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Interaction of mucin with cholesterol enriched vesicles: role of mucin structural domains
. Afdhal, N.H., Cao, X., Bansil, R.,
Hong, Z., Thompson, C., Brown, B., and Wolf, D., Biomacromolecules,
2004. 5(2): pp. 269-75.
Comparative study of
the haplotype structure and linkage disequilibrium of chromosome 1p36.2 region
in the Korean and Japanese populations. Akesaka, T., Lee, S.G., Ohashi, J., Bannai, M., Tsuchiya,
N., Yoon, Y., Tokunaga, K., and Song, K., J Hum Genet, 2004. 49(11):
pp. 603-9.
Fluorescence correlation
spectroscopy relates rafts in model and native membranes. Bacia, K., Scherfeld, D., Kahya,
N., and Schwille, P., Biophys J, 2004. 87(2): pp. 1034-43.
Characterizing
specific phage-protein interactions by fluorescence correlation spectroscopy. Bahns, J.T., Liu, C.M., and Chen,
L., Protein Sci, 2004. 13(10): pp. 2578-87.
Single-nucleotide-polymorphism
genotyping for whole-genome-amplified samples using automated fluorescence
correlation spectroscopy. Bannai, M., Higuchi, K., Akesaka, T., Furukawa, M., Yamaoka, M., Sato,
K., and Tokunaga, K., Anal Biochem, 2004. 327(2): pp. 215-21.
Polarized
fluorescence correlation spectroscopy of DNA-DAPI complexes. Barcellona, M.L., Gammon, S.,
Hazlett, T., Digman, M.A., and Gratton, E., Microsc Res Tech, 2004. 65(4-5):
pp. 205-17.
Detection of specific
DNA sequences using dual-color two-photon fluorescence correlation spectroscopy. Berland, K.M., J Biotechnol,
2004. 108(2): pp. 127-36.
Fluorescence
correlation spectroscopy: a new tool for quantification of molecular
interactions.
Berland, K.M., Methods Mol Biol, 2004. 261: pp. 383-98.
Characterization of
simian virus 40 on its infectious entry pathway in cells using fluorescence
correlation spectroscopy. Bernacchi, S., Mueller, G., Langowski, J., and Waldeck, W., Biochem
Soc Trans, 2004. 32(Pt 5): pp. 746-9.
The mobility of
phytochrome within protonemal tip cells of the moss Ceratodon purpureus,
monitored by fluorescence correlation spectroscopy. Bose, G., Schwille, P., and
Lamparter, T., Biophys J, 2004. 87(3): pp. 2013-21.
Hydrodynamics of
nanoscopic tubulin rings in dilute solutions. Boukari, H., Nossal, R., Sackett, D.L., and Schuck,
P., Phys Rev Lett, 2004. 93(9): p. 098106.
Quantitative analysis
of the formation and diffusion of A1-adenosine receptor-antagonist complexes in
single living cells.
Briddon, S.J., Middleton, R.J., Cordeaux, Y., Flavin, F.M., Weinstein, J.A.,
George, M.W., Kellam, B., and Hill, S.J., Proc Natl Acad Sci U S A,
2004. 101(13): pp. 4673-8.
Application of
fluorescence correlation spectroscopy to the measurement of agonist binding to
a G-protein coupled receptor at the single cell level. Briddon, S.J., Middleton, R.J.,
Yates, A.S., George, M.W., Kellam, B., and Hill, S.J., Faraday Discuss,
2004. 126: pp. 197-207; discussion 245-54.
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.
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.
Mechanism of protein
binding to spherical polyelectrolyte brushes studied in situ using two-photon
excitation fluorescence fluctuation spectroscopy. Czeslik, C., Jansen, R., Ballauff,
M., Wittemann, A., Royer, C.A., Gratton, E., and Hazlett, T., Phys Rev E
Stat Nonlin Soft Matter Phys, 2004. 69(2 Pt 1): p. 021401.
