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Fluorescence
correlation spectroscopy, a tool to investigate supramolecular dynamics:
inclusion complexes of pyronines with cyclodextrin. Al-Soufi, W., Reija, B., Novo, M.,
Felekyan, S., Kuhnemuth, R., and Seidel, C.A., J Am Chem Soc, 2005. 127(24):
pp. 8775-84.
Evidence for major
structural changes in subunit C of the vacuolar ATPase due to nucleotide
binding.
Armbruster, A., Hohn, C., Hermesdorf, A., Schumacher, K., Borsch, M., and
Gruber, G., FEBS Lett, 2005. 579(9): pp. 1961-7.
Quantitative
measurement of the resolution and sensitivity of confocal microscopes using
line-scanning fluorescence correlation spectroscopy. Balaji, J. and Maiti, S., Microsc
Res Tech, 2005. 66(4): pp. 198-202.
Anomalous diffusion
of proteins due to molecular crowding. Banks, D.S. and Fradin, C., Biophys J, 2005. 89(5):
pp. 2960-71.
Fluorescence
correlation spectroscopy for flow rate imaging and monitoring--optimization,
limitations and artifacts. Brister, P.C., Kuricheti, K.K., Buschmann, V., and Weston, K.D., Lab
Chip, 2005. 5(7): pp. 785-91.
Four-color
fluorescence correlation spectroscopy realized in a grating-based detection
platform.
Burkhardt, M., Heinze, K.G., and Schwille, P., Opt Lett, 2005. 30(17):
pp. 2266-8.
Local mobility in
lipid domains of supported bilayers characterized by atomic force microscopy
and fluorescence correlation spectroscopy. Burns, A.R., Frankel, D.J., and Buranda, T., Biophys
J, 2005. 89(2): pp. 1081-93.
Reactant
concentrations from fluorescence correlation spectroscopy with tailored
fluorescent probes. An example of local calibration-free pH measurement. Charier, S., Meglio, A., Alcor,
D., Cogne-Laage, E., Allemand, J.F., Jullien, L., and Lemarchand, A., J Am
Chem Soc, 2005. 127(44): pp. 15491-505.
The kinetics of
conformational fluctuations in an unfolded protein measured by fluorescence
methods.
Chattopadhyay, K., Elson, E.L., and Frieden, C., Proc Natl Acad Sci U S A,
2005. 102(7): pp. 2385-9.
Measuring unfolding
of proteins in the presence of denaturant using fluorescence correlation
spectroscopy.
Chattopadhyay, K., Saffarian, S., Elson, E.L., and Frieden, C., Biophys J,
2005. 88(2): pp. 1413-22.
Unraveling
protein-protein interactions in living cells with fluorescence fluctuation
brightness analysis.
Chen, Y., Wei, L.N., and Muller, J.D., Biophys J, 2005. 88(6):
pp. 4366-77.
Dual-color
photon-counting histogram. Chen, Y., Tekmen, M., Hillesheim, L., Skinner, J., Wu, B., and Muller,
J.D., Biophys J, 2005. 88(3): pp. 2177-92.
Podophyllotoxin-loaded
solid lipid nanoparticles for epidermal targeting. Chen, H., Chang, X., Du, D., Liu,
W., Liu, J., Weng, T., Yang, Y., Xu, H., and Yang, X., J Control Release,
2006. 110(2): pp. 296-306.
Actin cytoskeleton as
the principal determinant of size-dependent DNA mobility in cytoplasm: a new
barrier for non-viral gene delivery. Dauty, E. and Verkman, A.S., J Biol Chem, 2005. 280(9):
pp. 7823-8.
Imaging molecular
interactions in living cells. Day, R.N. and Schaufele, F., Mol Endocrinol, 2005. 19(7):
pp. 1675-86.
Studying biophysical
barriers to DNA delivery by advanced light microscopy. De Smedt, S.C., Remaut, K., Lucas,
B., Braeckmans, K., Sanders, N.N., and Demeester, J., Adv Drug Deliv Rev,
2005. 57(1): pp. 191-210.
Measuring fast
dynamics in solutions and cells with a laser scanning microscope. Digman, M.A., Brown, C.M.,
Sengupta, P., Wiseman, P.W., Horwitz, A.R., and Gratton, E., Biophys J,
2005. 89(2): pp. 1317-27.
