Biology Reference
In-Depth Information
86. Barber PR, Ameer-Beg SM, Gilbey J, Carlin LM, KepplerM, Ng TC, et al. Multiphoton
time-domain fluorescence lifetime imaging microscopy: practical application to
protein-protein interactions using global analysis.
JRSocInterface
2009;
6
:S93-S105.
87. Grecco HE, Roda-Navarro P, Verveer PJ. Global analysis of time correlated single
photon counting FRET-FLIM data.
Opt Express
2009;
17
(8):6493-508.
88. Harvey CD, Ehrhardt AG, Cellurale C, Zhong H, Yasuda R, Davis RJ, et al. A
genetically encoded fluorescent sensor of ERK activity.
PNAS
2008;
105
(49):19264-9.
89. Digman MA, Caiolfa VR, Zamai M, Gratton E. The phasor approach to fluorescence
lifetime imaging analysis.
Biophys J
2008;
94
(2):L14-L16.
90. Padilla-Parra S, Auduge N, Coppey-Moisan M, Tramier M. Quantitative FRET anal-
ysis by fast acquisition time domain FLIM at high spatial resolution in living cells.
Biophys J
2008;
95
(6):2976-88.
91. Leray A, Spriet C, Trinel D, Heliot L. Three-dimensional polar representation for mul-
tispectral fluorescence lifetime imaging microscopy.
Cytometry A
2009;
75
(12):1007-14.
92. Leray A, Spriet C, Trinel D, Blossey R, Usson Y, Heliot L. Quantitative comparison of
polar approach versus fitting method in time domain FLIM image analysis.
Cytometry A
2011;
79A
(2):149-58.
93. Elson DS, Munro I, Requejo-Isidro J, McGinty J, Dunsby C, Galletly N, et al. Real-time
time-domain fluorescence lifetime imaging including single-shot acquisition with a seg-
mented optical image intensifier.
New J Phys
2004;
6
:180.
94. Ballew RM, Demas JN. An error analysis of the rapid lifetime determination method
for the evaluation of single exponential decays.
Anal Chem
1989;
61
:30-3.
95. Jameson DM, Gratton E, Hall RD. The measurement and analysis of heterogeneous
emissions by multifrequency phase and modulation fluorometry.
Appl Spectrosc Rev
1984;
20
(1):55-106.
96. Clayton AH, Hanley QS, Verveer PJ. Graphical representation and multicomponent
analysis of single-frequency fluorescence lifetime imaging microscopy data.
J Microsc
2004;
213
(Pt 1):1-5.
97. Redford GI, Clegg RM. Polar plot representation for frequency-domain analysis of
fluorescence lifetimes.
J Fluoresc
2005;
15
(5):805-15.
98. Fereidouni F, Esposito A, Blab GA, Gerritsen HC. A modified phasor approach for
analyzing time-gated fluorescence lifetime images.
J Microsc
2011;
244
(3):248-58.
99. Eichorst JP, Huang H, Clegg RM, Wang Y. Phase differential enhancement of FLIM
to distinguish FRET components of a biosensor for monitoring molecular activity of
membrane type 1 matrix metalloproteinase in live cells.
J Fluoresc
2011;
21
:1763-77.
100. Kazi JU, Soh JW. Isoform-specific translocation of PKC isoforms in NIH3T3 cells by
TPA.
Biochem Biophys Res Commun
2007;
364
(2):231-7.
101. Way KJ, Chou E, King GL. Identification of PKC-isoform-specific biological actions
using pharmacological approaches.
Trends Pharmacol Sci
2000;
21
(5):181-7.
102. Gallegos LL, Kunkel MT, Newton AC. Targeting protein kinase C activity reporter to
discrete intracellular regions reveals spatiotemporal differences in agonist-dependent
signaling.
J Biol Chem
2006;
281
(41):30947-56.
103. Violin JD, Zhang J, Tsien RY, Newton AC. A genetically encoded fluorescent reporter
reveals oscillatory phosphorylation by protein kinase C.
JCellBiol
2003;
161
(5):899-909.
104. Kajimoto T, Sawamura S, Tohyama Y, Mori Y, Newton AC. Protein kinase C
{delta}-specific activity reporter reveals agonist-evoked nuclear activity controlled
by Src family of kinases.
J Biol Chem
2010;
285
(53):41896-910.
105. Thiele A, Stangl GI, Schutkowski M. Deciphering enzyme function using peptide
arrays.
Mol Biotechnol
2011;
49
(3):283-305.
106. Luo K, Zhou P, Lodish HF. The specificity of the transforming growth factor beta
receptor kinases determined by a spatially addressable peptide library.
Proc Natl Acad
Sci USA
1995;
92
(25):11761-5.
Search WWH ::
Custom Search