscopy. 1. Conceptual basis and theory
Biopolymers 13: 1-27
FCS

Elson EL, Webb WW (1975) w
-
Annu Rev Biophys Bioeng 4: 311-334

Ghosh RN, Webb WW (1994)
Automated detection and tracking of individual and clustered cell surface low density lipoprotein receptor molecules
Biophys J 66: 1301-1318

Heinze KG, Koltermann A, Schwille P (2000)
Simultaneous two-photon excitation of distinct labels for dual-color fluorescence cross-correlation analysis
Proc Natl Acad Sci USA 97: 10377-10382
FCCS

Huang Z, Thompson NL (1996) w
Imaging fluorescence correlation spectroscopy: nonuniform IgE distributions on planar membranes
Biophys J 70: 2001-2007

Icenogle RD, Elson EL (1983) w
Fluorescence correlation spectroscopy and photobleaching recovert of multiple binding reactions. I. Theory and FCS measurements.
Biopolymers 22: 1919-1948

Koppel DE (1974) w
Statistical accuracy in fluorescence spectroscopy
Phs Rev A 10: 1938-1945
FCS

Koppel DE, Morgans F, Cowan AE, Carson JH (1994) w
Scanning concentration correlation spectroscopy using the confocal laser microscope
Biophys J 66: 502-507

Magde D, Elson E, Webb WW (1972) w
Thermodynamic fluctuations in a reacting system: measurement by fluorescence correlation spectroscopy
Phys Rev Lett 29: 705708
FCS

Magde D, Elson EL, Webb WW (1974) w
Fluorescence correlation spectroscopy. H. An experimental realization
Biopolymers 13: 29-61
FCS

Magde D, Webb WW, Elson EL (1978) w
Fluorescence correlation spectroscopy. 111. Uniform translation and laminar flow
Biopolymers 17: 361-376
FCS

Meyer T, Schindler H (1988) w
Particle counting by fluorescence correlation spectroscopy: simultaneous measurements of aggregation and diffusion of molecules in solution and in membranes
Biophys J 54: 983-993
FCS

Morrison IEG, Anderson CM, Georgiou GN, Stevenson GVW, Cherry RJ (1994) w
Analysis of receptor clustering on cell surface by imaging fluorescent particles
Biophys J 67: 1280-1290

Palmer AG III, Thompson NL (1989) w
Fluorescence correlation spectroscopy for detecting submicroscopic clusters of fluorescent molecules in membranes
Chem Phys Lipids 50: 253-270
FCS

Petersen NO (1986) ww
Scanning fluorescece correlation spectroscopy. I. Theory and simulation of aggregation measurements
Biophys J 49: 809-815

Petersen NO, Hoddelius PL, Wiseman PW, Seger O, Magnusson KE (1993) ww
Quantitation of membrane receptor distributions by image correlation spectroscopy: concept and application
Biophys J 65: 1135-1146
ICS, non-linear fitting to Gaussian function

Ponti A, Machacek M, Gupton SL, Waterman-Storer CM, Danuser G (2004) ww
Two distinct actin networks drive the protrusion of migrating cells
Science 305: 1782-1786
actin, PM protrusion
FSM(fluorescence speckle microscopy), actin

Qian H (1990) w
On the statistics of fluorescece correlation spectroscopy
Biophys Chem 38: 49-57

Qian H, Elson EL (1990) w
Distributions of molecular aggregation by analysis of fluctuation moments
Proc Natl Acad Sci USA 87: 5479-5483

Rigler R, Mets U, Widengren J, Kask P (1993) w
Fluorescence correlation spectroscopy with high count rate and low background: analysis; of translational diffusion
Eur Biophys J 22: 169-175

Schwille P, Meyer-Almes EJ, Rigler R (1997) w
Dual-color fluorescence for multicomponent diffusional analysis in solution
Biophys J 72: 1878-1886

Seifert RA, Hart CE, Phillips PE, Forstrom JR, Ross R, Murray MJ, Bowen-Pope DF (1989) w
Two different subunits associates to create isoform-specific platelet-derived growth factor receptors
J Biol Chem 264: 8771-8778

Sheetz MP, Turney S, Qian H, Elson EL (1989) w
Nanometre-level analysis demonstrates that lipid flow does not drive membrane glycoprotein movements
Nature 340: 284-288
SPT(single particle tracking)

Srivastava M, Petersen NO (1996) ww
Image cross-correlation spectroscopy: a new experimental biophysical approach to measurement of slow diffusion of fluorescent molecules
Meth Cell Sci 18: 47-54
ICCS, non-linear fitting to Gaussian function

St-Pierre PR, Petersen NO (1990) w
-
Biophys J 58: 503-511

Thompson NL, Axelrod D (1983) w
Immunoglobulin surface-binding kinetics studied by total internal reflection with fluorescence correlation spectroscopy
Biophys J 43: 103-114

Wang MD, Axelrod D (1994) w
Microclustering patterns of acetylcoline receptors on myotubes studies by spatial fluorescence autocorrelation
Bioimaging 2: 22-35


FCS: fluorescence correlation spectroscopy; 蛍光相関スペクトル法
SFCS: scanning FCS; 走査蛍光相関スペクトル法
ICS: image correlation spectrosocpy; 画像相関スペクトル法
ICCS: image cross-correlation spectroscopy; 画像相互相関スペクトル法
TICS: temporal ICS; 時間画像相関スペクトル法
RICS: raster ICS; ラスター画像相関スペクトル法
STICS: spatio-temporal ICS; 時空間画像スペクトル法
ICM: image correlation microscopy; 画像相関顕微鏡法

SPT: single particle tracking
FSM: fluorescence speckle microscopy
qFSM: quiantitative FSM

ICCSは文献によってtemporal-ICSのことだったり多色画像でのICSだったりと使い分けがある.

FCSはよく蛍光相関分光法と訳されているが,「分光」しているわけではないのでスペクトル法とか(mass spectroscopyにならえば)分析法の方がよいように思う.ICSは定まった訳語がないようだ.
by edogawadai_bio | 2006-01-14 01:23 | img
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