Characterization of
the photoconversion on reaction of the fluorescent protein Kaede on the
single-molecule level.
Dittrich, P.S., Schafer, S.P., and Schwille, P., Biophys J, 2005. 89(5):
pp. 3446-55.
Distribution, lateral
mobility and function of membrane proteins incorporated into giant unilamellar
vesicles. Doeven,
M.K., Folgering, J.H., Krasnikov, V., Geertsma, E.R., van den Bogaart, G., and
Poolman, B., Biophys J, 2005. 88(2): pp. 1134-42.
Kinetics of Insulin
Adsorption at the Oil-Water Interface and Diffusion Properties of Adsorbed
Layers Monitored Using Fluorescence Correlation Spectroscopy. Donsmark, J., Jorgensen, L.,
Mollmann, S., Frokjaer, S., and Rischel, C., Pharm Res, 2005.
A close look at
fluorescence quenching of organic dyes by tryptophan. Doose, S., Neuweiler, H., and
Sauer, M., Chemphyschem, 2005. 6(11): pp. 2277-85.
Comparison of
photophysical and colloidal properties of biocompatible semiconductor
nanocrystals using fluorescence correlation spectroscopy. Doose, S., Tsay, J.M., Pinaud, F.,
and Weiss, S., Anal Chem, 2005. 77(7): pp. 2235-42.
Investigation by
fluorescence correlation spectroscopy of the chaperoning interactions of HIV-1
nucleocapsid protein with the viral DNA initiation sequences. Egele, C., Schaub, E., Piemont,
E., de Rocquigny, H., and Mely, Y., C R Biol, 2005. 328(12): pp.
1041-51.
Comparison of
different fluorescence fluctuation methods for their use in FRET assays: monitoring
a protease reaction.
Eggeling, C., Jager, S., Winkler, D., and Kask, P., Curr Pharm Biotechnol,
2005. 6(5): pp. 351-71.
Molecular
photobleaching kinetics of Rhodamine 6G by one- and two-photon induced confocal
fluorescence microscopy. Eggeling, C., Volkmer, A., and Seidel, C.A., Chemphyschem,
2005. 6(5): pp. 791-804.
Rapid analysis of
Forster resonance energy transfer by two-color global fluorescence correlation
spectroscopy: trypsin proteinase reaction. Eggeling, C., Kask, P., Winkler, D., and Jager, S.,
Biophys J, 2005. 89(1): pp. 605-18.
Performance of
fluorescence correlation spectroscopy for measuring diffusion and concentration. Enderlein, J., Gregor, I., Patra,
D., Dertinger, T., and Kaupp, U.B., Chemphyschem, 2005. 6(11):
pp. 2324-36.
Statistical analysis
of diffusion coefficient determination by fluorescence correlation spectroscopy. Enderlein, J., Gregor, I., Patra,
D., and Fitter, J., J Fluoresc, 2005. 15(3): pp. 415-22.
Fluorescence imaging
reveals the nuclear behavior of peroxisome proliferator-activated
receptor/retinoid X receptor heterodimers in the absence and presence of ligand. Feige, J.N., Gelman, L., Tudor,
C., Engelborghs, Y., Wahli, W., and Desvergne, B., J Biol Chem, 2005. 280(18):
pp. 17880-90.
How the molecule
number is correctly quantified in two-color fluorescence cross-correlation
spectroscopy: corrections for cross-talk and quenching in experiments. Foldes-Papp, Z., Curr Pharm
Biotechnol, 2005. 6(6): pp. 437-44.
Dissociation of
nuclear import cargo complexes by the protein Ran: a fluorescence correlation
spectroscopy study.
Fradin, C., Zbaida, D., and Elbaum, M., C R Biol, 2005. 328(12):
pp. 1073-82.
CD8 kinetically
promotes ligand binding to the T-cell antigen receptor. Gakamsky, D.M., Luescher, I.F.,
Pramanik, A., Kopito, R.B., Lemonnier, F., Vogel, H., Rigler, R., and Pecht,
I., Biophys J, 2005. 89(3): pp. 2121-33.
