As part of the same scientific family, Jean-Baptiste Sibarita usually focuses on Classification of discontinuities, concentrating on Mathematical analysis and intersecting with Pointwise. Pointwise is closely attributed to Mathematical analysis in his work. Endosome and Phagosome are the focus of his Intracellular studies. As part of his studies on Endosome, he often connects relevant subjects like Cell. His study brings together the fields of Cell cortex and Cell. Phagosome is closely attributed to Intracellular in his study. His study on Nanotechnology is mostly dedicated to connecting different topics, such as Quantum dot and Nanoclusters. Jean-Baptiste Sibarita integrates Quantum dot and Nanotechnology in his research. His Statistics studies intersect with other disciplines such as Estimator and Algorithm.
His research on Cell biology often connects related areas such as Signal transduction and Actin. As part of his Glutamate receptor and Neurotransmission and Receptor studies, he is studying Receptor. Glutamate receptor is closely attributed to Receptor in his work. His study on Optics is interrelated to topics such as Microscopy and Fluorescence. His Optics research extends to the thematically linked field of Fluorescence. His Biochemistry study frequently draws parallels with other fields, such as Membrane. His Membrane study frequently links to adjacent areas such as Biochemistry. Jean-Baptiste Sibarita merges many fields, such as Cell and Cytoskeleton, in his writings. He integrates Neuroscience with Biophysics in his study.
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The extracellular matrix guides the orientation of the cell division axis
Manuel Théry;Victor Racine;Anne Pépin;Matthieu Piel.
Nature Cell Biology (2005)
Anisotropy of cell adhesive microenvironment governs cell internal organization and orientation of polarity
Manuel Théry;Victor Racine;Matthieu Piel;Anne Pépin.
Proceedings of the National Academy of Sciences of the United States of America (2006)
Super-resolution imaging reveals that AMPA receptors inside synapses are dynamically organized in nanodomains regulated by PSD95.
Deepak Nair;Deepak Nair;Eric Hosy;Eric Hosy;Jennifer D. Petersen;Jennifer D. Petersen;Audrey Constals;Audrey Constals.
The Journal of Neuroscience (2013)
The interaction of IQGAP1 with the exocyst complex is required for tumor cell invasion downstream of Cdc42 and RhoA
Mika Sakurai-Yageta;Mika Sakurai-Yageta;Chiara Recchi;Chiara Recchi;Gaëlle Le Dez;Gaëlle Le Dez;Jean Baptiste Sibarita;Jean Baptiste Sibarita.
Journal of Cell Biology (2008)
Integrins β1 and β3 exhibit distinct dynamic nanoscale organizations inside focal adhesions.
Olivier Rossier;Vivien Octeau;Vivien Octeau;Jean-Baptiste Sibarita;Jean-Baptiste Sibarita;Cécile Leduc;Cécile Leduc.
Nature Cell Biology (2012)
Drosophila Exocyst Components Sec5, Sec6, and Sec15 Regulate DE-Cadherin Trafficking from Recycling Endosomes to the Plasma Membrane
Johanna Langevin;Matthew J. Morgan;Carine Rossé;Victor Racine.
Developmental Cell (2005)
Patch-Based Nonlocal Functional for Denoising Fluorescence Microscopy Image Sequences
J. Boulanger;C. Kervrann;P. Bouthemy;P. Elbau.
IEEE Transactions on Medical Imaging (2010)
Activity-dependent tuning of inhibitory neurotransmission based on GABAAR diffusion dynamics.
Hiroko Bannai;Hiroko Bannai;Sabine Lévi;Claude Schweizer;Takafumi Inoue.
The entire Nup107-160 complex, including three new members, is targeted as one entity to kinetochores in mitosis.
Isabelle Loïodice;Annabelle Alves;Gwénaël Rabut;Megan van Overbeek.
Molecular Biology of the Cell (2004)
SR-Tesseler: a method to segment and quantify localization-based super-resolution microscopy data
Florian Levet;Eric Hosy;Eric Hosy;Adel Kechkar;Adel Kechkar;Adel Kechkar;Corey Butler;Corey Butler.
Nature Methods (2015)
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