Publications
Research articles
(as
first, co- or
corresponding author)
- Khmelinski A, Keller PJ, Bartosik A, Meurer M, Barry JD,
Mardin BR, Kaufmann A, Trautmann S, Wachsmuth M, Pereira G, Huber W,
Schiebel E, and Knop M (2012). Tandem fluorescent protein timers for in
vivo analysis of protein dynamics. Nat. Biotechnol. 30, 708-714.
- Capoulade J, Wachsmuth M,
Hufnagel L, and Knop M (2011). Quantitative
imaging of fluorescent protein diffusion and interaction inside cells.
Nat. Biotechnol. 29, 835-839.
- Erdel F, Müller-Ott K, Baum M, Wachsmuth M, and Rippe K (2011).
Dissecting chromatin interactions in living cells from protein mobility
maps. Chromosome Res. 19, 99-115.
- Im K-B, Kang M-S, Kim J, Bestvater F, Seghiri Z, Wachsmuth M, and Grailhe R
(2010). Two-photon spectral imaging with high temporal and spectral
resolution. Optics Express 18, 26905-26914.
- Bestvater F, Seghiri Z, Kang MS, Gröner N, Lee JY, Im K-B, and Wachsmuth M (2010).
EMCCD-based spectrally resolved fluorescence correlation spectroscopy.
Optics Express 18, 23818-23828.
- Gröner N, Capoulade J, Cremer C, and Wachsmuth M
(2010). Measuring and imaging diffusion with multiple scan speed image
correlation spectroscopy. Optics Express 18, 21225-21237.
- Müller KP, Erdel F, Caudron-Herger M, Marth C, Fodor BD,
Richter M,
Scaranaro M, Beaudouin J, Wachsmuth M, and Rippe K (2009). Multiscale
Analysis of Dynamics and Interactions of Heterochromatin Protein 1 by
Fluorescence Fluctuation Microscopy. Biophys. J. 97, 2876-2885.
- Heuvelman G, Erdel F, Wachsmuth
M,
and Rippe K (2009).
Analysis of protein mobilities and interactions in living cells by
multifocal fluorescence fluctuation microscopy. Eur. Biophys. J. 38,
813-828.
- Schmidt U, Im K-B, Benzing C, Janjetovic S, Rippe K,
Lichter P,
and Wachsmuth M
(2009). Assembly and mobility of exon-exon junction
complexes with mRNA in the nucleus. RNA 15, 862-876.
- Jegou T, Chung I, Heuvelmann G, Wachsmuth M,
Görisch SM, Greulich-Bode K, Boukamp P, Lichter P and Rippe
K (2009). Dynamics of telomeres and PML nuclear bodies in a telomerase
negative human cell line. Mol Biol Cell 20, 2070-2082.
- Mozziconacci J, Sandblad L, Wachsmuth M, Brunner D,
and Karsenti E (2008). Tubulin Dimers Oligomerize before Their
Incorporation into Microtubules. PLoS ONE 3, e3821.
- Dusch E, Dorval T, Vincent N, Wachsmuth M, and
Genovesio A (2007). Three-dimensional point spread function model for
line-scanning confocal microscope with high-aperture objective. J.
Microsc. 228: 132-138.
- Strohner R, Wachsmuth M, Dachauer K, Mazurkiewicz
J, Hochstätter J, Rippe K, and Längst G (2005). A 'loop
recapture' mechanism for ACF-dependent nucleosome remodeling. Nat.
Struct. Mol. Biol. 12, 683-690.
- Görisch SM, Wachsmuth, M, Fejes Tóth K, Lichter P,
and Rippe K (2005). Histone acetylation increases chromatin
accessibility, J. Cell Sci. 118, 5825-5834.
- Sommer P, Vartanian JP, Wachsmuth M, Henry M, Guetard D,
and Wain-Hobson, S (2004). Anti-termination by SIV Tat requires
flexibility of the nascent TAR structure. J. Mol. Biol. 344, 11-28.
- Módos K, Galántai R, Bárdos-Nagy I, Wachsmuth M, Tóth K,
Fidy J, and Langowski J (2004). Maximum-entropy decomposition of
fluorescence correlation spectroscopy data: application to
liposome-human serum albumin association. Eur. Biophys. J. 33, 59-67.
