Biomedical Engineering Reference
In-Depth Information
111. H. Schneckenburger, Total internal reflection fluorescence microscopy: Technical innovations
and novel applications. Curr. Opin. Biotechnol.
16
(1), 13-18 (2005)
112. J. Lippincott-Schwartz, E. Snapp, A. Kenworthy, Studying protein dynamics in living cells.
Nat. Rev. Mol. Cell Biol.
2
(6), 444-456 (2001)
113. E.A. Reits, J.J. Neefjes, From fixed to FRAP: measuring protein mobility and activity in living
cells. Nat. Cell Biol.
3
(6), E145-7 (2001)
114. B.L. Sprague, J.G. McNally, FRAP analysis of binding: proper and fitting. Trends Cell Biol.
15
(2), 84-91 (2005)
115. D. Magde, E. Elson, W.W. Webb, Thermodynamic fluctuations in a reacting system—
measurement by fluorescence correlation spectroscopy. Phys. Rev. Lett.
29
(11), 705 (1972)
116. Y. Chen, J.D. Muller, K.M. Berland, E. Gratton, Fluorescence fluctuation spectroscopy.
Methods
19
(2), 234-252 (1999)
117. O. Krichevsky, G. Bonnet, Fluorescence correlation spectroscopy: The technique and its
applications. Rep. Prog. Phys.
65
(2), 251-297 (2002)
118. E. Haustein, P. Schwille, Fluorescence correlation spectroscopy: Novel variations of an
established technique. Annu. Rev. Biophys. Biomol. Struct.
36
, 151-169 (2007)
119. N. Altan-Bonnet, G. Altan-Bonnet, Fluorescence correlation spectroscopy in living cells: a
practical approach. Curr. Protoc. Cell Biol. Chapter
4
Unit 4.24 (2009)
120. M.A. Digman, E. Gratton, Fluorescence correlation spectroscopy and fluorescence cross-
correlation spectroscopy. Wiley Interdiscip. Rev. Syst. Biol. Med.
1
(2), 273-282 (2009)
121. C.M. Brown, R.B. Dalal, B. Hebert, M.A. Digman, A.R. Horwitz, E. Gratton, Raster image
correlation spectroscopy (RICS) for measuring fast protein dynamics and concentrations with
a commercial laser scanning confocal microscope. J. Microsc.
229
(Pt 1), 78-91 (2008)
122. N.O. Petersen, P.L. Hoddelius, P.W. Wiseman, O. Seger, K.E. Magnusson, Quantitation of
membrane receptor distributions by image correlation spectroscopy: concept and application.
Biophys. J.
65
(3), 1135-1146 (1993)
123. P.W. Wiseman, J.A. Squier, M.H. Ellisman, K.R. Wilson, Two-photon image correlation
spectroscopy and image cross-correlation spectroscopy. J. Microsc.
200
(Pt 1), 14-25 (2000)
124. P.W. Wiseman, C.M. Brown, D.J. Webb, B. Hebert, N.L. Johnson, J.A. Squier, M.H. Ellisman,
A.F. Horwitz, Spatial mapping of integrin interactions and dynamics during cell migration by
image correlation microscopy. J. Cell Sci.
117
(Pt 23), 5521-5534 (2004)
125. A. Nohe, N.O. Petersen, Image correlation spectroscopy. Sci. STKE
2007
(417), l7 (2007)
126. M.A. Digman, P.W. Wiseman, A.R. Horwitz, E. Gratton, Detecting protein complexes in
living cells from laser scanning confocal image sequences by the cross correlation raster
image spectroscopy method. Biophys. J.
96
(2), 707-716 (2009)
127. M.J. Rossow, J.M. Sasaki, M.A. Digman, E. Gratton, Raster image correlation spectroscopy
in live cells. Nat. Protoc.
5
(11), 1761-1774 (2010)
128. S.W. Hell, Far-field optical nanoscopy. Science
316
(5828), 1153-1158 (2007)
129. B. Huang, M. Bates, X. Zhuang, Super-resolution fluorescence microscopy. Annu. Rev.
Biochem.
78
, 993-1016 (2009)
130. G. Patterson, M. Davidson, S. Manley, J. Lippincott-Schwartz, Superresolution imaging using
single-molecule localization. Annu. Rev. Phys. Chem.
61
, 345-367 (2010)
131. T.A. Klar, S. Jakobs, M. Dyba, A. Egner, S.W. Hell, Fluorescence microscopy with diffraction
resolution barrier broken by stimulated emission. Proc. Natl. Acad. Sci. USA
97
(15), 8206-
8210 (2000)
132. K.I. Willig, S.O. Rizzoli, V. Westphal, R. Jahn, S.W. Hell, STED microscopy reveals
that synaptotagmin remains clustered after synaptic vesicle exocytosis. Nature
440
(7086),
935-939 (2006)
133. L. Meyer, D. Wildanger, R. Medda, A. Punge, S.O. Rizzoli, G. Donnert, S.W. Hell, Dual-color
STED microscopy at 30-nm focal-plane resolution. Small
4
(8), 1095-1100 (2008)
134. E. Betzig, G.H. Patterson, R. Sougrat, O.W. Lindwasser, S. Olenych, J.S. Bonifacino,
M.W. Davidson, J. Lippincott-Schwartz, H.F. Hess, Imaging intracellular fluorescent proteins
at nanometer resolution. Science
313
(5793), 1642-1645 (2006)
Search WWH ::
Custom Search