Molecular crowding
reduces to a similar extent the diffusion of small solutes and macromolecules:
measurement by fluorescence correlation spectroscopy. Dauty, E. and Verkman, A.S., J
Mol Recognit, 2004. 17(5): pp. 441-7.
Photobleaching,
mobility, and compartmentalisation: inferences in fluorescence correlation
spectroscopy.
Delon, A., Usson, Y., Derouard, J., Biben, T., and Souchier, C., J Fluoresc,
2004. 14(3): pp. 255-67.
Binding of the
b-subunit in the ATP synthase from Escherichia coli. Diez, M., Borsch, M., Zimmermann,
B., Turina, P., Dunn, S.D., and Graber, P., Biochemistry, 2004. 43(4):
pp. 1054-64.
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.
Development of
miniaturized competitive immunoassays on a protein chip as a screening tool for
drugs. Du, H., Wu,
M., Yang, W., Yuan, G., Sun, Y., Lu, Y., Zhao, S., Du, Q., Wang, J., Yang, S.,
Pan, M., Wang, S., and Cheng, J., Clin Chem, 2005. 51(2): pp.
368-75.
Fluorescence-based
assessment of LRP activity: a comparative study. Durdux, M., Grunwald, D., Gautier,
T., Ronot, X., and Boutonnat, J., Anticancer Res, 2004. 24(2B):
pp. 725-32.
HIV-1 nucleocapsid
protein binds to the viral DNA initiation sequences and chaperones their
kissing interactions.
Egele, C., Schaub, E., Ramalanjaona, N., Piemont, E., Ficheux, D., Roques, B.,
Darlix, J.L., and Mely, Y., J Mol Biol, 2004. 342(2): pp. 453-66.
Quick tour of
fluorescence correlation spectroscopy from its inception. Elson, E.L., J Biomed Opt,
2004. 9(5): pp. 857-64.
Art and artefacts of
fluorescence correlation spectroscopy. Enderlein, J., Gregor, I., Patra, D., and Fitter, J., Curr
Pharm Biotechnol, 2004. 5(2): pp. 155-61.
Toward oxygen binding
curves of single respiratory proteins. Erker, W., Lippitz, M., Basche, T., and Decker, H., Micron,
2004. 35(1-2): pp. 111-3.
Size effects on
diffusion processes within agarose gels. Fatin-Rouge, N., Starchev, K., and Buffle, J., Biophys
J, 2004. 86(5): pp. 2710-9.
Focal volume confinement
by submicrometer-sized fluidic channels. Foquet, M., Korlach, J., Zipfel, W.R., Webb, W.W., and
Craighead, H.G., Anal Chem, 2004. 76(6): pp. 1618-26.
Assembly of
fluorescent chimeric virus-like particles of canine parvovirus in insect cells. Gilbert, L., Toivola, J.,
Lehtomaki, E., Donaldson, L., Kapyla, P., Vuento, M., and Oker-Blom, C., Biochem
Biophys Res Commun, 2004. 313(4): pp. 878-87.
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.
Parallel single
molecule detection with a fully integrated single-photon 2x2 CMOS detector
array. Gosch, M.,
Serov, A., Anhut, T., Lasser, T., Rochas, A., Besse, P.A., Popovic, R.S., Blom,
H., and Rigler, R., J Biomed Opt, 2004. 9(5): pp. 913-21.
The role of
subtype-specific ligand binding and the C-tail domain in dimer formation of human
somatostatin receptors. Grant, M., Patel, R.C., and Kumar, U., J Biol Chem, 2004. 279(37):
pp. 38636-43.
Agonist-dependent
dissociation of human somatostatin receptor 2 dimers: a role in receptor
trafficking. Grant,
M., Collier, B., and Kumar, U., J Biol Chem, 2004. 279(35): pp.
36179-83.