Diffusion behavior of
gap junction hemichannels in living cells. Gerken, M., Thews, E., Tietz, C., Wrachtrup, J.,
and Eckert, R., Curr Pharm Biotechnol, 2005. 6(2): pp. 151-8.
Diffusion of
sphingomyelin and myelin oligodendrocyte glycoprotein in the membrane of OLN-93
oligodendroglial cells studied by fluorescence correlation spectroscopy. Gielen, E., Vercammen, J., Sykora,
J., Humpolickova, J., Vandeven, M., Benda, A., Hellings, N., Hof, M.,
Engelborghs, Y., Steels, P., and Ameloot, M., C R Biol, 2005. 328(12):
pp. 1057-64.
Molecular and
structural characterization of fluorescent human parvovirus B19 virus-like
particles. Gilbert,
L., Toivola, J., White, D., Ihalainen, T., Smith, W., Lindholm, L., Vuento, M.,
and Oker-Blom, C., Biochem Biophys Res Commun, 2005. 331(2): pp.
527-35.
Characterization of
interaction between cationic lipid-oligonucleotide complexes and cellular
membrane lipids using confocal imaging and fluorescence correlation
spectroscopy.
Gordon, S.P., Berezhna, S., Scherfeld, D., Kahya, N., and Schwille, P., Biophys
J, 2005. 88(1): pp. 305-16.
Fluorescence
correlation spectroscopy of molecular motions and kinetics. Gosch, M. and Rigler, R., Adv
Drug Deliv Rev, 2005. 57(1): pp. 169-90.
Optical saturation in
fluorescence correlation spectroscopy under continuous-wave and pulsed
excitation. Gregor,
I., Patra, D., and Enderlein, J., Chemphyschem, 2005. 6(1): pp.
164-70.
Single-molecule
studies on DNA and RNA. Greulich, K.O., Chemphyschem, 2005. 6(12): pp. 2458-71.
Diffusion and binding
properties investigated by Fluorescence Correlation Spectroscopy (FCS). Grunwald, D., Cardoso, M.C.,
Leonhardt, H., and Buschmann, V., Curr Pharm Biotechnol, 2005. 6(5):
pp. 381-6.
Structural aspects of
histone H1-DNA complexes and their relation to transfection efficiency. Haberland, A., Cartier, R., Heuer,
D., Zaitsev, S., Paulke, B.R., Schafer-Korting, M., and Bottger, M., Biotechnol
Appl Biochem, 2005. 42(Pt 2): pp. 107-17.
Diffusion in
two-component lipid membranes--a fluorescence correlation spectroscopy and
monte carlo simulation study. Hac, A.E., Seeger, H.M., Fidorra, M., and Heimburg, T., Biophys
J, 2005. 88(1): pp. 317-33.
High count rates with
total internal reflection fluorescence correlation spectroscopy. Hassler, K., Anhut, T., Rigler,
R., Gosch, M., and Lasser, T., Biophys J, 2005. 88(1): pp. L01-3.
Application of
fluorescence correlation spectroscopy to hapten-antibody binding. Hazlett, T.L., Ruan, Q., and Tetin,
S.Y., Methods Mol Biol, 2005. 305: pp. 415-38.
Deficiency of
disulfide bonds facilitating fibrillogenesis of endostatin. He, Y., Zhou, H., Tang, H., and
Luo, Y., J Biol Chem, 2006. 281(2): pp. 1048-57.
CK2 phosphorylation
of eukaryotic translation initiation factor 5 potentiates cell cycle
progression. Homma,
M.K., Wada, I., Suzuki, T., Yamaki, J., Krebs, E.G., and Homma, Y., Proc
Natl Acad Sci U S A, 2005. 102(43): pp. 15688-93.
Cluster formation of
nanoparticles in an optical trap studied by fluorescence correlation
spectroscopy.
Hosokawa, C., Yoshikawa, H., and Masuhara, H., Phys Rev E Stat Nonlin Soft
Matter Phys, 2005. 72(2 Pt 1): p. 021408.
Potential application
of synchronous fluorescence spectroscopy to determine benzo[a]pyrene in soil
extracts. Hua, G.,
Killham, K., and Singleton, I., Environ Pollut, 2006. 139(2): pp.
