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Adaptive integrate-and-fire model reproduces the dynamics of olfactory receptor neuron responses in a moth
M. Levakova, L. Kostal, C. Monsempès, P. Lucas, R. Kobayashi,
Language English Country Great Britain
Document type Journal Article, Research Support, Non-U.S. Gov't
NLK
Free Medical Journals
from 2004
PubMed Central
from 2004 to 1 year ago
Europe PubMed Central
from 2004 to 1 year ago
Open Access Digital Library
from 2004-01-01
Open Access Digital Library
from 2004-11-22
- MeSH
- Action Potentials physiology MeSH
- Models, Biological MeSH
- Olfactory Receptor Neurons drug effects physiology MeSH
- Electrophysiological Phenomena MeSH
- Adaptation, Physiological * MeSH
- Moths physiology MeSH
- Sex Attractants pharmacology MeSH
- Animals MeSH
- Check Tag
- Male MeSH
- Animals MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
In order to understand how olfactory stimuli are encoded and processed in the brain, it is important to build a computational model for olfactory receptor neurons (ORNs). Here, we present a simple and reliable mathematical model of a moth ORN generating spikes. The model incorporates a simplified description of the chemical kinetics leading to olfactory receptor activation and action potential generation. We show that an adaptive spike threshold regulated by prior spike history is an effective mechanism for reproducing the typical phasic-tonic time course of ORN responses. Our model reproduces the response dynamics of individual neurons to a fluctuating stimulus that approximates odorant fluctuations in nature. The parameters of the spike threshold are essential for reproducing the response heterogeneity in ORNs. The model provides a valuable tool for efficient simulations of olfactory circuits.
References provided by Crossref.org
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- $a In order to understand how olfactory stimuli are encoded and processed in the brain, it is important to build a computational model for olfactory receptor neurons (ORNs). Here, we present a simple and reliable mathematical model of a moth ORN generating spikes. The model incorporates a simplified description of the chemical kinetics leading to olfactory receptor activation and action potential generation. We show that an adaptive spike threshold regulated by prior spike history is an effective mechanism for reproducing the typical phasic-tonic time course of ORN responses. Our model reproduces the response dynamics of individual neurons to a fluctuating stimulus that approximates odorant fluctuations in nature. The parameters of the spike threshold are essential for reproducing the response heterogeneity in ORNs. The model provides a valuable tool for efficient simulations of olfactory circuits.
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