Name Excerpt In-Text Tag Sample EXP
RE 326 Activity of a neuron from motor compartment of the reticular nucleus of thalamus (RE) during walking on the flat surface, horizontal ladder with crosspieces 5 cm wide, and along a 5 cm narrow walkway. Description of  the narrow walkway can be found in Farrell et al., 2015. The cell was recorded in RE track 1 of stimulation passive PTN positioned longitudinal synaptically forelimb segments backward neuron Vladimir Marlinski
VL 123   Activity of a neuron from the ventrolateral nucleus of the thalamus (VL) during walking on the flat surface and horizontal ladder with crosspieces 12 cm wide.  The neuron was recorded in thalamic track 3 (see thalamic map here). It antidromically responded to stimulation of motor cortex, thus it was a thalamo-cortical projesction neurion, TC. Latent period somatosensory tract selected information marrow hip surface flar surface count body recorded by Zinaida Andreevna Tamarova, analyzed by Vladimir Marlinki and IB
VL 115 Activity of a neuron from the ventrolateral nucleus of the thalamus (VL) during walking on the flat surface and horizontal ladder with crosspieces 5 cm wide.  The neuron was recorded in thalamic track 3 (see thalamic map here). It responded to manipulation of the contralateral hip. This VL neuron was one of the 238 neurons, activity of which was analyzed turn data created hip stimulation projects analyzed approved footprints manipulation recorded by Zinaida Andreevna Tamarova, analyzed by Vladimir Marlinski and IB
PTN 3190 Activity of a pyramidal tract projecting cell (PTN) of  motor cortex during walking on the flat surface and horizontal ladder with crosspieces 5, 12, and 18 cm wide. The cell was recorded in track 21 of Cat 7 (see cortical map). Latent period of cell’s response to electrical stimulation of the pyramidal tract was 1.1 ms; collision distal cell walkways format content single spreadsheet simultaneously pellet placement recorded and analyzed by IB
PTN 3188 Activity of a pyramidal tract projecting cell (PTN) of the motor cortex during walking on the flat surface and horizontal ladder with crosspieces 5 cm wide.  Latent period of cell’s response to stimulation of the pyramidal tract was 1.1 ms; collision test was satisfied. The cell was activated by extension of the contralateral shoulder, that is export region simultaneously obstructed projecting motor cortex response times mat below recorded by Zinaida Andreevna Tamarova, analyzed by IB