Publications of K. Willig
All genres
Journal Article (49)
41.
Journal Article
102 (Suppl. 1), pp. 24 - 25 (2007)
Cholesterol modulates acetylcholine receptor organization and stability at the cell membrane. Journal of Neurochemistry 42.
Journal Article
144 (1), pp. 135 - 143 (2007)
Nanoscale organization of nicotinic acetylcholine receptors revealed by stimulated emission depletion microscopy. Neuroscience 43.
Journal Article
25 (21), pp. 5037 - 5048 (2006)
Myelin basic protein-dependent plasma membrane reorganization in the formation of myelin. EMBO Journal 44.
Journal Article
3 (9), pp. 721 - 723 (2006)
Nanoscale resolution in GFP-based microscopy. Nature Methods 45.
Journal Article
8, 106 (2006)
STED-microscopy resolves nanoparticle assemblies. New Journal of Physics 46.
Journal Article
312, pp. 1051 - 1054 (2006)
Bruchpilot promotes active zone assembly, Ca2+-channel clustering, and vesicle release. Science 47.
Journal Article
440, pp. 935 - 939 (2006)
STED-microscopy reveals that synaptotagmin remains clustered after synaptic vesicle exocytosis. Nature 48.
Journal Article
90 (8), pp. 2843 - 2851 (2006)
The SNARE-motif is essential for the formation of syntaxin clusters in the plasma membrane. Biophysical Journal 49.
Journal Article
12 (5), pp. 492 - 494 (2006)
Fluoreszenzmikroskopie ohne Beugungsgrenze. Biospektrum Book Chapter (1)
50.
Book Chapter
Nanoscale resolution with focused light: STED and other RESOLFT microscopy concepts. In: Handbook of biological confocal microscopy, pp. 571 - 579 (Ed. Pawley, J.B.). Springer, New York (2006)
Conference Paper (2)
51.
Conference Paper
213 (Supplement S699), p. 18 - 18 (2015)
In vivo STED microscopy of the visual cortex of adult mice. 94th Annual Meeting of the German Physiological Society, Magdeburg, March 05, 2015 - March 07, 2015. Acta Physiologica 52.
Conference Paper
Nanoscale cluster organization of the acetylcholine receptor: cholesterol comes of age. Biophysical Journal (Suppl. S), p. 546A - 546A (2007)
Thesis - PhD (1)
53.
Thesis - PhD
STED microscopy in the visible range. Dissertation, University of Heidelberg, Heidelberg (2006)