Search research articles
Contact Us
Filters
Showing results (11-20 of 102) with videos related to
Page
of 11
Sort By:
Nihon Naika Gakkai Zasshi. the Journal of the Japanese Society of Internal Medicine
|
May 26, 1999
[Fulminant hepatitis: description of its physiopathology]
K Fujiwara, S Mochida
Brain Research
|
September 24, 1986
Three types of muscarinic conductance changes in sympathetic neurons discriminately evoked by the different concentrations of acetylcholine
S Mochida, H Kobayashi
Brain Research
|
April 9, 1990
Postsynaptic long-term enhancement (LTE) by dopamine may be mediated by Ca2+ and calmodulin
S Mochida, B Libet
Brain Research
|
November 15, 1988
Long-term enhancement (LTE) of postsynaptic potentials following neural conditioning, in mammalian sympathetic ganglia
B Libet, S Mochida
Neuroscience Letters
|
March 31, 1988
Protein kinase C activators mimic the M2-muscarinic receptor-mediated effects on the action potential in isolated sympathetic neurons of rabbits
S Mochida, H Kobayashi
Life Sciences
|
January 1, 1988
A novel muscarinic receptor antagonist AF-DX 116 differentially blocks slow inhibitory and slow excitatory postsynaptic potentials in the rabbit sympathetic ganglia
S Mochida, H Kobayashi
Neuroscience Letters
|
November 11, 1988
GTP-binding proteins mediate the M2-muscarinic effect on the action potential in isolated sympathetic neurons of rabbits
S Mochida, H Kobayashi
Neuroscience Letters
|
December 12, 1986
Effects of Ca antagonists on the action potential and their relationship to the muscarinic ACh actions in isolated sympathetic neurons of rabbits
S Mochida, H Kobayashi
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
February 1, 1987
Stimulation of adenylate cyclase in relation to dopamine-induced long-term enhancement (LTE) of muscarinic depolarization in the rabbit superior cervical ganglion
S Mochida, H Kobayashi, B Libet
Microscopy Research and Technique
|
October 1, 1994
Analysis of the mechanism for acetylcholine release at the synapse formed between rat sympathetic neurons in culture
S Mochida, Y Nonomura, H Kobayashi
Page
of 11
Search research articles
Search
Showing results (11-20 of 102) with videos related to
Sort By:
Page
of 11
Nihon Naika Gakkai Zasshi. the Journal of the Japanese Society of Internal Medicine
|
May 26, 1999
[Fulminant hepatitis: description of its physiopathology]
K Fujiwara, S Mochida
Brain Research
|
September 24, 1986
Three types of muscarinic conductance changes in sympathetic neurons discriminately evoked by the different concentrations of acetylcholine
S Mochida, H Kobayashi
Brain Research
|
April 9, 1990
Postsynaptic long-term enhancement (LTE) by dopamine may be mediated by Ca2+ and calmodulin
S Mochida, B Libet
Brain Research
|
November 15, 1988
Long-term enhancement (LTE) of postsynaptic potentials following neural conditioning, in mammalian sympathetic ganglia
B Libet, S Mochida
Neuroscience Letters
|
March 31, 1988
Protein kinase C activators mimic the M2-muscarinic receptor-mediated effects on the action potential in isolated sympathetic neurons of rabbits
S Mochida, H Kobayashi
Life Sciences
|
January 1, 1988
A novel muscarinic receptor antagonist AF-DX 116 differentially blocks slow inhibitory and slow excitatory postsynaptic potentials in the rabbit sympathetic ganglia
S Mochida, H Kobayashi
Neuroscience Letters
|
November 11, 1988
GTP-binding proteins mediate the M2-muscarinic effect on the action potential in isolated sympathetic neurons of rabbits
S Mochida, H Kobayashi
Neuroscience Letters
|
December 12, 1986
Effects of Ca antagonists on the action potential and their relationship to the muscarinic ACh actions in isolated sympathetic neurons of rabbits
S Mochida, H Kobayashi
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
February 1, 1987
Stimulation of adenylate cyclase in relation to dopamine-induced long-term enhancement (LTE) of muscarinic depolarization in the rabbit superior cervical ganglion
S Mochida, H Kobayashi, B Libet
Microscopy Research and Technique
|
October 1, 1994
Analysis of the mechanism for acetylcholine release at the synapse formed between rat sympathetic neurons in culture
S Mochida, Y Nonomura, H Kobayashi
Page
of 11