Lukas N Groschner
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Explore the profile of Lukas N Groschner including associated specialties, affiliations and a list of published articles.
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20
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619
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Recent Articles
1.
Prech S, Groschner L, Borst A
PLoS One
. 2024 Apr;
19(4):e0301999.
PMID: 38635686
To study how the nervous system processes visual information, experimenters must record neural activity while delivering visual stimuli in a controlled fashion. In animals with a nearly panoramic field of...
2.
Borst A, Groschner L
Annu Rev Neurosci
. 2023 Jul;
46:17-37.
PMID: 37428604
How neurons detect the direction of motion is a prime example of neural computation: Motion vision is found in the visual systems of virtually all sighted animals, it is important...
3.
Groschner L, Malis J, Zuidinga B, Borst A
Nature
. 2022 Feb;
603(7899):119-123.
PMID: 35197635
Nonlinear, multiplication-like operations carried out by individual nerve cells greatly enhance the computational power of a neural system, but our understanding of their biophysical implementation is scant. Here we pursue...
4.
Vrontou E, Groschner L, Szydlowski S, Brain R, Krebbers A, Miesenbock G
Curr Biol
. 2021 Oct;
31(22):4911-4922.e4.
PMID: 34610272
The mushroom bodies of Drosophila contain circuitry compatible with race models of perceptual choice. When flies discriminate odor intensity differences, opponent pools of αβ core Kenyon cells (on and off...
5.
Deak A, Jean-Quartier C, Bondarenko A, Groschner L, Malli R, Graier W, et al.
Methods Mol Biol
. 2021 Jun;
2276:173-191.
PMID: 34060041
Mitochondrial Ca uptake regulates mitochondrial function and contributes to cell signaling. Accordingly, quantifying mitochondrial Ca signals and elaborating the mechanisms that accomplish mitochondrial Ca uptake are essential to gain our...
6.
Groschner L, Miesenbock G
Annu Rev Biophys
. 2019 Feb;
48:209-229.
PMID: 30786228
All an animal can do to infer the state of its environment is to observe the sensory-evoked activity of its own neurons. These inferences about the presence, quality, or similarity...
7.
Groschner L, Wah Hak L, Bogacz R, Dasgupta S, Miesenbock G
Cell
. 2018 May;
173(4):894-905.e13.
PMID: 29706545
Perceptual decisions require the accumulation of sensory information to a response criterion. Most accounts of how the brain performs this process of temporal integration have focused on evolving patterns of...
8.
Podlaski W, Seeholzer A, Groschner L, Miesenbock G, Ranjan R, Vogels T
Elife
. 2017 Mar;
6.
PMID: 28267430
Ion channel models are the building blocks of computational neuron models. Their biological fidelity is therefore crucial for the interpretation of simulations. However, the number of published models, and the...
9.
Deak A, Jean-Quartier C, Bondarenko A, Groschner L, Malli R, Graier W, et al.
Methods Mol Biol
. 2015 Jan;
1264:421-39.
PMID: 25631032
Mitochondrial Ca(2+) uptake regulates mitochondrial function and contributes to cell signaling. Accordingly, quantifying mitochondrial Ca(2+) signals and elaborating the mechanisms that accomplish mitochondrial Ca(2+) uptake are essential to gain our...
10.
Zhang Q, Chibalina M, Bengtsson M, Groschner L, Ramracheya R, Rorsman N, et al.
J Physiol
. 2014 Aug;
592(21):4677-96.
PMID: 25172946
Mouse pancreatic β- and α-cells are equipped with voltage-gated Na(+) currents that inactivate over widely different membrane potentials (half-maximal inactivation (V0.5) at -100 mV and -50 mV in β- and...