Flow profiling of a
surface-acoustic-wave nanopump. Guttenberg, Z., Rathgeber, A., Keller, S., Radler, J.O.,
Wixforth, A., Kostur, M., Schindler, M., and Talkner, P., Phys Rev E Stat
Nonlin Soft Matter Phys, 2004. 70(5 Pt 2): p. 056311.
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.
Single-molecule
spectroscopic methods.
Haustein, E. and Schwille, P., Curr Opin Struct Biol, 2004. 14(5):
pp. 531-40.
Dye-labeled
benzodiazepines: development of small ligands for receptor binding studies
using fluorescence correlation spectroscopy. Hegener, O., Jordan, R., and Haberlein, H., J
Med Chem, 2004. 47(14): pp. 3600-5.
Dynamics of
beta2-adrenergic receptor-ligand complexes on living cells. Hegener, O., Prenner, L., Runkel,
F., Baader, S.L., Kappler, J., and Haberlein, H., Biochemistry, 2004. 43(20):
pp. 6190-9.
Partitioning of NaPi
cotransporter in cholesterol-, sphingomyelin-, and glycosphingolipid-enriched
membrane domains modulates NaPi protein diffusion, clustering, and activity. Inoue, M., Digman, M.A., Cheng,
M., Breusegem, S.Y., Halaihel, N., Sorribas, V., Mantulin, W.W., Gratton, E.,
Barry, N.P., and Levi, M., J Biol Chem, 2004. 279(47): pp.
49160-71.
Lipid domain
formation and dynamics in giant unilamellar vesicles explored by fluorescence
correlation spectroscopy. Kahya, N., Scherfeld, D., Bacia, K., and Schwille, P., J Struct
Biol, 2004. 147(1): pp. 77-89.
Intracellular
calmodulin availability accessed with two-photon cross-correlation. Kim, S.A., Heinze, K.G., Waxham,
M.N., and Schwille, P., Proc Natl Acad Sci U S A, 2004. 101(1):
pp. 105-10.
Detection of
protein-DNA interactions in crude cellular extracts by fluorescence correlation
spectroscopy.
Kobayashi, T., Okamoto, N., Sawasaki, T., and Endo, Y., Anal Biochem,
2004. 332(1): pp. 58-66.
[A study of
interaction of 7-aminoactinomycin D with DNA by fluorescence correlation
spectroscopy].
Kovalev, A.E., Iakovenko, A.A., and Vekshin, N.L., Biofizika, 2004. 49(6):
pp. 1030-7.
Correct diffusion
coefficients of proteins in fluorescence correlation spectroscopy. Application
to tubulin oligomers induced by Mg2+ and Paclitaxel. Krouglova, T., Vercammen, J., and
Engelborghs, Y., Biophys J, 2004. 87(4): pp. 2635-46.
Application of
fluorescence correlation spectroscopy for velocity imaging in microfluidic
devices. Kuricheti,
K.K., Buschmann, V., and Weston, K.D., Appl Spectrosc, 2004. 58(10):
pp. 1180-6.
The structural
transition of the prion protein into its pathogenic conformation is induced by
unmasking hydrophobic sites. Leffers, K.W., Schell, J., Jansen, K., Lucassen, R., Kaimann, T.,
Nagel-Steger, L., Tatzelt, J., and Riesner, D., J Mol Biol, 2004. 344(3):
pp. 839-53.
Self-diffusion of
rodlike and spherical particles in a matrix of charged colloidal spheres: A
comparison between fluorescence recovery after photobleaching and fluorescence
correlation spectroscopy. Lellig, C., Wagner, J., Hempelmann, R., Keller, S., Lumma, D., and
Hartl, W., J Chem Phys, 2004. 121(14): pp. 7022-9.
Fluorescence
correlation spectroscopy and quantitative cell biology. Levin, M.K. and Carson, J.H., Differentiation,
2004. 72(1): pp. 1-10.
