Beyond spikes: Multiscale computational analysis of in vivo long-term recordings in the cockroach circadian clock

dc.date.accessioned2019-11-22T15:09:44Z
dc.date.available2019-11-22T15:09:44Z
dc.date.issued2019-09-23
dc.description.sponsorshipGefördert durch den Publikationsfonds der Universität Kasselger
dc.identifierdoi:10.17170/kobra-20191122807
dc.identifier.urihttp://hdl.handle.net/123456789/11365
dc.language.isoengeng
dc.relation.doidoi:10.1162/netn_a_00106
dc.rightsUrheberrechtlich geschützt
dc.rights.urihttps://rightsstatements.org/page/InC/1.0/
dc.subjectcircadian and ultradian rhythmseng
dc.subjectneuropeptideseng
dc.subjectevent detectioneng
dc.subjectwaveleteng
dc.subject.ddc570
dc.titleBeyond spikes: Multiscale computational analysis of in vivo long-term recordings in the cockroach circadian clockeng
dc.typeAufsatz
dc.type.versionpublishedVersion
dcterms.abstractThe circadian clock of the nocturnal Madeira cockroach is located in the accessory medulla, a small nonretinotopic neuropil in the brain’s visual system. The clock comprises about 240 neurons that control rhythms in physiology and behavior such as sleep-wake cycles. The clock neurons contain an abundant number of partly colocalized neuropeptides, among them pigment-dispersing factor (PDF), the insects’ most important circadian coupling signal that controls sleep-wake rhythms. We performed long-term loose-patch clamp recordings under 12:12-hr light-dark cycles in the cockroach clock in vivo. A wide range of timescales, from milliseconds to seconds, were found in spike and field potential patterns. We developed a framework of wavelet transform–based methods to detect these multiscale electrical events. We analyzed frequencies and patterns of events with interesting dynamic features, such as mixed-mode oscillations reminiscent of sharp-wave ripples. Oscillations in the beta/gamma frequency range (20–40 Hz) were observed to rise at dawn, when PDF is released, peaking just before the onset of locomotor activity of the nocturnal cockroach. We expect that in vivo electrophysiological recordings combined with neuropeptide/antagonist applications and behavioral analysis will determine whether specific patterns of electrical activity recorded in the network of the cockroach circadian clock are causally related to neuropeptide-dependent control of behavior.eng
dcterms.accessRightsopen access
dcterms.creatorRojas, Pablo
dcterms.creatorPlath, Jenny A.
dcterms.creatorGestrich, Julia
dcterms.creatorAnanthasubramaniam, Bharath
dcterms.creatorGarcia, Martin E.
dcterms.creatorHerzel, Hanspeter
dcterms.creatorStengl, Monika
dcterms.source.identifierISSN 2472-1751
dcterms.source.issueIssue 4
dcterms.source.journalNetwork Neuroscienceeng
dcterms.source.pageinfo944-968
dcterms.source.volumeVolume 3

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