Reliability of Signal Transfer at a Tonically Transmitting, Graded Potential Synapse of the Locust Ocellar Pathway

Simmons, Peter; Steveninck, Rob de Ruyter van

doi:10.1523/jneurosci.1119-05.2005

Cited by 19 publications

(19 citation statements)

References 41 publications

(65 reference statements)

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“…The skew in voltage level distribution was too great in two out of every three experiments for us to make reasonable estimates of information rates. As in our previous experiments on graded potentials in L-neurons (Simmons and de Ruyter van Steveninck, 2005), we estimated information by dividing the power spectral density of the mean signal in DNI by the mean of the power spectral densities of noise (Shannon and Weaver, 1949;de Ruyter van Steveninck and Laughlin, 1996). From Fig.4B, we estimate that the graded potential in DNI carries 85bitss -1 in response to fluctuating light, and we made similar estimates in four different experiments (range 72-85bitss -1 ).…”

Section: Information In the Underlying Postsynaptic Potentialmentioning

confidence: 53%

“…From Fig.4B, we estimate that the graded potential in DNI carries 85bitss -1 in response to fluctuating light, and we made similar estimates in four different experiments (range 72-85bitss -1 ). This indicates that the information rate carried by graded potentials recorded from the cell body of the DNI is considerably less than the capacity of excitatory synaptic output connections made by Lneurons (Simmons and de Ruyter van Steveninck, 2005).…”

Section: Information In the Underlying Postsynaptic Potentialmentioning

confidence: 92%

“…The information in a single spike, I spike , is the difference between these entropies, calculated as: (Brenner et al, 2000), where r(t) is the time varying spike rate, and r is the time-averaged spike rate. To analyze the information rate transmitted by graded potentials, we used the same method we used previously (Simmons and de Ruyter van Steveninck, 2005), based…”

Section: Methodsmentioning

confidence: 99%

“…We have previously estimated that Lneurons and the excitatory output synapses they make carry information at several hundred bits per scond (Simmons and de Ruyter van Steveninck, 2005), or about four to five times greater than the information carrying capacity of trains of spikes in the DNI axon. To gain some further insight into information transmission within the ocellar pathway, we estimated the rate of information carried in underlying graded potential of the DNI, recorded from its cell body (individual postsynaptic processes are too small for stable recordings).…”

Section: Information In the Underlying Postsynaptic Potentialmentioning

confidence: 99%

“…A presynaptic L-neuron can carry approximately 300bitss -1 (Simmons and de Ruyter van Steveninck, 2005), which indicates a loss of 60-80% in information between a graded potential in an L-neuron and spikes in a DN neuron axon. A large part of this loss is attributable to the way the synapse is used in transmitting information about fluctuations in light.…”

Section: Performance and Mechanismmentioning

confidence: 99%

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Sparse but specific temporal coding by spikes in an insect sensory-motor ocellar pathway

Simmons

Steveninck

2010

Journal of Experimental Biology

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SUMMARYWe investigate coding in a locust brain neuron, DNI, which transforms graded synaptic input from ocellar L-neurons into axonal spikes that travel to excite particular thoracic flight neurons. Ocellar neurons are naturally stimulated by fluctuations in light collected from a wide field of view, for example when the visual horizon moves up and down. We used two types of stimuli: fluctuating light from a light-emitting diode (LED), and a visual horizon displayed on an electrostatic monitor. In response to randomly fluctuating light stimuli delivered from the LED, individual spikes in DNI occur sparsely but are timed to sub-millisecond precision, carrying substantial information: 4.5-7 bits per spike in our experiments. In response to these light stimuli, the graded potential signal in DNI carries considerably less information than in presynaptic L-neurons. DNI is excited in phase with either sinusoidal light from an LED or a visual horizon oscillating up and down at 20Hz, and changes in mean light level or mean horizon level alter the timing of excitation for each cycle. DNI is a multimodal interneuron, but its ability to time spikes precisely in response to ocellar stimulation is not degraded by additional excitation. We suggest that DNI is part of an optical proprioceptor system, responding to the optical signal induced in the ocelli by nodding movements of the locust head during each wing-beat.

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Section: Information In the Underlying Postsynaptic Potentialmentioning

confidence: 53%

Section: Information In the Underlying Postsynaptic Potentialmentioning

confidence: 92%

Section: Methodsmentioning

confidence: 99%

Section: Information In the Underlying Postsynaptic Potentialmentioning

confidence: 99%

Section: Performance and Mechanismmentioning

confidence: 99%

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Sparse but specific temporal coding by spikes in an insect sensory-motor ocellar pathway

Simmons

Steveninck

2010

Journal of Experimental Biology

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Structural organization of the presynaptic density at identified synapses in the locust central nervous system

Leitinger

Masich

Neumüller

et al. 2011

J of Comparative Neurology

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In a synaptic active zone, vesicles aggregate around a densely staining structure called the presynaptic density. We focus on its three-dimensional architecture and a major molecular component in the locust. We used electron tomography to study the presynaptic density in synapses made in the brain by identified second-order neuron of the ocelli. Here, vesicles close to the active zone are organized in two rows on either side of the presynaptic density, a level of organization not previously reported in insect central synapses. The row of vesicles that is closest to the density's base includes vesicles docked with the presynaptic membrane and thus presumably ready for release, whereas the outer row of vesicles does not include any that are docked. We show that a locust ortholog of the Drosophila protein Bruchpilot is localized to the presynaptic density, both in the ocellar pathway and compound eye visual neurons. An antibody recognizing the C-terminus of the Bruchpilot ortholog selectively labels filamentous extensions of the presynaptic density that reach out toward vesicles. Previous studies on Bruchpilot have focused on its role in neuromuscular junctions in Drosophila, and our study shows it is also a major functional component of presynaptic densities in the central nervous system of an evolutionarily distant insect. Our study thus reveals Bruchpilot executes similar functions in synapses that can sustain transmission of small graded potentials as well as those relaying large, spike-evoked signals. J. Comp. Neurol. 520:384–400, 2012. © 2011 Wiley Periodicals, Inc.

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Synchronization of wing beat cycle of the desert locust, Schistocerca gregaria, by periodic light flashes

2010

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Studies on the generation of rhythmic motor patterns have shown that peripheral sensory input may contribute substantially to the rhythm generating network. A prominent example is the wing beat frequency of desert locusts, which can be entrained to rhythmic mechanosensory input, but also to the frequency of periodic light flashes. To further analyze the entrainment by light, tethered flying locusts were presented with periodic light flashes, while the position of the forewing was filmed. We show that entrainment of wing beat occurs both in the UV and green range of light. Animals maintained a characteristic phase relationship to the light stimulus with the most elevated wing position occurring at the end of the dark phase. Speed and time course of entrainment varied greatly and ranged from the duration of a single wing beat cycle to several seconds. To identify the visual system mediating entrainment, synchronization to UV light was tested after cutting the optic stalks to the optic lobes/compound eyes or the ocellar nerves. The results show that light entrainment of the locust flight pattern is largely and perhaps exclusively mediated via the fast ocellar pathway and may have a role to stabilize flight with respect to the horizon.

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Reliability of Signal Transfer at a Tonically Transmitting, Graded Potential Synapse of the Locust Ocellar Pathway

Cited by 19 publications

References 41 publications

Sparse but specific temporal coding by spikes in an insect sensory-motor ocellar pathway

Sparse but specific temporal coding by spikes in an insect sensory-motor ocellar pathway

Structural organization of the presynaptic density at identified synapses in the locust central nervous system

Synchronization of wing beat cycle of the desert locust, Schistocerca gregaria, by periodic light flashes

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