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X-WR-CALNAME:Bordeaux Neurocampus
X-ORIGINAL-URL:https://www.bordeaux-neurocampus.fr/en/
X-WR-CALDESC:Events for Bordeaux Neurocampus
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DTSTART:20220327T010000
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DTSTART:20221030T010000
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DTSTART;VALUE=DATE:20220211
DTEND;VALUE=DATE:20230103
DTSTAMP:20260428T112600
CREATED:20220209T143152Z
LAST-MODIFIED:20220209T143152Z
UID:144934-1644537600-1672703999@www.bordeaux-neurocampus.fr
SUMMARY:Exposition : "Cell Immersion"
DESCRIPTION:Les Bassins des Lumières – Imp. Brown de Colstoun\, Bordeaux \n\nCell Immersion vous convie à un voyage Art & Science dans un monde microscopique méconnu : l’humain. \nL’œuvre est la première brique d’un projet d’envergure\, nommé Cell Worlds\, qui amène les images de microscopie là où elles ne sont jamais allées. Loin des laboratoires et des disques durs des scientifiques et au plus près des cellules humaines. Ici\, tout est bien réel\, et surtout vivant. Chaque visuel de l’exposition se compose de véritables cellules : de l’électrisant neurone au fragile embryon en passant par les mélancoliques flux sanguins du cerveau. Découvrez un univers aux couleurs chatoyantes et d’une diversité incroyable. \nCell Immersion est une première mondiale scientifique\, mettant en scène le vivant microscopique dans des proportions jamais tentées. C’est également un des plus grands showcases de la recherche scientifique\, regroupant de nombreuses équipes\, laboratoires et instituts du monde entier. Une preuve que la science et l’art n’ont pas de frontières. \nÀ travers l’émerveillement\, ce voyage saura éveiller votre curiosité scientifique. Au-delà du simple divertissement\, Cell Immersion vous invite à vous reconnecter avec le monde vivant microscopique qui est aujourd’hui trop inconnu\, trop peu contemplé et parfois trop mystifié. \n  \n\nRéalisation : Terence Saulnier et Renaud Pourpre \nComposition de la bande originale : Youenn Lerb \n\nCet événement est organisé dans le cadre de la Semaine du Cerveau. \nPour plus d’informations : https://www.bassins-lumieres.com/fr/cell-immersion \n
URL:https://www.bordeaux-neurocampus.fr/en/event/exposition-cell-immersion/
LOCATION:Les Bassins des Lumières\, Imp. Brown de Colstoun\, Bordeaux\, 33000\, France
CATEGORIES:not-calendar,Semaine du cerveau 2022
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20220502
DTEND;VALUE=DATE:20220521
DTSTAMP:20260428T112600
CREATED:20211029T152925Z
LAST-MODIFIED:20220428T130232Z
UID:140640-1651449600-1653091199@www.bordeaux-neurocampus.fr
SUMMARY:Cajal course "Neural circuit basis of computation and behaviour"
DESCRIPTION:Bordeaux School of Neuroscience\, Bordeaux. \nProgram of lectures up to date on:\nhttp://www.bordeaux-school-of-neuroscience.eu/trainings/cajal/cajal-2022/ncbcb-2022/ \n\n\n\n\n\n  \n
URL:https://www.bordeaux-neurocampus.fr/en/event/cajal-course-neural-circuit-basis-of-computation-and-behaviour-2022/
CATEGORIES:Cajal Lectures,For scientists,home-event
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BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20220506T113000
DTEND;TZID=Europe/Paris:20220506T123000
DTSTAMP:20260428T112600
CREATED:20210527T090517Z
LAST-MODIFIED:20220412T203904Z
UID:135378-1651836600-1651840200@www.bordeaux-neurocampus.fr
SUMMARY:Monthly conference (PhD seminar) - Matthew Grubb
DESCRIPTION:Matthew Grubb\nKing’s college – London\, UK\nWebsite \nVenue: Centre Broca \nTitle\nFunctional recovery and plasticity during naturally occurring neuronal regeneration \nAbstract\nAttempts to repair the damaged or diseased brain have focused on facilitating the regrowth of existing axons\, or introducing new neurons to replace lost projections. To achieve functional recovery\, however\, this is not enough – new projections must not only reach their intended target structures\, but also re-connect appropriately to drive information processing in downstream circuits. How regrown or replaced axons can be encouraged to establish such appropriate connections\, though\, remains