Reciprocal Interaction of On- and Off-Systems as a Mechanism of Sensitivity of Visual Neurons to The Orientation of the Vector of the Brightness Gradient in Cats |
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Authors: | N. F. Podvigin T. A. Spasskaya N. B. Kiseleva E. V. Boikova E. Pöppel |
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Affiliation: | (1) Pavlov Institute of Physiology, Russian Academy of Sciences, St. Petersburg, Russia;(2) Institute of Medical Psychology, Munchen University, Munchen, Germany |
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Abstract: | An experimental study has been performed on neuronal mechanisms of sensitivity of cat visual neurons (lateral geniculate body) to the value and orientation of the vector of brightness gradient in a test stimulus. With changes of the value and orientation of the brightness gradient vector, there exists an optimal (preferred) orientation of the gradient vector, at which the neuronal response is maximal. The sensitivity of neurons to the brightness gradient at shifts of the gradient vector towards the preferred orientation increases not due to an increased excitation in neuronal reactions, but due to a reduction of reciprocal (on- and off-) inhibition, affecting this neuron, of adjacent neurons in neuronal pools. The reciprocal inhibitory interaction of on- and off-systems is enhanced by inhibiting the response of the antagonistic neuron at shifts of the brightness gradient vector in the stimulus from the preferred to the non-preferred orientation. This reciprocal inhibitory interaction is clearly seen in pairs of on- and off-neurons with superposed receptive fields (RF) at their simultaneous analysis of on- and off-responses at a change of the orientation of the brightness gradient vector by 180 degrees. Dependencies of the parameters (duration and intensity of inhibitory phases in responses) of reciprocal inhibitory interaction on orientation of the brightness gradient vector in RF of neurons are determined. Dependencies of responses of the total sample of neurons, which are plotted for on- and off-neurons, to their adequate and inadequate (on- and off-) stimuli on the orientation of the brightness gradient vector are inversely proportional. |
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