about
The Brain Mechanisms Underlying the Perception of Pungent Taste of Capsaicin and the Subsequent Autonomic ResponsesThe Possible Role of TASK Channels in Rank-Ordered Recruitment of Motoneurons in the Dorsolateral Part of the Trigeminal Motor Nucleus.Protein kinase G dynamically modulates TASK1-mediated leak K+ currents in cholinergic neurons of the basal forebrain.cGMP activates a pH-sensitive leak K+ current in the presumed cholinergic neuron of basal forebrain.GABA(B) receptor-mediated presynaptic inhibition reverses inter-columnar covariability of synaptic actions by intracortical axons in the rat barrel cortex.Rapid use-dependent down-regulation of gamma-aminobutyric acid type A receptors in rat mesencephalic trigeminal neurons.Differential columnar processing in local circuits of barrel and insular cortices.Bidirectional interactions between h-channels and Na+-K+ pumps in mesencephalic trigeminal neurons.A mathematical model of negative covariability of inter-columnar excitatory synaptic actions caused by presynaptic inhibition.Involvement of persistent Na+ current in spike initiation in primary sensory neurons of the rat mesencephalic trigeminal nucleus.Generation of resonance-dependent oscillation by mGluR-I activation switches single spiking to bursting in mesencephalic trigeminal sensory neurons.Capsaicin induces theta-band synchronization between gustatory and autonomic insular cortices.Two opposing roles of 4-AP-sensitive K+ current in initiation and invasion of spikes in rat mesencephalic trigeminal neurons.Enhanced lateral inhibition in the barrel cortex by deletion of phospholipase C-related catalytically inactive protein-1/2 in mice.Enhanced desensitization followed by unusual resensitization in GABAA receptors in phospholipase C-related catalytically inactive protein-1/2 double-knockout mice.Influence of clenching intensity on bite force balance, occlusal contact area, and average bite pressureRecruitment of masseter motoneurons by the presumed spindle Ia inputsIllusion caused by vibration of muscle spindles reveals an involvement of muscle spindle inputs in regulating isometric contraction of masseter musclesTeeth clenching reduces arm abduction force
P50
Q36475387-89E09984-6B12-4ECC-A365-F188D4174881Q37110555-97E9C18B-A403-4520-B0C0-177C87DEE7E6Q39712236-E9F8F704-3600-4D53-B58F-22FE4C7DD240Q42524923-6A6C547E-D605-4E43-A5B8-A451D7719C00Q44738554-3EB9F69A-0311-4924-AE27-3DAB115B431FQ45967717-3A319EBC-821D-4455-9AA8-4E7A4AD2DEE9Q46691841-C95E2807-4625-4DD4-B85D-7BC1781DC0D7Q47798251-E026FA12-B946-4057-A5C9-17B2084FF5EEQ48032356-1FFC77DD-2A4E-4E94-9BF3-6A9E10F84E5BQ48307048-0A1086DD-92B5-4F52-920C-0A483B436412Q48311908-71863808-8596-4BE2-BF11-BF326729BE00Q48361888-0BCAE066-BBDF-450F-B496-5335946A5802Q48577563-B7081082-0513-4685-9E6C-5D4F7374ECF7Q48580495-1D38F1FB-BCFD-4F85-9B3F-03C5680D846EQ50473686-6A9AA3C1-C02F-4D21-89F7-212E79F87248Q77993926-D671EA8A-992B-4651-BCE3-FB0541D98359Q82625357-BA722598-051D-4828-9E58-3DEF19B28F47Q84852811-AD6E01BE-9B4A-4236-8A3B-970626DE8B4EQ87573544-C713FDD1-F2F1-4A72-A880-B023DB4D2B64
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Mitsuru Saito
@ast
Mitsuru Saito
@en
Mitsuru Saito
@es
Mitsuru Saito
@nl
Mitsuru Saito
@sl
type
label
Mitsuru Saito
@ast
Mitsuru Saito
@en
Mitsuru Saito
@es
Mitsuru Saito
@nl
Mitsuru Saito
@sl
prefLabel
Mitsuru Saito
@ast
Mitsuru Saito
@en
Mitsuru Saito
@es
Mitsuru Saito
@nl
Mitsuru Saito
@sl
P106
P31
P496
0000-0002-5389-746X