Molecular mechanisms of homeostatic plasticity in central pattern generator networks

Northcutt, Adam J.; Schulz, David J.

doi:10.1002/dneu.22727

Cited by 3 publications

(2 citation statements)

References 101 publications

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“…We know today that animals have hundreds of ion channel genes (Jegla et al 2009, Littleton & Ganetzky 2000, Lovell et al 2013, including more than 140 voltagegated ion channels (Yu et al 2005). Many individual neurons express 15-30 different kinds of voltage-gated ion channels (Cembrowski et al 2016, Fuzik et al 2016, Northcutt et al 2016, Northcutt & Schulz 2019, Ren et al 2019, Tapia et al 2018, Zheng et al 2019, including multiple potassium or calcium channels. Moreover, the same genes and channels are found in different combinations in various cell types.…”

Section: The Problemmentioning

confidence: 99%

Ion Channel Degeneracy, Variability, and Covariation in Neuron and Circuit Resilience

Goaillard

Marder

2021

Annu. Rev. Neurosci.

119

146

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The large number of ion channels found in all nervous systems poses fundamental questions concerning how the characteristic intrinsic properties of single neurons are determined by the specific subsets of channels they express. All neurons display many different ion channels with overlapping voltage- and time-dependent properties. We speculate that these overlapping properties promote resilience in neuronal function. Individual neurons of the same cell type show variability in ion channel conductance densities even though they can generate reliable and similar behavior. This complicates a simple assignment of function to any conductance and is associated with variable responses of neurons of the same cell type to perturbations, deletions, and pharmacological manipulation. Ion channel genes often show strong positively correlated expression, which may result from the molecular and developmental rules that determine which ion channels are expressed in a given cell type. Expected final online publication date for the Annual Review of Neuroscience, Volume 44 is July 2021. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Section: The Problemmentioning

confidence: 99%

Ion Channel Degeneracy, Variability, and Covariation in Neuron and Circuit Resilience

Goaillard

Marder

2021

Annu. Rev. Neurosci.

119

146

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“…There was another noteworthy epistatic interaction between ppk23 and fruitless (fru), an important transcription factor involved in differentiating sex-specific neural circuits that affects fitness-related behaviors, like courtship [79]. fru is also a modulator of CPG activity during flight [80], and is known to co-localize with ppk23 in the thoracic ganglion [4,58,67,81,82]. Both also work with doublesex (dsx), another transcription factor that affects sex-specific neural circuits and was found in the whole gene, sex-difference analysis [83][84][85].…”

Section: Neurodevelopmental Genes Play An Important Role In Modifyingmentioning

confidence: 99%

Natural variation in the regulation of neurodevelopmental genes modifies flight performance in Drosophila

et al. 2021

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The winged insects of the order Diptera are colloquially named for their most recognizable phenotype: flight. These insects rely on flight for a number of important life history traits, such as dispersal, foraging, and courtship. Despite the importance of flight, relatively little is known about the genetic architecture of flight performance. Accordingly, we sought to uncover the genetic modifiers of flight using a measure of flies’ reaction and response to an abrupt drop in a vertical flight column. We conducted a genome wide association study (GWAS) using 197 of the Drosophila Genetic Reference Panel (DGRP) lines, and identified a combination of additive and marginal variants, epistatic interactions, whole genes, and enrichment across interaction networks. Egfr, a highly pleiotropic developmental gene, was among the most significant additive variants identified. We functionally validated 13 of the additive candidate genes’ (Adgf-A/Adgf-A2/CG32181, bru1, CadN, flapper (CG11073), CG15236, flippy (CG9766), CREG, Dscam4, form3, fry, Lasp/CG9692, Pde6, Snoo), and introduce a novel approach to whole gene significance screens: PEGASUS_flies. Additionally, we identified ppk23, an Acid Sensing Ion Channel (ASIC) homolog, as an important hub for epistatic interactions. We propose a model that suggests genetic modifiers of wing and muscle morphology, nervous system development and function, BMP signaling, sexually dimorphic neural wiring, and gene regulation are all important for the observed differences flight performance in a natural population. Additionally, these results represent a snapshot of the genetic modifiers affecting drop-response flight performance in Drosophila, with implications for other insects.

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New insights from small rhythmic circuits

Marder

Kedia

Morozova

2022

Current Opinion in Neurobiology

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Molecular mechanisms of homeostatic plasticity in central pattern generator networks

Cited by 3 publications

References 101 publications

Ion Channel Degeneracy, Variability, and Covariation in Neuron and Circuit Resilience

Ion Channel Degeneracy, Variability, and Covariation in Neuron and Circuit Resilience

Natural variation in the regulation of neurodevelopmental genes modifies flight performance in Drosophila

New insights from small rhythmic circuits

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