Your search keyword '"Marcos González-Gaitán"' showing total 2 results

1. Microtubule polarity determines the lineage of embryonic neural precursor in zebrafish spinal cord

Author

Clément-Alexis Richard, Carole Seum, and Marcos Gonzalez-Gaitan

Subjects

Biology (General), QH301-705.5

Abstract

Abstract The phenomenal diversity of neuronal types in the central nervous system is achieved in part by the asymmetric division of neural precursors. In zebrafish neural precursors, asymmetric dispatch of Sara endosomes (with its Notch signaling cargo) functions as fate determinant which mediates asymmetric division. Here, we found two distinct pools of neural precursors based on Sara endosome inheritance and spindle-microtubule enrichment. Symmetric or asymmetric levels of spindle-microtubules drive differently Sara endosomes inheritance and predict neural precursor lineage. We uncover that CAMSAP2a/CAMSAP3a and KIF16Ba govern microtubule asymmetry and endosome motility, unveiling the heterogeneity of neural precursors. Using a plethora of physical and cell biological assays, we determined the physical parameters and molecular mechanisms behind microtubule asymmetries and biased endosome motility. Evolutionarily, the values of those parameters explain why all sensory organ precursor cells are asymmetric in flies while, in zebrafish spinal cord, two populations of neural precursors (symmetric vs asymmetric) are possible.

Published

2024

2. Flipper Probes for the Community

Author

Lea Assies, José García-Calvo, Francesca Piazzolla, Samantha Sanchez, Takehiro Kato, Luc Reymond, Antoine Goujon, Adai Colom, Javier López-Andarias, Karolína Straková, Dora Mahecic, Vincent Mercier, Margot Riggi, Noemi Jiménez-Rojo, Chloé Roffay, Giuseppe Licari, Maria Tsemperouli, Frederik Neuhaus, Alexandre Fürstenberg, Eric Vauthey, Sascha Hoogendoorn, Marcos Gonzalez-Gaitan, Andreas Zumbuehl, Kaori Sugihara, Jean Gruenberg, Howard Riezman, Robbie Loewith, Suliana Manley, Aurelien Roux, Nicolas Winssinger, Naomi Sakai, Stefan Pitsch, and Stefan Matile

Subjects

Flipper probes, Fluorescence imaging, NCCR Chemical Biology, Chemistry, QD1-999

Abstract

This article describes four fluorescent membrane tension probes that have been designed, synthesized, evaluated, commercialized and applied to current biology challenges in the context of the NCCR Chemical Biology. Their names are Flipper-TR©, ER Flipper-TR©, Lyso Flipper-TR© and Mito Flipper-TR©, they are available from Spirochrome.

Published

2021