unknown. To understand some of the processes underlying successful re-connection of regenerated axons\, we seek to learn lessons from part of the adult mammalian nervous system that can regenerate naturally – the projection from olfactory sensory neurons (OSNs) in the nose to their target structure in the brain\, the olfactory bulb (OB). Using a simple model of olfactotoxin-induced OSN degeneration and subsequent naturally occurring regeneration\, we study the anatomical and physiological properties of OSN axon terminals as they begin to re-connect with target circuits after a couple of weeks. We find that release probability is lower in immature re-connecting versus mature\, fully-connected OSN terminals\, and that even at the earliest stages of synapse re-establishment there is the potential for characteristic\, strong presynaptic inhibition. However\, despite immature OSN terminals being lower in density and functionally weaker\, OSN-stimulated OB output is actually stronger in the earliest stages of re-connection. We are currently investigating the plastic mechanisms in OB circuits which enable such compensatory changes to occur\, and hope that our discoveries will inform interventions to improve functional recovery after damage to the human CNS. \nPrimary research papers\nGalliano E\, Hahn C\, Browne L\, Rodriguez Villamayor P\, Grubb MS (2020) Brief sensory deprivation triggers cell type-specific structural and functional plasticity in olfactory bulb neurons. bioRxiv 2020.05.10.086926. Free full text. \nByrne DJ\, Lipovsek M\, Grubb MS (2020) Brief sensory deprivation triggers plasticity of neurotransmitter-synthesising enzyme expression in genetically labelled olfactory bulb dopaminergic neurons. bioRxiv 2020.06.03.132555. Free full text. \nBrann D\, Tsukahara T\, Weinreb C\, Lipovsek M\, Van den Berge K\, Gong B\, Chance R\, Macaulay IC\, Chou H-J\, Fletcher R\, Das D\, Street K\, Roux de Bezieux H\, Choi Y-G\, Risso D\, Dudoit S\, Purdom E\, Mill JS\, Hachem RA\, Matsunami H\, Logan DW\, Goldstein B\, Grubb MS\, Ngai J\, Datta SR (2020). Non-neuronal expression of SARS-CoV-2 entry genes in the olfactory system suggests mechanisms underlying COVID-19-associated anosmia. Science Advances 6:eabc5801. Free full text. Raw data. \nGalliano E\, Franzoni E\, Breton M\, Chand AN\, Byrne DJ\, Murthy VN\, Grubb MS (2018) Embryonic and postnatal neurogenesis produce functionally distinct subclasses of dopaminergic neuron.  eLife\, 7:e32373.  Free full text.  Raw data. \nEvans MD\, Tufo C\, Dumitrescu AS\, Grubb MS (2017) Myosin II activity is required for structural plasticity at the axon initial segment.  Eur J Neurosci\, 46: 1751.  Free full text.  Raw data. Featured article. \nDumitrescu AS\, Evans MD\, Grubb MS (2016) Evaluating tools for live imaging of structural plasticity at the axon initial segment. Front Cell Neurosci\, 10: 268.  Free full text. \nEvans MD*\, Dumitrescu AS*\, Kruijssen Kruijssen DLH\, Taylor SE\, Grubb MS (2015) Rapid modulation of axon initial segment length influences repetitive spike firing. Cell Rep.\, 13:1233-45. Pubmed. Free full text. \nHannon E\, Chand AN\, Evans MD\, Wong CCY\, Grubb MS*\, Mill J* (2015) A role for CaV1 and calcineurin signalling in depolarization-induced changes in neuronal DNA methylation. Neuroepigenetics 2015 Jun 25; 3:1-6. Pubmed. Free full text. \nChand AN\, Galliano E\, Chesters RA\, Grubb MS (2015) A distinct subtype of dopaminergic interneuron displays inverted structural plasticity at the axon initial segment. J. Neurosci 2015 Jan 28;35(4):1573-90. Pubmed. Free full text. \nEvans MD\, Sammons RP\, Lebron S\, Dumitrescu AS\, Watkins TBK\, Uebele VN\, Renger JJ\, Grubb MS (2013) Calcineurin Signaling Mediates Activity-Dependent Relocation of the Axon Initial Segment. J. Neurosci Apr 17;33(16):6950-63. Pubmed. Free full text [Adobe Acrobat PDF – 3.84 MB] \n\nOrganized by Bordeaux Neurocampus\, NBA and Bordeaux Neurocampus Graduate Program \n  \n
URL:https://www.bordeaux-neurocampus.fr/en/event/monthly-conference-phd-seminar-may-2022/
CATEGORIES:For scientists,home-event,Monthly conferences
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