272-8.
Diffusion-time
distribution analysis reveals characteristic ligand-dependent interaction
patterns of nuclear receptors in living cells. Jankevics, H., Prummer, M., Izewska, P., Pick, H.,
Leufgen, K., and Vogel, H., Biochemistry, 2005. 44(35): pp.
11676-83.
Calixarene-coated
water-soluble CdSe-ZnS semiconductor quantum dots that are highly fluorescent
and stable in aqueous solution. Jin, T., Fujii, F., Sakata, H., Tamura, M., and Kinjo, M.,
Chem Commun (Camb), 2005(22): pp. 2829-31.
Raft partitioning and
dynamic behavior of human placental alkaline phosphatase in giant unilamellar
vesicles. Kahya,
N., Brown, D.A., and Schwille, P., Biochemistry, 2005. 44(20):
pp. 7479-89.
Differential lipid
packing abilities and dynamics in giant unilamellar vesicles composed of
short-chain saturated glycerol-phospholipids, sphingomyelin and cholesterol. Kahya, N., Scherfeld, D., and
Schwille, P., Chem Phys Lipids, 2005. 135(2): pp. 169-80.
Diffusion of spheres
in crowded suspensions of rods. Kang, K., Gapinski, J., Lettinga, M.P., Buitenhuis, J.,
Meier, G., Ratajczyk, M., Dhont, J.K., and Patkowski, A., J Chem Phys,
2005. 122(4): p. 44905.
Fluorescence
fluctuation spectroscopy in subdiffraction focal volumes. Kastrup, L., Blom, H., Eggeling,
C., and Hell, S.W., Phys Rev Lett, 2005. 94(17): p. 178104.
Fluorescence
correlation microscopy with real-time alignment readout. Kaushalya, S.K., Balaji, J.,
Garai, K., and Maiti, S., Appl Opt, 2005. 44(16): pp. 3262-5.
The phosducin-like
protein PhLP1 is essential for G{beta}{gamma} dimer formation in Dictyostelium
discoideum. Knol,
J.C., Engel, R., Blaauw, M., Visser, A.J., and van Haastert, P.J., Mol Cell
Biol, 2005. 25(18): pp. 8393-400.
Fluorescence correlation
spectroscopy with autofluorescent proteins. Kohl, T. and Schwille, P., Adv Biochem Eng
Biotechnol, 2005. 95: pp. 107-42.
Determining protease
activity in vivo by fluorescence cross-correlation analysis. Kohl, T., Haustein, E., and
Schwille, P., Biophys J, 2005. 89(4): pp. 2770-82.
Trapping,
deformation, and rotation of giant unilamellar vesicles in octode
dielectrophoretic field cages. Korlach, J., Reichle, C., Muller, T., Schnelle, T., and
Webb, W.W., Biophys J, 2005. 89(1): pp. 554-62.
Detection of motional
heterogeneities in lipid bilayer membranes by dual probe fluorescence
correlation spectroscopy. Korlach, J., Baumgart, T., Webb, W.W., and Feigenson, G.W., Biochim
Biophys Acta, 2005. 1668(2): pp. 158-63.
Propidium iodide and
PicoGreen as dyes for the DNA fluorescence correlation spectroscopy
measurements. Kral,
T., Widerak, K., Langner, M., and Hof, M., J Fluoresc, 2005. 15(2):
pp. 179-83.
Separating the
contribution of translational and rotational diffusion to protein association. Kuttner, Y.Y., Kozer, N., Segal,
E., Schreiber, G., and Haran, G., J Am Chem Soc, 2005. 127(43):
pp. 15138-44.
In situ measurements
of viral particles diffusion inside mucoid biofilms. Lacroix-Gueu, P., Briandet, R.,
Leveque-Fort, S., Bellon-Fontaine, M.N., and Fontaine-Aupart, M.P., C R Biol,
2005. 328(12): pp. 1065-72.
Enhancing the
sensitivity of fluorescence correlation spectroscopy by using time-correlated
single photon counting. Lamb, D.C., Muller, B.K., and Brauchle, C., Curr Pharm Biotechnol,
2005. 6(5): pp. 405-14.
Quantifying Pb and Cd
complexation by alginates and the role of metal binding on macromolecular
aggregation.
