Publications

  1. Sergei Stepanov, Sergei Bakhlanov, Evgeny Drobchenko, Hann-Jorg Eckert and Klaus Kemnitz. Widefield TSCSPC-Systems with Large-Area-Detectors*: Application in simultaneous Multi-Channel-FLIM. Proc. SPIE, 7376(2010), 73760Z, 1-20

  2. Hann-Jorg Eckert, Zdenek Petrasek and Klaus Kemnitz. Lifetime imaging microscopy for monitoring excited state dynamics in individual chloroplasts and living cells of photosynthetic organisms. Proc. of SPIE Vol. 6372, pp. 637207-1

  3. Marc Tramier, Isabelle Gautier, Tristan Piolot, Sylvie Ravalet, Klaus Kemnitz, Jacques Coppey, Christiane Durieux, Vincent Mignotte, and Maite? Coppey-Moisan. Picosecond-Hetero-FRET Microscopy to Probe Protein-Protein Interactions in Live Cells. Biophysical Journal Volume 83, December 2002, pp. 3570–3577

  4. I. Gautier, M. Tramier, C. Durieux, J. Coppey, R. B. Pansu, J-C. Nicolas, K. Kemnitz, and M. Coppey-Moisan. Homo-FRET Microscopy in Living Cells to Measure Monomer-Dimer Transition of GFP-Tagged Proteins. Biophysical Journal Volume 80, 2001, pp. 3000–3008

  5. Marc Tramier, Klaus Kemnitz, Christiane Durieux, Jacques Coppey, Patrick Denjean, Robert B. Pansu, and Maite Coppey-Moisan. Restrained Torsional Dynamics of Nuclear DNA in Living Proliferative Mammalian Cells. Biophysical Journal Volume 78, 2000, pp. 2614–2627

  6. S,Yu. Arzhantsev, M.R. Ainbund, A.Yu. Chikishev, N.I. Koroteev, A.P. Shkurinov, B.N. Toleutaev, E.V. Turbin, A. Lehmann, L. Pleifer and K. Kemnitz. Picosecond fluorescence lifetime imaging microscopy at 1 um space-and 10 ps time-resolution: 50x50 ch MCP-PMT with quadrant anode. Fluorescence Mictoscopy and Fluorescent Probes, Vol 2, 1998

  7. K. Kemnitz, L. Pleifer and M.R. Ainbund. Detector for ultichannel spectroscopy and fluorescence lifetime imaging on the picosecond time scale. Nuclear Instruments and Methods in Physics Research A 387 (1997) 86-87

  8. Y. Tomokuni et al. Loose interaction between glyceraldehyde-3-phosphate dehydrogenase and phosphoglycerate kinase revealed by fluorescence resonance energy transfer–fluorescence lifetime imaging microscopy in living cells. FEBS Journal 277 (2010) 1310–1318

  9. E. Delbarre et al. The truncated prelamin A in Hutchinson–Gilford progeria syndrome alters segregation of A-type and B-type lamin homopolymers. Human Molecular Genetics, 2006, Vol. 15, No. 7 1113–1122

  10. R. Ramadass. The Behavior of DASPMI in Living Cells: Spectrally and Spatially Resolved Fluorescence Lifetime Imaging. Thesis. 2008

  11. Y. Liao et al. Spectroscopy of BODIPY in solid phase: crystal and nanoparticles. Phys.Chem. Chem. Phys. 15, (2013) p. 3186-3195

  12. S. Padilla-Parra, N. Auduge, M. Coppey-Moisan, and M. Tramier. Quantitative FRET Analysis by Fast Acquisition Time Domain FLIM at High Spatial Resolution in Living Cells. Biophys. J., 95 (2008) 2976–2988

  13. S. Padilla-Parra, N. Auduge, H. Lalucque, J.-C. Mevel, M. Coppey-Moisan, and M. Tramier. Quantitative Comparison of Different Fluorescent Protein Couples for Fast FRET-FLIM Acquisition. Biophys. J., 97 (2009) 2368–2376

  14. M. Millington, G. J. Grindlay, K. Altenbach, R. K. Neely, W. Kolch, M. Bencina, N. D. Read, A. C. Jones, D.T.F. Dryden, S. W. Magennis. High-precision FLIM–FRET in fixed and living cells reveals heterogeneity in a simple CFP–YFP fusion protein. Biophys.Chem., 127 (2007) 155–164



Acknowledgement: *) supported by BMBF 13N 10074