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Your search keyword '"Reto Fiolka"' showing total 4 results
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4 results on '"Reto Fiolka"'

1. Robust and automated detection of subcellular morphological motifs in 3D microscopy images

Author

Andrew R. Jamieson, Erik S. Welf, Reto Fiolka, Gaudenz Danuser, Meghan Driscoll, Tadamoto Isogai, and Kevin M. Dean

Subjects
Morphogenesis, Cell morphology, Biochemistry, Article, Machine Learning, 03 medical and health sciences, Imaging, Three-Dimensional, Cell Line, Tumor, Computer Graphics, Humans, Bleb (cell biology), Cell Shape, Molecular Biology, 030304 developmental biology, Microscopy, 0303 health sciences, Cell morphogenesis, Chemistry, Cell Biology, Cell biology, Lamellipodium, Signal transduction, Filopodia, Intracellular, Signal Transduction, Subcellular Fractions, Biotechnology
Abstract

Rapid developments in live-cell three-dimensional (3D) microscopy enable imaging of cell morphology and signaling with unprecedented detail. However, tools to systematically measure and visualize the intricate relationships between intracellular signaling, cytoskeletal organization and downstream cell morphological outputs do not exist. Here, we introduce u-shape3D, a computer graphics and machine-learning pipeline to probe molecular mechanisms underlying 3D cell morphogenesis and to test the intriguing possibility that morphogenesis itself affects intracellular signaling. We demonstrate a generic morphological motif detector that automatically finds lamellipodia, filopodia, blebs and other motifs. Combining motif detection with molecular localization, we measure the differential association of PIP2 and KrasV12 with blebs. Both signals associate with bleb edges, as expected for membrane-localized proteins, but only PIP2 is enhanced on blebs. This indicates that subcellular signaling processes are differentially modulated by local morphological motifs. Overall, our computational workflow enables the objective, 3D analysis of the coupling of cell shape and signaling.

Published
2019

2. Light-sheet microscopy of cleared tissues with isotropic, subcellular resolution

Author

Sean J. Morrison, Elise Jeffery, Rainer Heintzmann, Reto Fiolka, Estanislao Daniel De La Cruz, Raju Tomer, Malea M. Murphy, Hu Zhao, Julian P. Meeks, Saumya Vora, Cara D. Nielson, Hua Zhang, Kevin M. Dean, Denise K. Marciano, Chitkale Hiremath, Yating Yi, Meghan Driscoll, Vladimir Zhemkov, Ilya Bezprozvanny, Gaudenz Danuser, Philippe Roudot, Bo-Jui Chang, Wen Mai Wong, and Tonmoy Chakraborty

Subjects
0303 health sciences, Microscope, Materials science, Optical sectioning, Confocal, Isotropy, Cell Biology, Lateral resolution, Biochemistry, Article, law.invention, 03 medical and health sciences, Mice, Microscopy, Fluorescence, law, Light sheet fluorescence microscopy, Microscopy, Animals, Molecular Biology, Zebrafish, 030304 developmental biology, Biotechnology, Biomedical engineering, Clearance
Abstract

We present cleared-tissue axially swept light-sheet microscopy (ctASLM), which enables isotropic, subcellular resolution imaging with high optical sectioning capability and a large field of view over a broad range of immersion media. ctASLM can image live, expanded, and both aqueous and non-aqueous chemically cleared tissue preparations. Depending on the optical configuration, ctASLM provides up to 260 nm of axial resolution, a three to tenfold improvement over confocal and other reported cleared-tissue light-sheet microscopes. We imaged millimeter-scale cleared tissues with subcellular three-dimensional resolution, which enabled automated detection of multicellular tissue architectures, individual cells, synaptic spines and rare cell–cell interactions. Cleared-tissue axially swept light-sheet microscopy (ctASLM) enables high-speed, refraction index-independent imaging of live, cleared and expanded samples with isotropic, submicron resolution.

Published
2019

3. Resolution upgrades for light-sheet microscopy

Author

Reto Fiolka

Subjects
0303 health sciences, Materials science, Microscope, Light, business.industry, Optical Imaging, Resolution (electron density), Cell Biology, Biochemistry, Fluorescence, law.invention, 03 medical and health sciences, Single objective, Optics, Microscopy, Fluorescence, law, Light sheet fluorescence microscopy, Microscopy, Image Processing, Computer-Assisted, Animals, Humans, business, Molecular Biology, 030304 developmental biology, Biotechnology
Abstract

Single objective light-sheet fluorescence microscopes combine the convenience of conventional sample mounting with sensitive subcellular and super-resolution imaging of cells and tissues.

Published
2019

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