- Görisch SM, Wachsmuth M, Ittrich C, Bacher CP, Rippe K, and
Lichter P (2004). Nuclear body movement is determined by chromatin
accessibility and dynamics. Proc. Nat. Acad. Sci. USA 101, 13221-13226.
- Fejes Tóth K, Knoch TA, Wachsmuth M, Stöhr M, Frank-Stöhr
M, Bacher CP, Müller G, and Rippe K (2004). Trichostatin A induced
histone acetylation causes decondensation of interphase chromatin. J.
Cell Sci. 117, 4277-4287.
- Weidemann T, Wachsmuth M, Knoch TA, Müller G, Waldeck W,
and Langowski J (2003). Counting nucleosomes in living cells with a
combination of fluorescence correlation spectroscopy and confocal
imaging. J. Mol. Biol. 334, 229-240.
- Wachsmuth M, Weidemann T,
Müller G, Hoffmann-Rohrer UW,
Knoch TA,
Waldeck W, and Langowski J (2003). Analyzing Intracellular Binding and
Diffusion with Continuous Fluorescence Photobleaching. Biophys. J. 84,
3353-3363.
- Braun K, Peschke P, Pipkorn R, Lampel S, Wachsmuth M,
Waldeck W,
Friedrich E, and Debus J (2002). A biological transporter for the
delivery of peptide nucleic acids (PNAs) to the nuclear compartment of
living cells. J. Mol. Biol. 318, 237-243.
- Wachsmuth M, Waldeck W,
and Langowski J (2000). Anomalous
diffusion of fluorescent probes inside living cell nuclei investigated
by
spatially-resolved fluorescence correlation spectroscopy. J. Mol. Biol.
298, 677-689.
Review articles
- Wachsmuth M,
Caudron-Herger M, and Rippe K. (2008). Genome
organization: balancing stability and plasticity. Biochim. Biophys.
Acta 1783, 2061-2079.
- Weidemann T, Wachsmuth M, Tewes M, Rippe K, and Langowski J
(2002). Analysis of ligand binding by two-colour fluorescence
cross-correlation spectroscopy. Single Molecules 3, 49-61.
Book chapters
- Wachsmuth
M, and Weisshart K (2007). Fluorescence
photobleaching and fluorescence correlation spectroscopy: two
complementary technologies to study molecular dynamics in living cells.
In Imaging Cellular and Molecular Biological Functions (eds. Shorte S,
and Frischknecht F), Springer Verlag, Heidelberg.
- Langowski J, Wachsmuth M, Rippe K, and Tewes M (2000).
Biomolecular
shape and interactions determined by fluorescence correlation
spectroscopy. In Energies et forces de l'interaction entre
macromolécules biologiques: l'aspect quantitatif (ed. Frénoy J-P),
Publications CNRS, Paris.
Patents
- Wachsmuth M,
Capoulade J, and Knop M (2011). Light-pad microscope for
high-resolution 3D fluorescence imaging and 2D fluctuation
spectroscopy. US Patent Application US 6144 2616.
- Wachsmuth M, Heuvelman G, and Rippe K (2006). Vorrichtung
zur
multifokalen konfokalen mikroskopischen Bestimmung der räumlichen
Verteilung und zur multifokalen Fluktuationsanalyse von fluoreszenten
Molekülen und Strukturen mit spektral flexibler Detektion. German
Patent DE 10 2005 000 915.
- Wachsmuth M (2005). Verfahren zur Messung von
Fluoreszenzkorrelationen
in Gegenwart von langsamen Signalschwankungen. German Patent DE 103 27
531.
- Wachsmuth M (2005). Vorrichtung zur Bestimmung gerichteter
Transportprozesse. German Patent DE 103 27 531.
- Wachsmuth M, and Langowski J (2002).
Fluoreszenzfluktuationsmikroskop,
-messmodul bzw. –scanmodul und Verfahren zur
Fluoreszenzfluktuationsmessung. German Patent DE 101 22
046.
Overview