Zobrazeno 1 - 8
of 8
pro vyhledávání: '"Simone Wanderoy"'
Autor:
Haohao Wu, Charles Petitpré, Paula Fontanet, Anil Sharma, Carmelo Bellardita, Rolen M. Quadros, Paulo R. Jannig, Yiqiao Wang, J. Alexander Heimel, Kylie K. Y. Cheung, Simone Wanderoy, Yang Xuan, Konstantinos Meletis, Jorge Ruas, Channabasavaiah B. Gurumurthy, Ole Kiehn, Saida Hadjab, François Lallemend
Publikováno v:
Nature Communications, Vol 12, Iss 1, Pp 1-13 (2021)
Molecular diversity of proprioceptive neuron types (Ia, Ib and II PNs) is unclear. Here, the authors characterized the functional organization and development of eight subtypes of PNs in mice. Importantly, Ia subtypes are plastic, suggesting a role i
Externí odkaz:
https://doaj.org/article/bf14515821cc4d14bb384469db2ce5f5
Autor:
Luca Bartesaghi, Yiqiao Wang, Paula Fontanet, Simone Wanderoy, Finja Berger, Haohao Wu, Natalia Akkuratova, Filipa Bouçanova, Jean-Jacques Médard, Charles Petitpré, Mark A. Landy, Ming-Dong Zhang, Philip Harrer, Claudia Stendel, Rolf Stucka, Marina Dusl, Maria Eleni Kastriti, Laura Croci, Helen C. Lai, Gian Giacomo Consalez, Alexandre Pattyn, Patrik Ernfors, Jan Senderek, Igor Adameyko, Francois Lallemend, Saida Hadjab, Roman Chrast
Publikováno v:
Cell Reports, Vol 26, Iss 13, Pp 3484-3492.e4 (2019)
Summary: The sensation of pain is essential for the preservation of the functional integrity of the body. However, the key molecular regulators necessary for the initiation of the development of pain-sensing neurons have remained largely unknown. Her
Externí odkaz:
https://doaj.org/article/8d3c2ac2ef91434cbeb5846bfc9c9928
Publikováno v:
Journal of visualized experiments : JoVE. (186)
Mitochondria are the primary suppliers of ATP (adenosine triphosphate) in neurons. Mitochondrial dysfunction is a common phenotype in many neurodegenerative diseases. Given some axons' elaborate architecture and extreme length, it is not surprising t
Autor:
Channabasavaiah B. Gurumurthy, Konstantinos Meletis, Charles Petitpré, Saida Hadjab, Simone Wanderoy, Yiqiao Wang, Francois Lallemend, Anil Sharma, Paula Fontanet, Haohao Wu, Jorge L. Ruas, Paulo R. Jannig, Ole Kiehn, J. Alexander Heimel, Carmelo Bellardita, Rolen M. Quadros, Kylie K. Y. Cheung, Yang Xuan
Publikováno v:
Nature Communications, Vol 12, Iss 1, Pp 1-13 (2021)
Nature Communications
Wu, H, Petitpré, C, Fontanet, P, Sharma, A, Bellardita, C, Quadros, R M, Jannig, P R, Wang, Y, Heimel, J A, Cheung, K K Y, Wanderoy, S, Xuan, Y, Meletis, K, Ruas, J, Gurumurthy, C B, Kiehn, O, Hadjab, S & Lallemend, F 2021, ' Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice ', Nature Communications, vol. 12, no. 1, 1026 . https://doi.org/10.1038/s41467-021-21173-9
Nature Communications, 12(1). Nature Publishing Group
Nature Communications
Wu, H, Petitpré, C, Fontanet, P, Sharma, A, Bellardita, C, Quadros, R M, Jannig, P R, Wang, Y, Heimel, J A, Cheung, K K Y, Wanderoy, S, Xuan, Y, Meletis, K, Ruas, J, Gurumurthy, C B, Kiehn, O, Hadjab, S & Lallemend, F 2021, ' Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice ', Nature Communications, vol. 12, no. 1, 1026 . https://doi.org/10.1038/s41467-021-21173-9
Nature Communications, 12(1). Nature Publishing Group
Proprioceptive neurons (PNs) are essential for the proper execution of all our movements by providing muscle sensory feedback to the central motor network. Here, using deep single cell RNAseq of adult PNs coupled with virus and genetic tracings, we m
Autor:
Angelika B. Harbauer, J. Tabitha Hees, Simone Wanderoy, Inmaculada Segura, Whitney Gibbs, Yiming Cheng, Martha Ordonez, Zerong Cai, Romain Cartoni, Ghazaleh Ashrafi, Chen Wang, Fabiana Perocchi, Zhigang He, Thomas L. Schwarz
Publikováno v:
Neuron 110, 1516-1531.e9 (2022)