Measuring
single-molecule nucleic acid dynamics in solution by two-color filtered
ratiometric fluorescence correlation spectroscopy. Li, H., Ren, X., Ying, L.,
Balasubramanian, S., and Klenerman, D., Proc Natl Acad Sci U S A, 2004. 101(40):
pp. 14425-30.
Perturbation of
Lipopolysaccharide (LPS) Micelles by Sushi 3 (S3) antimicrobial peptide. The
importance of an intermolecular disulfide bond in S3 dimer for binding,
disruption, and neutralization of LPS. Li, P., Wohland, T., Ho, B., and Ding, J.L., J Biol
Chem, 2004. 279(48): pp. 50150-6.
Total internal
reflection with fluorescence correlation spectroscopy: nonfluorescent
competitors. Lieto,
A.M. and Thompson, N.L., Biophys J, 2004. 87(2): pp. 1268-78.
Technological
advances in high-throughput screening. Liu, B., Li, S., and Hu, J., Am J Pharmacogenomics,
2004. 4(4): pp. 263-76.
Structure property
analysis of pentamethine indocyanine dyes: identification of a new dye for life
science applications.
Mader, O., Reiner, K., Egelhaaf, H.J., Fischer, R., and Brock, R., Bioconjug
Chem, 2004. 15(1): pp. 70-8.
Fluorescence
correlation spectroscopy: incorporation of probe volume effects into the
three-dimensional Gaussian approximation. Marrocco, M., Appl Opt, 2004. 43(27): pp.
5251-62.
A new approach for
fluorescence correlation spectroscopy (FCS) based immunoassays. Mayboroda, O.A., van Remoortere,
A., Tanke, H.J., Hokke, C.H., and Deelder, A.M., J Biotechnol, 2004. 107(2):
pp. 185-92.
Modifying the
adsorption behavior of polyamidoamine dendrimers at silica surfaces
investigated by total internal reflection fluorescence correlation spectroscopy. McCain, K.S., Schluesche, P., and
Harris, J.M., Anal Chem, 2004. 76(4): pp. 930-8.
Structure and
dynamics of lipoplex formation examined using two-photon fluorescence
cross-correlation spectroscopy. Merkle, D., Lees-Miller, S.P., and Cramb, D.T., Biochemistry,
2004. 43(23): pp. 7263-72.
Interaction assay of
oligosaccharide with lectins using glycosylasparagine. Mizuno, M., Noguchi, M., Imai, M.,
Motoyoshi, T., and Inazu, T., Bioorg Med Chem Lett, 2004. 14(2):
pp. 485-90.
Maximum-entropy
decomposition of fluorescence correlation spectroscopy data: application to
liposome-human serum albumin association. Modos, K., Galantai, R., Bardos-Nagy, I., Wachsmuth, M.,
Toth, K., Fidy, J., and Langowski, J., Eur Biophys J, 2004. 33(1):
pp. 59-67.
How confined
lubricants diffuse during shear. Mukhopadhyay, A., Bae, S.C., Zhao, J., and Granick, S., Phys
Rev Lett, 2004. 93(23): p. 236105.
Two-dimensional
fluorescence correlation spectroscopy II: spectral analysis of derivatives of
anthracene and pyrene in micellar solutions. Nakashima, K., Yuda, K., Ozaki, Y., and Noda, I., Spectrochim
Acta A Mol Biomol Spectrosc, 2004. 60(8-9): pp. 1783-91.
Photophysical aspects
of single-molecule detection by two-photon excitation with consideration of
sequential pulsed illumination. Niesner, R., Roth, W., and Gericke, K.H., Chemphyschem,
2004. 5(5): pp. 678-87.
Real-time monitoring
of in vitro transcriptional RNA by using fluorescence correlation spectroscopy. Nomura, Y. and Kinjo, M., Chembiochem,
2004. 5(12): pp. 1701-3.