Lamelas, C., Avaltroni, F., Benedetti, M., Wilkinson, K.J., and Slaveykova,
V.I., Biomacromolecules, 2005. 6(5): pp. 2756-64.
Temporally resolved
interactions between antigen-stimulated IgE receptors and Lyn kinase on living
cells. Larson,
D.R., Gosse, J.A., Holowka, D.A., Baird, B.A., and Webb, W.W., J Cell Biol,
2005. 171(3): pp. 527-36.
Real-time RNA
profiling within a single bacterium. Le, T.T., Harlepp, S., Guet, C.C., Dittmar, K., Emonet,
T., Pan, T., and Cluzel, P., Proc Natl Acad Sci U S A, 2005. 102(26):
pp. 9160-4.
Functional
conformational motions in the turnover cycle of cholesterol oxidase. Lerch, H.P., Rigler, R., and
Mikhailov, A.S., Proc Natl Acad Sci U S A, 2005. 102(31): pp.
10807-12.
Albumin-protamine-oligonucleotide
nanoparticles as a new antisense delivery system. Part 1: physicochemical
characterization.
Lochmann, D., Weyermann, J., Georgens, C., Prassl, R., and Zimmer, A., Eur J
Pharm Biopharm, 2005. 59(3): pp. 419-29.
Measuring
protein-protein interactions inside living cells using single color
fluorescence correlation spectroscopy. Application to human immunodeficiency
virus type 1 integrase and LEDGF/p75. Maertens, G., Vercammen, J., Debyser, Z., and Engelborghs,
Y., FASEB J, 2005. 19(8): pp. 1039-41.
Modeling the
endosomal escape of cell-penetrating peptides: transmembrane pH gradient driven
translocation across phospholipid bilayers. Magzoub, M., Pramanik, A., and Graslund, A., Biochemistry,
2005. 44(45): pp. 14890-7.
Membrane perturbation
effects of peptides derived from the N-termini of unprocessed prion proteins. Magzoub, M., Oglecka, K.,
Pramanik, A., Goran Eriksson, L.E., and Graslund, A., Biochim Biophys Acta,
2005. 1716(2): pp. 126-36.
G-protein-coupled
glucocorticoid receptors on the pituitary cell membrane. Maier, C., Runzler, D.,
Schindelar, J., Grabner, G., Waldhausl, W., Kohler, G., and Luger, A., J
Cell Sci, 2005. 118(Pt 15): pp. 3353-61.
Translocation of
dynorphin neuropeptides across the plasma membrane. A putative mechanism of
signal transmission.
Marinova, Z., Vukojevic, V., Surcheva, S., Yakovleva, T., Cebers, G., Pasikova,
N., Usynin, I., Hugonin, L., Fang, W., Hallberg, M., Hirschberg, D., Bergman,
T., Langel, U., Hauser, K.F., Pramanik, A., Aldrich, J.V., Graslund, A.,
Terenius, L., and Bakalkin, G., J Biol Chem, 2005. 280(28): pp.
26360-70.
Single-molecule
studies of diffusion by oligomer-bound dyes in organically modified
sol-gel-derived silicate films. Martin-Brown, S.A., Fu, Y., Saroja, G., Collinson, M.M.,
and Higgins, D.A., Anal Chem, 2005. 77(2): pp. 486-94.
New fluorescence
correlation spectroscopy enabling direct observation of spatiotemporal
dependence of diffusion constants as an evidence of anomalous transport in
extracellular matrices. Masuda, A., Ushida, K., and Okamoto, T., Biophys J, 2005. 88(5):
pp. 3584-91.
An electrostatic
engine model for autoinhibition and activation of the epidermal growth factor
receptor (EGFR/ErbB) family. McLaughlin, S., Smith, S.O., Hayman, M.J., and Murray, D., J Gen
Physiol, 2005. 126(1): pp. 41-53.
Characterizing
observation volumes and the role of excitation saturation in one-photon
fluorescence fluctuation spectroscopy. Nagy, A., Wu, J., and Berland, K.M., J Biomed Opt,
2005. 10(4): p. 44015.
