Zeitschriftenartikel (641)

Vaz, W.L.C.; Hallmann, D.: Experimental evidence against the applicability of the Saffman-Delbrück model to the translational diffusion of lipids in phosphatidylcholine bilayer membranes. FEBS Letters 152 (2), S. 287 - 290 (1983)

Buch (2)

Jovin, T. M.: Assessing Protein Association and Conformation in the Living Cell: FRET & FLIM. (2001)
Bastiaens, P. I. H.; Jovin, T. M.: Fluorescence resonance energy transfer microscopy. Academic Press, New York (1998)

Buchkapitel (38)

Jovin, T. M.: The labyrinthine world of Gregorio Weber. In: Perspectives on Fluorescence, S. 41 - 56 (Hg. Jameson, D. M.). Springer Int. Publ., Basel (2016)
Kantelhardt, S. R.; Arndt-Jovin, D. J.; Giese, A.: Quantum dots and nanoparticles. In: Visualization of the brain and its pathologies: Technical and neurosurgical aspects, S. 137 - 154 (Hg. Nabavi, A.; Samii, A.; Fahlbusch, R.). Der Andere Verlag, Uelvesbüll (2016)
de Vries, A. H. B.; Cook, N.; Kramer, S. C.; Arndt-Jovin, D. J.; Jovin, T. M.: Generation 3 programmable array microscope (PAM) for high speed large format optical sectioning in fluorescence. In: Emerging Digital Micromirror Device Based Systems and Applications VII, S. 93760C-1 - 93760C-15 (Hg. Douglass, M. R.; King, P. S.; Lee, B. L.). SPIE, Bellingham, Wash. (2015)
Arndt-Jovin, D. J.; Gralle Botelho, M.; Jovin, T. M.: Structure-function relationships of ErbB RTKs in the plasma membrane of living cells. In: Signaling by Receptor Tyrosine Kinases. A subject collection from Cold Spring Harbor Perspectives in Biology, Bd. 6, 4 Aufl., S. 193 - 206 (Hg. Schlessinger, J.; Lemmon, M. A.). Cold Spring Harbor Lab. Pr., Cold Spring Harbor, N.Y. (2014)
Sigot, V.: Assembly, characterization, and delivery of quantum dot labeled biotinylated lipid particles. In: Quantum dots: Applications in biology, S. 113 - 127 (Hg. Fontes, A.; Santos, B. S.). Springer, New York, N.Y. (2014)
Jovin, T. M.: Remembering Robert Clegg and Elizabeth Jares-Erijman and their contributions to FRET. In: FRET - Förster resonance energy transfer: From theory to applications, S. 9 - 22 (Hg. Medintz, I.; Hildebrandt, N.). Wiley-VCH, Weinheim/Germany (2013)
Jovin, T. M.; van der Meer, B. W.; Hildebrandt, N.; Sapsford, K. E.; Pons, T.; Campbell, R. E.; Algar, W. R.: Outlook on FRET: The future of resonance energy transfer: A rosy crystal ball view of FRET. In: FRET - Förster resonance energy transfer: From theory to applications, S. 757 - 757 (Hg. Medintz, I.; Hildebrandt, N.). Wiley-VCH, Weinheim/Germany (2013)
Shvadchak, V. V.; Falomir Lockhart, L. J.; Yushchenko, D.; Jovin, T. M.: Interactions of α-Synuclein with lipids and artificial membranes monitored by ESIPT probes. In: Lipids and Cellular Membranes in Amyloid Diseases, S. 1 - 32 (Hg. Jelinek, R.). Wiley-VCH, Weinheim/Germany (2011)
Jares-Erijman, E. A.; Jovin, T. M.: Reflections on FRET imaging: formalism, probes and implementation. In: FRET and FLIM Techniques, S. 475 - 517 (Hg. Gadella, T. W. J.). Elsevier, Amsterdam (2009)
Jares-Erijman, E. A.; Pelah, A.; Roberti, M. J.; Sigot, V.; Pietrasanta, L.; Menendez, G.; Etchehon, M. H.; Jovin, T. M.: Use of luminescent quantum dots to image and initiate biological functions. In: Inorganic nanoprobes for biolocial sensing and imaging, S. 101 - 113 (Hg. Mattoussi, H.; Cheon, J.). Artech House, Boston, Mass. (2009)
Hagen, G.; Lidke, K. A.; Rieger, B.; Caarls, W.; Arndt-Jovin, D. J.; Jovin, T. M.: Dynamics of membrane receptors: single molecule tracking of quantum dot liganded epidermal growth factor. In: Single molecule dynamics in life sciences, S. 117 - 130 (Hg. T., Y.; Ishii; Y.). Wiley, Orlando, Fla. (2008)
Arndt-Jovin, D. J.; Lopez-Quintela, M. A.; Lidke, D. S.; Rodriguez, M. J.; Martinez Santoz, F.; Lidke, K. A.; Hagen, G.; Jovin, T. M.: In vivo cell imaging with semiconductor quantum dots and noble metal nanodots. In: Colloidal quantum dots for biomedical applications, S. 1 - 10 (Hg. Osinsky, M.; Yamamoto, K.; Jovin, T. M.). Society for Photo-Optical Instrumentation Engineers, Bellingham, Wa. (2006)
Beutler, M.; Heintzmann, R.: Förster resonance energy transfer. In: Encyclopedic reference of genomics and proteomics in molecular medicine. Vol. 1, S. 594 - 599 (Hg. Ganten, D.; Ruckpaul, K.). Springer, Berlin (2006)
Lidke, D. S.; Nagy, P.; Jovin, T. M.; Arndt-Jovin, D. J.: Biotin-ligand complexes with Streptavidin quantum dots for in vivo cell labeling of membrane receptors. In: Quantum dots. Applications in biology, S. 69 - 80 (Hg. Bruchez, M.; Hotz, C. Z.). Humana Press, Totowa, N.J. (2006)
Dietrich, H. R. C.; van den Doel, R. L.; Hoyer, W.; van Oel, W.; Lung, G. L.; Garini, Y.; Jovin, T. M.; Young, I. T.: Adaptation of nanoarrays for the study of α-synuclein aggregation - preliminary results. In: Imaging, manipulation, and analysis of biomolecules and cells: fundamentals and applications III, DOI: 10.1117/12.587493, S. 395 - 402 (Hg. Nicolau, D.V.). Society of Photo Optical Instrumentation Engineers, Bellingham, Wash. (2005)
Arndt-Jovin, D. J.; Jovin, T. M.; Lidke, D. S.: Quantum dots, a new tool for real-time in vivo imaging. In: From cells to proteins: imaging nature across dimensions, S. 217 - 225 (Hg. Evangelista, V.; Barsanti, L.; Passarelli, V.; Gualtieri, P.; NATO). Springer, Dordrecht (2005)
Heintzmann, R.: Band limit and appropriate sampling in microscopy. In: Cell biology: a laboratory handbook, S. 29 - 36 (Hg. Simons; K.; V., S. J.; Hunter; T. et al.). Elsevier, Amsterdam (2005)
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