Your search keyword '"spike variability"' showing total 8 results

1. Altered basal ganglia output during self-restraint.

Author

Gu, Bon-Mi and Berke, Joshua

Subjects

behavioral inhibition, neuroscience, parkinsons disease, population dynamics, rat, spike variability, substantia nigra pars reticulata, Rats, Animals, Substantia Nigra, Basal Ganglia, Pars Reticulata, Neurons, Reaction Time

Abstract

Suppressing actions is essential for flexible behavior. Multiple neural circuits involved in behavioral inhibition converge upon a key basal ganglia output nucleus, the substantia nigra pars reticulata (SNr). To examine how changes in basal ganglia output contribute to self-restraint, we recorded SNr neurons during a proactive behavioral inhibition task. Rats responded to Go! cues with rapid leftward or rightward movements, but also prepared to cancel one of these movement directions on trials when a Stop! cue might occur. This action restraint - visible as direction-selective slowing of reaction times - altered both rates and patterns of SNr spiking. Overall firing rate was elevated before the Go! cue, and this effect was driven by a subpopulation of direction-selective SNr neurons. In neural state space, this corresponded to a shift away from the restrained movement. SNr neurons also showed more variable inter-spike intervals during proactive inhibition. This corresponded to more variable state-space trajectories, which may slow reaction times via reduced preparation to move. These findings open new perspectives on how basal ganglia dynamics contribute to movement preparation and cognitive control.

Published

2022

2. Large coefficient of variation of inter-spike intervals induced by noise current in the resonate-and-fire model neuron.

Author

Protachevicz, P. R., Bonin, C. A., Iarosz, K. C., Caldas, I. L., and Batista, A. M.

Abstract

Neuronal spike variability is a statistical property associated with the noise environment. Considering a linearised Hodgkin–Huxley model, we investigate how large spike variability can be induced in a typical stellate cell when submitted to constant and noise current amplitudes. For low noise current, we observe only periodic firing (active) or silence activities. For intermediate noise values, in addition to only active or inactive periods, we also identify a single transition from an initial spike-train (active) to silence dynamics over time, where the spike variability is low. However, for high noise current, we find intermittent active and silence periods with different values. The spike intervals during active and silent states follow the exponential distribution, which is similar to the Poisson process. For non-maximal noise current, we observe the highest values of inter-spike variability. Our results suggest sub-threshold oscillations as a possible mechanism for the appearance of high spike variability in a single neuron due to noise currents. [ABSTRACT FROM AUTHOR]

Published

2022

3. Altered basal ganglia output during self-restraint

Author

Bon-Mi Gu and Joshua D Berke

Subjects

behavioral inhibition, substantia nigra pars reticulata, population dynamics, spike variability, parkinson's disease, Medicine, Science, Biology (General), QH301-705.5

Abstract

Suppressing actions is essential for flexible behavior. Multiple neural circuits involved in behavioral inhibition converge upon a key basal ganglia output nucleus, the substantia nigra pars reticulata (SNr). To examine how changes in basal ganglia output contribute to self-restraint, we recorded SNr neurons during a proactive behavioral inhibition task. Rats responded to Go! cues with rapid leftward or rightward movements, but also prepared to cancel one of these movement directions on trials when a Stop! cue might occur. This action restraint – visible as direction-selective slowing of reaction times – altered both rates and patterns of SNr spiking. Overall firing rate was elevated before the Go! cue, and this effect was driven by a subpopulation of direction-selective SNr neurons. In neural state space, this corresponded to a shift away from the restrained movement. SNr neurons also showed more variable inter-spike intervals during proactive inhibition. This corresponded to more variable state-space trajectories, which may slow reaction times via reduced preparation to move. These findings open new perspectives on how basal ganglia dynamics contribute to movement preparation and cognitive control.

Published

2022

4. VARIABILITY OF NUMBER OF KERNELS PER SPIKE IN WHEAT CULTIVARS (Triticum aestivum L.)

Author

Desimir KNEZEVIC, Veselinka ZECEVIC, Svetislav STAMENKOVIC, Srdjan ATANASIJEVIC, and Božidar MILOSEVIC

Subjects

cultivar, kernels, spike variability, wheat, Agriculture

Abstract

In this paper was analyzed number of kernels per spike in 20 genetically divergent wheat cultivars originated from different breeding centers in Serbia. Investigation conducted during two seasons which characterized different climatic condition. For analysis used samples of 60 wheat plants (20 plants in 3 replications) which were harvested in full maturity stage. The differences in average values for number of kernels per spike in studied cultivars were determined. The variability of number of kernels per spike was established. In average, number of kernels per spike for all cultivars was higher in second year 72.22 than in first experimental year 68.73. The highest number of kernels/spike in both year expressed Tanjugovka cultivar and the lowest Yugoslavia cultivar. Average value of coefficientvariation for all cultivars varied from 14.19 in first year to 12.92 in second year. Average number of kernels per spike for both year of growing, varied from 54.56 in cultivar Yugoslavia to 77.83 in cultivar Tanjugovka. Significant differences for number of kernels/spike were found among cultivars in both years as well between years. Heritability in wide sense for number of kernels/spike was 79.13%.