PTEN-induced kinase 1 (PINK1) is a short-lived protein required for the removal of damaged mitochondria through Parkin translocation and mitophagy. Because the short half-life of PINK1 limits its ability to be trafficked into neurites, local translat
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::faa706e9325823230f048bfb2512a6aa
https://push-zb.helmholtz-muenchen.de/frontdoor.php?source_opus=64542
https://push-zb.helmholtz-muenchen.de/frontdoor.php?source_opus=64542
Publikováno v:
Biological Chemistry
Mitochondria are key players of cellular metabolism, Ca2+ homeostasis, and apoptosis. The functionality of mitochondria is tightly regulated, and dysfunctional mitochondria are removed via mitophagy, a specialized form of autophagy that is compromise
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d8d447c5db4025e6e57a8220a632dc6b
https://hdl.handle.net/21.11116/0000-0007-AAC1-F21.11116/0000-0007-AAC3-D
https://hdl.handle.net/21.11116/0000-0007-AAC1-F21.11116/0000-0007-AAC3-D
Autor:
Simone Wanderoy, Andrea B. Huber, Rosa-Eva Huettl, Charles Petitpré, Paula Fontanet, Carmelo Bellardita, Yongtao Xue-Franzén, Shahragim Tajbakhsh, Pavel V. Zelenin, Patrik Ernfors, Saida Hadjab, Francois Lallemend, Glenda Comai, Tatiana G. Deliagina, Haohao Wu, Ole Kiehn, Yiqiao Wang
Publikováno v:
Development, 146 (20)
Development (Cambridge, England)
Development (Cambridge, England), Company of Biologists, 2019, 146 (20), pp.dev181750. ⟨10.1242/dev.181750⟩
Development (Cambridge, England), 2019, 146 (20), pp.dev181750. ⟨10.1242/dev.181750⟩
Development 146:dev181750 (2019)
Wang, Y, Wu, H, Zelenin, P, Fontanet, P, Wanderoy, S, Petitpré, C, Comai, G, Bellardita, C, Xue-Franzén, Y, Huettl, R E, Huber, A B, Tajbakhsh, S, Kiehn, O, Ernfors, P, Deliagina, T G, Lallemend, F & Hadjab, S 2019, ' Muscle-selective RUNX3 dependence of sensorimotor circuit development ', Development (Cambridge), vol. 146, no. 20, dev181750 . https://doi.org/10.1242/dev.181750
Development (Cambridge, England)
Development (Cambridge, England), Company of Biologists, 2019, 146 (20), pp.dev181750. ⟨10.1242/dev.181750⟩
Development (Cambridge, England), 2019, 146 (20), pp.dev181750. ⟨10.1242/dev.181750⟩
Development 146:dev181750 (2019)
Wang, Y, Wu, H, Zelenin, P, Fontanet, P, Wanderoy, S, Petitpré, C, Comai, G, Bellardita, C, Xue-Franzén, Y, Huettl, R E, Huber, A B, Tajbakhsh, S, Kiehn, O, Ernfors, P, Deliagina, T G, Lallemend, F & Hadjab, S 2019, ' Muscle-selective RUNX3 dependence of sensorimotor circuit development ', Development (Cambridge), vol. 146, no. 20, dev181750 . https://doi.org/10.1242/dev.181750
The control of all our motor outputs requires constant monitoring by proprioceptive sensory neurons (PSNs) that convey continuous muscle sensory inputs to the spinal motor network. Yet the molecular programs that control the establishment of this sen
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::26e864cb806a201ec75921537b6919b6
https://hdl.handle.net/20.500.11850/378773
https://hdl.handle.net/20.500.11850/378773
Autor:
Ming-Dong Zhang, Helen C. Lai, Francois Lallemend, Roman Chrast, Igor Adameyko, Jan Senderek, Marina Dusl, Luca Bartesaghi, Philip Harrer, Paula Fontanet, Claudia Stendel, Charles Petitpré, Alexandre Pattyn, Haohao Wu, Filipa Bouçanova, Maria Eleni Kastriti, Jean-Jacques Médard, Finja Berger, Mark A. Landy, Yiqiao Wang, Patrik Ernfors, Rolf Stucka, Natalia Akkuratova, Saida Hadjab, Laura Croci, Simone Wanderoy, G. Giacomo Consalez
Publikováno v:
Cell Reports
Cell Reports, Vol 26, Iss 13, Pp 3484-3492.e4 (2019)
Cell reports
Cell Reports, Vol 26, Iss 13, Pp 3484-3492.e4 (2019)
Cell reports
SUMMARY The sensation of pain is essential for the preservation of the functional integrity of the body. However, the key molecular regulators necessary for the initiation of the development of pain-sensing neurons have remained largely unknown. Here