7,16,84,102,103 Computational models have explored potential the

7,16,84,102,103 Computational models have explored potential theoretical advantages of cross-frequency coupling,4,51,116,117 and the mechanisms of cross-frequency coupling may form the backbone of a neural syntax, which allows for both segmentation and linking of spike trains into cell assemblies (“letters”) and assembly sequences (neural “words”).53 Spike content of brain rhythms Inhibitors,research,lifescience,medical While local field potentials provide reliable information about the group actions

of neurons, they do not fully represent the true common currency of interneuronal communication: action potentials, or “spikes” that the cell “fires.” While local field potential oscillations can be taken as a signal regarding the action potential-generating status of a particular population of neurons, it is mainly the action potential output of the neuron that can inform its downstream partners. Interest in brain rhythms has greatly increased recently largely due to our better understanding of the spike content of oscillations.7 These combined spike-field experiments further Inhibitors,research,lifescience,medical Inhibitors,research,lifescience,medical illustrate

that time in the brain is coded at multiple temporal scales and we will discuss representative experiments below. One such example comes in the form of hippocampal “place cells”: Selleckchem R428 neurons (which are actually pyramidal and granule cells of the hippocampus) that show an orderly firing of action potentials specifically correlated with the location of the Inhibitors,research,lifescience,medical rat in its environment. Assemblies of such neurons provide enough spatial information that they can be used to define a particular position of space.118,119 Furthermore, in a running/moving animal there is a constantly updating process of prediction of the places the animal will visit in the future by the firing of a spatially organized series hippocampal place cell neurons representing places directly ahead of the animal along its anticipated

path.66,120 Within a given θ cycle, the neurons active at the trough of that cycle appear to represent the current location of the rat, neurons active earlier in the cycle Inhibitors,research,lifescience,medical seem to represent already-visited places and later-activated neurons represent future locations (Figure 5) The temporal relationships of these predictively activated neurons are governed by a “compression rule”: within the θ cycle, the spike timing sequence of neurons predicts the upcoming sequence of locations in the Thymidine kinase path of the rat, with larger time lags representing proportionally larger distances or travel times17,66,121 (Figure 5). The time compression mechanism has important consequences on the assembly organization of hippocampal neurons. Because of the small time offsets between the place cell spikes within the γ cycle, the summed spikes of many overlapping place neurons will generate a group oscillation whose frequency is slower than the oscillation frequency of the constituent neurons.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>