Vesicle encapsulation
studies reveal that single molecule ribozyme heterogeneities are intrinsic. Okumus, B., Wilson, T.J., Lilley,
D.M., and Ha, T., Biophys J, 2004. 87(4): pp. 2798-806.
New chimera proteins
for fluorescence correlation spectroscopy. Olah, Z., Trier, U., Sauer, B., Schafer-Korting,
M., and Kleuser, B., Pharmazie, 2004. 59(7): pp. 516-23.
Ligand-receptor
interactions in live cells by fluorescence correlation spectroscopy. Pramanik, A., Curr Pharm
Biotechnol, 2004. 5(2): pp. 205-12.
Determination of the
bioavailability of biotin conjugated onto shell cross-linked (SCK)
nanoparticles. Qi,
K., Ma, Q., Remsen, E.E., Clark, C.G., Jr., and Wooley, K.L., J Am Chem Soc,
2004. 126(21): pp. 6599-607.
Fluorescence
correlation spectroscopy with high-order and dual-color correlation to probe
nonequilibrium steady states. Qian, H. and Elson, E.L., Proc Natl Acad Sci U S A,
2004. 101(9): pp. 2828-33.
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.
Discerning
aggregation in homogeneous ensembles: a general description of photon counting
spectroscopy in diffusing systems. Ren, H.C., Goddard, N.L., Altan-Bonnet, G., and Libchaber,
A., Phys Rev E Stat Nonlin Soft Matter Phys, 2004. 69(5 Pt 1): p.
051916.
pH microdomains in
oligodendrocytes.
Ro, H.A. and Carson, J.H., J Biol Chem, 2004. 279(35): pp.
37115-23.
Spatial-temporal
studies of membrane dynamics: scanning fluorescence correlation spectroscopy
(SFCS). Ruan, Q.,
Cheng, M.A., Levi, M., Gratton, E., and Mantulin, W.W., Biophys J, 2004.
87(2): pp. 1260-7.
Pleckstrin homology
domain diffusion in Dictyostelium cytoplasm studied using fluorescence
correlation spectroscopy. Ruchira, Hink, M.A., Bosgraaf, L., van Haastert, P.J., and Visser,
A.J., J Biol Chem, 2004. 279(11): pp. 10013-9.
Fluorescence
correlation spectroscopy studies of Peptide and protein binding to phospholipid
vesicles. Rusu, L.,
Gambhir, A., McLaughlin, S., and Radler, J., Biophys J, 2004. 87(2):
pp. 1044-53.
Prevention of
Alzheimer's disease-associated Abeta aggregation by rationally designed
nonpeptidic beta-sheet ligands. Rzepecki, P., Nagel-Steger, L., Feuerstein, S., Linne, U.,
Molt, O., Zadmard, R., Aschermann, K., Wehner, M., Schrader, T., and Riesner,
D., J Biol Chem, 2004. 279(46): pp. 47497-505.
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.
Tubulin equilibrium
unfolding followed by time-resolved fluorescence and fluorescence correlation
spectroscopy.
Sanchez, S.A., Brunet, J.E., Jameson, D.M., Lagos, R., and Monasterio, O., Protein
Sci, 2004. 13(1): pp. 81-8.
Photodynamics of red
fluorescent proteins studied by fluorescence correlation spectroscopy. Schenk, A., Ivanchenko, S.,
Rocker, C., Wiedenmann, J., and Nienhaus, G.U., Biophys J, 2004. 86(1
Pt 1): pp. 384-94.
High- and
low-mobility populations of HP1 in heterochromatin of mammalian cells. Schmiedeberg, L., Weisshart, K.,
Diekmann, S., Meyer Zu Hoerste, G., and Hemmerich, P., Mol Biol Cell,
2004. 15(6): pp. 2819-33.
DNA measurements by
using fluorescence correlation spectroscopy and two-color fluorescence cross
correlation spectroscopy. Takagi, T., Kii, H., and Kinjo, M., Curr Pharm Biotechnol,
2004. 5(2): pp. 199-204.
