Joel Bauer scite author profile

Joel Bauer

5Publications

53Citation Statements Received

108Citation Statements Given

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237

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Max Planck Institute of Neurobiology

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High-yield in vitro recordings from neurons functionally characterized in vivo

et al. 2018

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In vivo two-photon calcium imaging provides detailed information about the activity and response properties of individual neurons. However, in vitro methods are often required to study the underlying neuronal connectivity and physiology at the cellular and synaptic levels at high resolution. This protocol provides a fast and reliable workflow for combining the two approaches by characterizing the response properties of individual neurons in mice in vivo using genetically encoded calcium indicators (GECIs), followed by retrieval of the same neurons in brain slices for further analysis in vitro (e.g., circuit mapping). In this approach, a reference frame is provided by fluorescent-bead tracks and sparsely transduced neurons expressing a structural marker in order to re-identify the same neurons. The use of GECIs provides a substantial advancement over previous approaches by allowing for repeated in vivo imaging. This opens the possibility of directly correlating experience-dependent changes in neuronal activity and feature selectivity with changes in neuronal connectivity and physiology. This protocol requires expertise both in in vivo two-photon calcium imaging and in vitro electrophysiology. It takes 3 weeks or more to complete, depending on the time allotted for repeated in vivo imaging of neuronal activity.

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Limited functional convergence of eye-specific inputs in the retinogeniculate pathway of the mouse

Bauer

Weiler

Fernholz

et al. 2021

Neuron

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Mouse vision: Variability and stability across the visual processing hierarchy

Bauer

Rose

2021

Current Biology

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Selective connectivity limits functional binocularity in the retinogeniculate pathway of the mouse

Bauer

Weiler

Fernholz

et al. 2020

Preprint

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Eye-specific segregation of retinal ganglion cell (RGC) axons in the dorsal lateral geniculate nucleus (dLGN) is considered a hallmark of visual system development. However, a recent anatomical study showed that nearly half of the neurons in dLGN of adult mice still receive input from both retinae, but functional data about binocularity in mature dLGN is conflicting. Here, we found that a variable but small fraction of thalamocortical neurons is binocular in vivo. Using dual-channel optogenetics in vitro we correspondingly found that dLGN neurons are dominated by retinogeniculate input from one eye only, although most neurons also received small but detectable input from the non-dominant eye. Anatomical overlap between RGC axons and dLGN neuron dendrites did not explain this strong bias towards monocularity. Our data rather suggest that functional input selection and refinement, leaving the remaining non-dominant eye inputs in a juvenile-like state, underlies the prevalent monocularity of neurons in dLGN.

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Vee¹,

Miller²,

Bauer³

2012

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Joel Bauer

High-yield in vitro recordings from neurons functionally characterized in vivo

Limited functional convergence of eye-specific inputs in the retinogeniculate pathway of the mouse

Mouse vision: Variability and stability across the visual processing hierarchy

Selective connectivity limits functional binocularity in the retinogeniculate pathway of the mouse

Activate Your Gravitational Attraction

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