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Digman, M. A., Dalal, R., Horwitz, A. F., & Gratton, E. (2008). Mapping the number of mol-
ecules and brightness in the laser scanning microscope. Biophysical Journal , 94 ,
2320-2332.
Digman, M. A., &Gratton, E. (2009). Analysis of diffusion and binding in cells using the RICS
approach. Microscopy Research and Technique , 72 , 323-332.
Digman, M. A., Sengupta, P., Wiseman, P. W., Brown, C. M., Horwitz, A. R., & Gratton, E.
(2005). Fluctuation correlation spectroscopy with a laser-scanning microscope: Exploiting
the hidden time structure. Biophysical Journal , 88 , L33-L36.
Digman, M. A., Stakic, M., & Gratton, E. (2013). Raster image correlation spectroscopy and
number and brightness analysis. Methods in Enzymology , 518 , 121-144.
Digman, M. A., Wiseman, P. W., Choi, C., Horwitz, A. R., & Gratton, E. (2009). Stoichiom-
etry of molecular complexes at adhesions in living cells. Proceedings of the National
Academy of Sciences of the United States of America , 106 , 2170-2175.
Hoenen, T., Jung, S., Herwig, A., Groseth, A., & Becker, S. (2010). Oligomerization of Ebola
virus VP40 is essential for particle morphogenesis and regulation of viral transcription.
Journal of Virology , 84 , 7053-7063.
Klein, D. E., Lee, A., Frank, D. W., Marks, M. S., & Lemmon, M. A. (1998). The pleckstrin
homology domain of dynamin isoforms require oligomerization for high affinity phos-
phoinositide binding. Journal of Biological Chemistry , 273 , 27725-27733.
Lemmon, M. A. (2008). Membrane recognition by phospholipid-binding domains. Nature
Reviews in Molecular and Cellular Biology , 9 , 99-111.
Magde, D., Elson, E., & Webb, W. W. (1972). Thermodynamic fluctuations in a reacting
system - Measurement by fluorescence correlation spectroscopy. Physical Review Letters ,
29 , 705-708.
Magde, D., Elson, E., & Webb, W. W. (1974). Fluorescence correlation spectroscopy. II. An
experimental realization. Biopolymers , 13 , 29-61.
Murray, P. S., Li, Z., Wang, J., Tang, C. L., Honig, B., &Murray, D. (2005). Retroviral matrix
domains share electrostatic homology: Models for membrane binding function throughout
the viral life cycle. Structure , 13 , 1521-1531.
Ross, J. A., Digman, M. A., Wang, L., Gratton, E., Albanesi, J. P., & Jameson, D. M. (2011).
Oligomerization state of dynamin 2 in cell membranes using TIRF and number and bright-
ness analysis. Biophysical Journal , 100 , L15-L17.
Rossow, M. J., Sasaki, J. M., Digman, M. A., & Gratton, E. (2010). Raster image correlation
spectroscopy in live cells. Nature Protocols , 5 , 1761-1774.
Schwille, P., Bieschke, J., &Oehlenschl¨ger, F. (1997). Kinetic investigations by fluorescence
correlation spectroscopy: The analytical and diagnostic potential of diffusion studies.
Biophysical Chemistry , 66 , 211-228.
Schwille, P., Korlach, J., & Webb, W. W. (1999). Fluorescence correlation spectroscopy with
single molecule sensitivity on cell and model membranes. Cytometry , 36 , 176-182.
Soni, S. P., Adu-Gyamfi, E., Yong, S. S., Jee, C. S., & Stahelin, R. V. (2013). The Ebola virus
matrix protein deeply penetrates the plasma membrane: An important step in viral egress.
Biophysical Journal , 104 , 1940-1949.
Stahelin, R. V. (2009). Lipid binding domains: More than simple lipid effectors. Journal of
Lipid Research , 50 , S299-S304.
Wang, X., Graveland-Bikker, J. F., de Kruif, C. G., &Robillard, G. T. (2004). Oligomerization
of hydrophobin SC3 in solution: From soluble state to self-assembly. Protein Science , 13 ,
810-821.
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