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Comp Neuro Berlin @CompNeuroLab

Understanding neurophysiology, computation and their evolutionary optimization with mathematical models.

Joined June 2022
  • Tweets 11
  • Following 82
  • Followers 169
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Comp Neuro Berlin@CompNeuroLab
17 Jun 2022
Good old electrophysiology still has tricks up its sleeve. We teamed up with the Vida lab to extend the dynamic clamp from artificial conductances to artificial capacitance in biological neurons. Read about the capacitance clamp and why you should study C: elifesciences.org/articles/7…
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Excited to announce our workshop @ CNS*2023 Leipzig (@CNSorg) on "Optimality, Evolutionary Trade-offs, Pareto Theory and Degeneracy in Neuronal Modeling" w/ @jedlickap, @AlexNeurosci July 18 & 19, Leibniz Room. Talks by Astrid Prinz, Tim O'Leary, Anna Levina et al. CU there! 1/2
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All speakers and full program can be found here: treestoolbox.org/CNS2023_par…, see also cns2023.sched.com/event/1O0M…. Speakers on Twitter: @SelfOrgAnna @Timothy0Leary @cnl_mbu_iisc @ZPadamsey @suhitais @ArndRoth @DylanFesta @jedlickap @AlexNeurosci 2/2
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🪰 How to flap one's wings? 🌟 Our new paper with the Duch lab shows that the right combination of action-potential type and electrical coupling enables the desynchronised neural network activity that stabilises Drosophila flight. @silvanhuerkey nature.com/articles/s41586-0…

Gap junctions desynchronize a neural circuit to stabilize insect flight

Nature - In the Drosophila central-pattern-generating neural network, a mechanism for network desynchronization relying on weak electrical synapses and specific excitability dynamics of the coupled...

nature.com
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Comp Neuro Berlin retweeted
BCCN Berlin@bccn_berlin
19 Aug 2022
Wie erzeugen Millionen von Nervenzellen unsere Gedanken? Einblicke in aktuelle Hirnforschung geben drei spannende Sprecher:innen am 11.09. in der @bbaw_de in Kooperation mit @BernsteinNeuro und @BMBF_Bund. Kostenlose Anmeldung für die Veranstaltung unter bbaw.de/veranstaltungen/vera…
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Three dynamic classes of APs in regularly firing cells are known. Using temperature to switch spiking, our results suggest the neglected third type, homoclinic spiking with its intriguing coding and synchronisation properties, is relevant in the brain. nature.com/articles/s41467-0…
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From schizophrenia to epilepsy, what can mathematical modeling teach us about neurological disorders? Tomorrow 16:20 GMT 2 at the #ICMNS session "Dynamical systems for neurological disorders" organized by Louisiane Lemaire from our lab and @cgAlexandersen danieleavitabile.com/icmns20…

2022 International Conference on Mathematical Neuroscience - Digital Edition (6th-8th July 2022)

The International Conference on Mathematical Neuroscience (ICMNS) is an inter-disciplinary conference series, bringing together theoretical/computational neuroscientists and mathematicians. The...

danieleavitabile.com
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This Friday Fabian @DiesPallas will present our work on understanding trade-offs in neural optimization using Pareto Theory at the #FENS satellite symposium "Understanding Neural CircuitEvolution" (@SPP2205). Also check out the corresponding paper doi.org/10.1016/j.conb.2021.…
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Good old electrophysiology still has tricks up its sleeve. We teamed up with the Vida lab to extend the dynamic clamp from artificial conductances to artificial capacitance in biological neurons. Read about the capacitance clamp and why you should study C: elifesciences.org/articles/7…
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Congrats to @ppfeiffer1, @Meng_jiamengwu and the team!
Comp Neuro Berlin retweeted
MPI for Biological Intelligence@MPIforBI
3 Jun 2022
Zebra finches take turns to avoid tweeting at the same time. @LabVallentin & the Schreiber lab described the underlying neuronal circuit. It’s based in a brain area called HVC, integrates auditory inputs & precisely times vocal output: pnas.org/doi/10.1073/pnas.21… 🖌️ by Matt Zaharchuk
Two zebra finches, perched on a representation of a model neuronal circuit, illustrates as interconnected rings. Text: A feed-forward inhibitory premotor circuit for auditory-vocal interactions in zebra finches. Follow link for more information.

ALT Two zebra finches, perched on a representation of a model neuronal circuit, illustrates as interconnected rings. Text: A feed-forward inhibitory premotor circuit for auditory-vocal interactions in zebra finches. Follow link for more information.

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