Reading out a spatiotemporal population code by imaging neighbouring parallel fibre axons in vivo

Wilms, Christian; Häusser, Michael

doi:10.1038/ncomms7464

Cited by 75 publications

(82 citation statements)

References 55 publications

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“…Motion in Z is more difficult to correct, since the neighboring planes are typically not recorded. Generally, point spread functions (PSFs) are extended in Z, making motion artifacts due to small Z movements less problematic 125, 126 . In cases with large Z movement, multiplane imaging 127 and online motion correction 120, 128 can help minimize artifacts.…”

Section: Population Recording Via Calcium Imagingmentioning

confidence: 99%

Improving data quality in neuronal population recordings

et al. 2016

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Understanding how the brain operates requires understanding how large sets of neurons function together. Modern recording technology makes it possible to simultaneously record the activity of hundreds of neurons, and technological developments will soon allow recording of thousands or tens of thousands. As with all experimental techniques, these methods are subject to confounds that complicate the interpretation of such recordings, and could lead to erroneous scientific conclusions. Here, we discuss methods for assessing and improving the quality of data from these techniques, and outline likely future directions in this field.

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Section: Population Recording Via Calcium Imagingmentioning

confidence: 99%

Improving data quality in neuronal population recordings

et al. 2016

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“…This is compatible with the finding that synaptic dynamism occurs without major reorganization of dendritic or axonal arbors (Mizrahi and Katz, 2003; Trachtenberg et al, 2002). In addition, adjacent spines may receive locally convergent inputs from axons that originate from the same neuronal assembly and exhibit similar activity patterns (Kleindienst et al, 2011; Takahashi et al, 2012; Wilms and Hausser, 2015). In such a scenario, clustered plasticity at postsynaptic sites can emerge from shared input patterns due to activity-dependent plasticity rules.…”

Section: Implications Of Clustered Structural and Functional Plastmentioning

confidence: 99%

Clustered structural and functional plasticity of dendritic spines

Ju¹,

Zuo²

2017

Brain Research Bulletin

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The configuration of synaptic circuits underlies their ability to process and store information. Research on dendritic spines has revealed that their structural and functional alterations are clustered along the parent dendrite. Here we review the evidence supporting such notion of clustered synaptic plasticity, discuss its functional implications and possible contributing factors, and suggest potential strategies to deal with open challenges.

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“…It is therefore conceivable that local noise in stimulus space is propagated within clusters of parallel fibers, hence that the natural neighborhood relationships are preserved. At first sight, the clusters of co-activated PFs observed by Wilms and Häusser39 may be too large (median distance of 11 μm) for the very local action of nsLTD in the present simulations (Fig. 5), but the labeling of PFs was too sparse in this imaging study to reliably measure cluster size.…”

Section: Discussionmentioning

confidence: 57%

“…There are no indications that neighboring PF synapses on a PC originate from neighboring granule cells in the granular layer3955, the projections seem to be rather divergent. But in their recent technically ingenious study, Wilms and Häusser39 did find that behaviorally relevant stimuli excite clusters of neighboring parallel fibers, in spite of their being coded in a distributed fashion in the granular layer. It is therefore conceivable that local noise in stimulus space is propagated within clusters of parallel fibers, hence that the natural neighborhood relationships are preserved.…”

Section: Discussionmentioning

confidence: 93%

Nonspecific synaptic plasticity improves the recognition of sparse patterns degraded by local noise

Safaryan

Maex

Davey

et al. 2017

Sci Rep

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Many forms of synaptic plasticity require the local production of volatile or rapidly diffusing substances such as nitric oxide. The nonspecific plasticity these neuromodulators may induce at neighboring non-active synapses is thought to be detrimental for the specificity of memory storage. We show here that memory retrieval may benefit from this non-specific plasticity when the applied sparse binary input patterns are degraded by local noise. Simulations of a biophysically realistic model of a cerebellar Purkinje cell in a pattern recognition task show that, in the absence of noise, leakage of plasticity to adjacent synapses degrades the recognition of sparse static patterns. However, above a local noise level of 20%, the model with nonspecific plasticity outperforms the standard, specific model. The gain in performance is greatest when the spatial distribution of noise in the input matches the range of diffusion-induced plasticity. Hence non-specific plasticity may offer a benefit in noisy environments or when the pressure to generalize is strong.

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Reading out a spatiotemporal population code by imaging neighbouring parallel fibre axons in vivo

Cited by 75 publications

References 55 publications

Improving data quality in neuronal population recordings

Improving data quality in neuronal population recordings

Clustered structural and functional plasticity of dendritic spines

Nonspecific synaptic plasticity improves the recognition of sparse patterns degraded by local noise

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