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1 an infusion of muscimol into the cerebellar interpositus nucleus.
2 begins later as plasticity is induced in the interpositus nucleus.
3 ssed only after plasticity is induced in the interpositus nucleus.
4 had little effect on similar activity in the interpositus nucleus.
5 aspect of the caudal half of the ipsilateral interpositus nucleus.
6 eus was most likely driven by the cerebellar interpositus nucleus.
7 fter bilateral lesions aimed at the anterior interpositus nucleus.
8 the cell number and the size of the anterior interpositus nucleus.
9 tion was used as the CS, inactivation of the interpositus nucleus abolished learning-related neuronal
11 that reversible inactivation of the anterior interpositus nucleus (AIP) of the cerebellum with muscim
13 of the cerebellar cortex and in the anterior interpositus nucleus and (2) induction of plasticity in
14 al activity was recorded from the cerebellar interpositus nucleus and lateral pontine nuclei during c
15 onal activity was recorded in the cerebellar interpositus nucleus and medial auditory thalamus simult
17 abeled neurons were found in portions of the interpositus nucleus and the substantia nigra pars retic
21 neuronal activity in the cerebellar anterior interpositus nucleus during acquisition and retention of
22 ntagonist, into the region of the cerebellar interpositus nucleus during classical eyeblink condition
23 inhibitor, into the region of the cerebellar interpositus nucleus during classical eyeblink condition
24 onal activity was recorded in the cerebellar interpositus nucleus in infant rats during classical con
25 cerol and arachidonic acid in the cerebellar interpositus nucleus in males only; (2) decreased 2-arac
27 cortex versus deep nuclei (specifically the interpositus nucleus) in eyeblink learning by using muta
29 creases in the BOLD response in the anterior interpositus nucleus (IPA) and significant bilateral dea
30 hmic theta-band (6-7 Hz) oscillations in the interpositus nucleus (IPN) and cerebellar cortex that we
31 Here, we evaluate the dynamics of cerebellar interpositus nucleus (IpN) neurons over the course of Pa
32 s recorded from tetrodes within the anterior interpositus nucleus (IPN) of the cerebellum and basilar
33 line or muscimol infusions into the anterior interpositus nucleus ipsilateral to the conditioned eye
34 litude and timing, whereas plasticity in the interpositus nucleus is necessary or permissive for cond
36 gest that neurons in the cerebellar anterior interpositus nucleus may participate in the acquisition
37 er reversible inactivation of the cerebellar interpositus nucleus (muscimol) or permanent electrolyti
38 ort of neuronal activities in the cerebellar interpositus nucleus of rabbits performing bimodal respo
39 Single-unit activity was monitored in the interpositus nucleus of the cerebellum during standard d
42 similar changes in neuronal activity in the interpositus nucleus over the course of acquisition and
43 t this time confirmed the presence of robust interpositus nucleus plasticity after the second phase.
44 ow that a small area in the rostral anterior interpositus nucleus (rAIN) of the mouse cerebellum is r
45 inhibitor actinomycin D into the cerebellar interpositus nucleus reversibly blocked learning but not
48 e implanted with recording electrodes in the interpositus nucleus then received paired presentations
49 ortex becomes increasingly important for the interpositus nucleus to learn delay eyeblink conditionin
52 eriment 2, neuronal activity in the anterior interpositus nucleus was recorded during CI training and
53 The relative absence of plasticity in the interpositus nucleus was then examined via reversible di
54 contrast, wild-type mice with lesions of the interpositus nucleus were completely unable to learn the
55 neuronal correlates of CI in the cerebellar interpositus nucleus were examined in the present study.
56 c lesions to their cerebellum (targeting the interpositus nucleus) were completely unable to acquire