Observation volumes
and {gamma}-factors in two-photon fluorescence fluctuation spectroscopy. Nagy, A., Wu, J., and Berland,
K.M., Biophys J, 2005. 89(3): pp. 2077-90.
A microscopic view of
miniprotein folding: enhanced folding efficiency through formation of an
intermediate.
Neuweiler, H., Doose, S., and Sauer, M., Proc Natl Acad Sci U S A, 2005.
102(46): pp. 16650-5.
Dead-time distortion
in fluorescence correlation measurements. Nishimura, G. and Kinjo, M., Appl Opt, 2005. 44(17):
pp. 3458-67.
Monitoring the
interaction between DNA and a transcription factor (MEF2A) using fluorescence
correlation spectroscopy. Octobre, G., Lemercier, C., Khochbin, S., Robert-Nicoud, M., and
Souchier, C., C R Biol, 2005. 328(12): pp. 1033-40.
Hansenula polymorpha
Pex20p is an oligomer that binds the peroxisomal targeting signal 2 (PTS2). Otzen, M., Wang, D., Lunenborg,
M.G., and van der Klei, I.J., J Cell Sci, 2005. 118(Pt 15): pp.
3409-18.
Calculation of photon
count number distributions via Master equations. Palo, K., Mets, U., Loorits, V.,
and Kask, P., Biophys J, 2005.
Effect of bin time on
the photon counting histogram for one-photon excitation. Perroud, T.D., Huang, B., and
Zare, R.N., Chemphyschem, 2005. 6(5): pp. 905-12.
The nanopore connection
to cell membrane unitary permeability. Peters, R., Traffic, 2005. 6(3): pp.
199-204.
Imaging the secretory
pathway: the past and future impact of live cell optical techniques. Presley, J.F., Biochim Biophys
Acta, 2005. 1744(3): pp. 259-72.
Fluorescence
correlation spectroscopy studies of diffusion of a weak polyelectrolyte in
aqueous solutions.
Pristinski, D., Kozlovskaya, V., and Sukhishvili, S.A., J Chem Phys,
2005. 122(1): p. 14907.
Alpha 1-antitrypsin
polymerization: a fluorescence correlation spectroscopic study. Purkayastha, P., Klemke, J.W.,
Lavender, S., Oyola, R., Cooperman, B.S., and Gai, F., Biochemistry,
2005. 44(7): pp. 2642-9.
Protection of
oligonucleotides against nucleases by pegylated and non-pegylated liposomes as
studied by fluorescence correlation spectroscopy. Remaut, K., Lucas, B., Braeckmans,
K., Sanders, N.N., Demeester, J., and De Smedt, S.C., J Control Release,
2005. 110(1): pp. 212-26.
FRET-FCS as a tool to
evaluate the stability of oligonucleotide drugs after intracellular delivery. Remaut, K., Lucas, B., Braeckmans,
K., Sanders, N.N., De Smedt, S.C., and Demeester, J., J Control Release,
2005. 103(1): pp. 259-71.
Rapid, Diffusional
Shuttling of Poly(A) RNA between Nuclear Speckles and the Nucleoplasm. Ritland Politz, J.C., Tuft, R.A.,
Prasanth, K.V., Baudendistel, N., Fogarty, K.E., Lifshitz, L.M., Langowski, J.,
Spector, D.L., and Pederson, T., Mol Biol Cell, 2005.
lambda-Repressor
oligomerization kinetics at high concentrations using fluorescence correlation
spectroscopy in zero-mode waveguides. Samiee, K.T., Foquet, M., Guo, L., Cox, E.C., and
Craighead, H.G., Biophys J, 2005. 88(3): pp. 2145-53.
Lipid--protein
interactions revealed by two-photon microscopy and fluorescence correlation
spectroscopy.
Sanchez, S.A. and Gratton, E., Acc Chem Res, 2005. 38(6): pp.
469-77.
Metal-free catalysts
for the hydrolysis of RNA derived from guanidines, 2-aminopyridines, and
2-aminobenzimidazoles.
Scheffer, U., Strick, A., Ludwig, V., Peter, S., Kalden, E., and Gobel, M.W., J
Am Chem Soc, 2005. 127(7): pp. 2211-7.