Published

2012

5. Altered basal ganglia output during self-restraint.

Author

Gu BM and Berke JD

Subjects

Rats, Animals, Basal Ganglia physiology, Neurons physiology, Reaction Time physiology, Substantia Nigra physiology, Pars Reticulata

Abstract

Suppressing actions is essential for flexible behavior. Multiple neural circuits involved in behavioral inhibition converge upon a key basal ganglia output nucleus, the substantia nigra pars reticulata (SNr). To examine how changes in basal ganglia output contribute to self-restraint, we recorded SNr neurons during a proactive behavioral inhibition task. Rats responded to Go! cues with rapid leftward or rightward movements, but also prepared to cancel one of these movement directions on trials when a Stop! cue might occur. This action restraint - visible as direction-selective slowing of reaction times - altered both rates and patterns of SNr spiking. Overall firing rate was elevated before the Go! cue, and this effect was driven by a subpopulation of direction-selective SNr neurons. In neural state space, this corresponded to a shift away from the restrained movement. SNr neurons also showed more variable inter-spike intervals during proactive inhibition. This corresponded to more variable state-space trajectories, which may slow reaction times via reduced preparation to move. These findings open new perspectives on how basal ganglia dynamics contribute to movement preparation and cognitive control., Competing Interests: BG, JB No competing interests declared, (© 2022, Gu and Berke.)

Published

2022

6. VARIABILITY OF NUMBER OF KERNELS PER SPIKE IN WHEAT CULTIVARS (Triticum aestivum L.).

Author

Knezevic, Desimir, Zecevic, Veselinka, Stamenkovic, Svetislav, Atanasijevic, Srdjan, and Milosevic, Bozidar

Subjects

WHEAT varieties, CLIMATE change, PLANT breeding, PLANT growth, SEASONS, PLANT genetics

Abstract

In this paper was analyzed number of kernels per spike in 20 genetically divergent wheat cultivars originated from different breeding centers in Serbia. Investigation conducted during two seasons which characterized different climatic condition. For analysis used samples of 60 wheat plants (20 plants in 3 replications) which were harvested in full maturity stage. The differences in average values for number of kernels per spike in studied cultivars were determined. The variability of number of kernels per spike was established. In average, number of kernels per spike for all cultivars was higher in second year 72.22 than in first experimental year 68.73. The highest number of kernels/spike in both year expressed Tanjugovka cultivar and the lowest Yugoslavia cultivar. Average value of coefficientvariation for all cultivars varied from 14.19 in first year to 12.92 in second year. Average number of kernels per spike for both year of growing, varied from 54.56 in cultivar Yugoslavia to 77.83 in cultivar Tanjugovka. Significant differences for number of kernels/spike were found among cultivars in both years as well between years. Heritability in wide sense for number of kernels/spike was 79.13%. [ABSTRACT FROM AUTHOR]

Published

2012

7. VARIABILITY OF NUMBER OF KERNELS PER SPIKE IN WHEAT CULTIVARS (Triticum aestivum L.)

Author

Srdjan Atanasijevic, Božidar Milosevic, Svetislav Stamenkovic, Desimir Knezevic, Veselinka Zecevic, and Prpić, Zvonimir

Subjects

0106 biological sciences, lcsh:S, spike variability, 04 agricultural and veterinary sciences, Biology, Heritability, 01 natural sciences, kernels, lcsh:Agriculture, Agronomy, wheat, 040103 agronomy & agriculture, cultivar, 0401 agriculture, forestry, and fisheries, Animal Science and Zoology, Spike (software development), Cultivar, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

In this paper was analyzed number of kernels per spike in 20 genetically divergent wheat cultivars originated from different breeding centers in Serbia. Investigation conducted during two seasons which characterized different climatic condition. For analysis used samples of 60 wheat plants (20 plants in 3 replications) which were harvested in full maturity stage. The differences in average values for number of kernels per spike in studied cultivars were determined. The variability of number of kernels per spike was established. In average, number of kernels per spike for all cultivars was higher in second year 72.22 than in first experimental year 68.73. The highest number of kernels/spike in both year expressed Tanjugovka cultivar and the lowest Yugoslavia cultivar. Average value of coefficientvariation for all cultivars varied from 14.19 in first year to 12.92 in second year. Average number of kernels per spike for both year of growing, varied from 54.56 in cultivar Yugoslavia to 77.83 in cultivar Tanjugovka. Significant differences for number of kernels/spike were found among cultivars in both years as well between years. Heritability in wide sense for number of kernels/spike was 79.13%.

Published

2012

8. Responses of Ensemble Neurons to Spike-Train Signals with Independent Noises : Stohastic Resonance and Spike Variability

Author

Hasegawa, Hideo

Subjects

ensemble neurons, spike variability, stochastic resonance

Published

2003