Antibodies in
diagnostic applications. Tetin, S.Y. and Stroupe, S.D., Curr Pharm Biotechnol, 2004. 5(1):
pp. 9-16.
Monitoring human
parvovirus B19 virus-like particles and antibody complexes in solution by
fluorescence correlation spectroscopy. Toivola, J., Michel, P.O., Gilbert, L., Lahtinen, T.,
Marjomaki, V., Hedman, K., Vuento, M., and Oker-Blom, C., Biol Chem,
2004. 385(1): pp. 87-93.
Protein folding by
the effects of macromolecular crowding. Tokuriki, N., Kinjo, M., Negi, S., Hoshino, M., Goto, Y.,
Urabe, I., and Yomo, T., Protein Sci, 2004. 13(1): pp. 125-33.
Single-nucleotide
polymorphism detection using nanomolar nucleotides and single-molecule
fluorescence.
Twist, C.R., Winson, M.K., Rowland, J.J., and Kell, D.B., Anal Biochem,
2004. 327(1): pp. 35-44.
Denaturation of dsDNA
by p53: fluorescence correlation spectroscopy study. Vukojevic, V., Yakovleva, T.,
Terenius, L., Pramanik, A., and Bakalkin, G., Biochem Biophys Res Commun,
2004. 316(4): pp. 1150-5.
Fluorescence
correlation spectroscopy investigation of a GFP mutant-enhanced cyan
fluorescent protein and its tubulin fusion in living cells with two-photon
excitation. Wang,
Z., Shah, J.V., Chen, Z., Sun, C.H., and Berns, M.W., J Biomed Opt,
2004. 9(2): pp. 395-403.
Molecular dynamics of
STAT3 on IL-6 signaling pathway in living cells. Watanabe, K., Saito, K., Kinjo,
M., Matsuda, T., Tamura, M., Kon, S., Miyazaki, T., and Uede, T., Biochem
Biophys Res Commun, 2004. 324(4): pp. 1264-73.
Anomalous
subdiffusion is a measure for cytoplasmic crowding in living cells. Weiss, M., Elsner, M., Kartberg,
F., and Nilsson, T., Biophys J, 2004. 87(5): pp. 3518-24.
The LSM 510 META -
ConfoCor 2 system: an integrated imaging and spectroscopic platform for
single-molecule detection. Weisshart, K., Jungel, V., and Briddon, S.J., Curr Pharm Biotechnol,
2004. 5(2): pp. 135-54.
Physicochemical
characterisation of cationic polybutylcyanoacrylate-nanoparticles by
fluorescence correlation spectroscopy. Weyermann, J., Lochmann, D., Georgens, C., Rais, I.,
Kreuter, J., Karas, M., Wolkenhauer, M., and Zimmer, A., Eur J Pharm
Biopharm, 2004. 58(1): pp. 25-35.
Self-diffusion in
solutions of a 20 base pair oligonucleotide: effects of concentration and ionic
strength. Wilk, A.,
Gapinski, J., Patkowski, A., and Pecora, R., J Chem Phys, 2004. 121(21):
pp. 10794-802.
Direct gene
expression analysis.
Winter, H., Korn, K., and Rigler, R., Curr Pharm Biotechnol, 2004. 5(2):
pp. 191-7.
Endothelin receptor
in virus-like particles: ligand binding observed by fluorescence fluctuation
spectroscopy.
Zemanova, L., Schenk, A., Hunt, N., Nienhaus, G.U., and Heilker, R., Biochemistry,
2004. 43(28): pp. 9021-8.
Fluorescence microscopy studies with a fluorescent glibenclamide derivative, a high-affinity blocker of pancreatic beta-cell ATP-sensitive K+ currents. Zunkler, B.J., Wos-Maganga, M., and Panten, U., Biochem Pharmacol, 2004. 67(8): pp. 1437-44.