The oxidation state
of a protein observed molecule-by-molecule. Schmauder, R., Librizzi, F., Canters, G.W.,
Schmidt, T., and Aartsma, T.J., Chemphyschem, 2005. 6(7): pp.
1381-6.
Substrate binding
stoichiometry and kinetics of the norepinephrine transporter. Schwartz, J.W., Novarino, G.,
Piston, D.W., and DeFelice, L.J., J Biol Chem, 2005. 280(19): pp.
19177-84.
DNA length evaluation
using cyanine dye and fluorescence correlation spectroscopy. Shimizu, M., Sasaki, S., and
Tsuruoka, M., Biomacromolecules, 2005. 6(5): pp. 2703-7.
Probing vesicle
dynamics in single hippocampal synapses. Shtrahman, M., Yeung, C., Nauen, D.W., Bi, G.Q., and Wu,
X.L., Biophys J, 2005. 89(5): pp. 3615-27.
Global analysis of
fluorescence fluctuation data. Skakun, V.V., Hink, M.A., Digris, A.V., Engel, R.,
Novikov, E.G., Apanasovich, V.V., and Visser, A.J., Eur Biophys J, 2005.
34(4): pp. 323-34.
Position-sensitive
scanning fluorescence correlation spectroscopy. Skinner, J.P., Chen, Y., and
Muller, J.D., Biophys J, 2005. 89(2): pp. 1288-301.
Breakdown of axonal
synaptic vesicle precursor transport by microglial nitric oxide. Stagi, M., Dittrich, P.S., Frank,
N., Iliev, A.I., Schwille, P., and Neumann, H., J Neurosci, 2005. 25(2):
pp. 352-62.
Single molecule studies
of quantum dot conjugates in a submicrometer fluidic channel. Stavis, S.M., Edel, J.B., Samiee,
K.T., and Craighead, H.G., Lab Chip, 2005. 5(3): pp. 337-43.
Reversible
aggregation of polystyrene-block-poly(2-vinylpyridine)-block-poly(ethylene
oxide) block copolymer micelles in acidic aqueous Solutions. Stepanek, M., Matejicek, P.,
Humpolickova, J., and Prochazka, K., Langmuir, 2005. 21(23): pp.
10783-90.
One-step analysis of
protein complexes in microliters of cell lysate. Stoevesandt, O., Kohler, K.,
Fischer, R., Johnston, I.C., and Brock, R., Nat Methods, 2005. 2(11):
pp. 833-5.
Analysis of cellular
functions by multipoint fluorescence correlation spectroscopy. Takahashi, Y., Sawada, R.,
Ishibashi, K., Mikuni, S., and Kinjo, M., Curr Pharm Biotechnol, 2005. 6(2):
pp. 159-65.
Quantitative
fluorescence microscopy of macromolecules in gel and biological tissue. Tatarkova, S.A., Kamra Verma, A.,
Berk, D.A., and Lloyd, C.J., Phys Med Biol, 2005. 50(23): pp.
5759-68.
Probing single DNA
mobility with fluorescence correlation microscopy. Tatarkova, S.A. and Berk, D.A., Phys
Rev E Stat Nonlin Soft Matter Phys, 2005. 71(4 Pt 1): p. 041913.
Highlighting protein
kinase CK2 movement in living cells. Theis-Febvre, N., Martel, V., Laudet, B., Souchier, C.,
Grunwald, D., Cochet, C., and Filhol, O., Mol Cell Biochem, 2005. 274(1-2):
pp. 15-22.
Cross talk free
fluorescence cross correlation spectroscopy in live cells. Thews, E., Gerken, M., Eckert, R.,
Zapfel, J., Tietz, C., and Wrachtrup, J., Biophys J, 2005. 89(3):
pp. 2069-76.
Disassembly of
structurally modified viral nanoparticles: characterization by fluorescence
correlation spectroscopy. Toivola, J., Gilbert, L., Michel, P., White, D., Vuento, M., and
Oker-Blom, C., C R Biol, 2005. 328(12): pp. 1052-6.
Study of molecular
events in cells by fluorescence correlation spectroscopy. Vukojevic, V., Pramanik, A.,
Yakovleva, T., Rigler, R., Terenius, L., and Bakalkin, G., Cell Mol Life Sci,
2005. 62(5): pp. 535-50.
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