Overexpression of a calcium-binding protein, S100 beta, in astrocytes alters synaptic plasticity and impairs spatial learning in transgenic mice.
Learning & Memory, 1995 - learnmem.cshlp.org
Recent evidence suggests that slowly propagating Ca2+ waves from astrocytes can
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
Overexpression of a calcium-binding protein, S100 beta, in astrocytes alters synaptic plasticity and impairs spatial learning in transgenic mice.
R Gerlai, JM Wojtowicz, A Marks… - Learning & Memory (Cold …, 1995 - europepmc.org
Recent evidence suggests that slowly propagating Ca2+ waves from astrocytes can
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
Overexpression of a calcium-binding protein, S100 beta, in astrocytes alters synaptic plasticity and impairs spatial learning in transgenic mice
R Gerlai, JM Wojtowicz, A Marks… - Learning & memory …, 1995 - pubmed.ncbi.nlm.nih.gov
Recent evidence suggests that slowly propagating Ca2+ waves from astrocytes can
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
[PDF][PDF] Overexpression of a calcium-binding protein, S100 beta, in
R Gerlai, JM Wojtowicz, A Marks - LEARNING & MEMORY - researchgate.net
Recent evidence suggests that slowly propagating Ca 2÷ waves from astrocytes can
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
Overexpression of a calcium-binding protein, S100 beta, in astrocytes alters synaptic plasticity and impairs spatial learning in transgenic mice.
R Gerlai, JM Wojtowicz, A Marks, J Roder - Learning & Memory, 1995 - cir.nii.ac.jp
抄録< jats: p> Recent evidence suggests that slowly propagating Ca2+ waves from
astrocytes can modulate the function of neurons. Altering astrocytic calcium processes in …
astrocytes can modulate the function of neurons. Altering astrocytic calcium processes in …
[PDF][PDF] Overexpression of a calcium-binding protein, S100 beta, in
R Gerlai, JM Wojtowicz, A Marks - LEARNING & MEMORY - academia.edu
Recent evidence suggests that slowly propagating Ca 2÷ waves from astrocytes can
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
modulate the function of neurons. Altering astrocytic calcium processes in vivo may therefore …
Overexpression of a calcium-binding protein, S100β, in astrocytes alters synaptic plasticity and impairs spatial learning in transgenic mice.
R Gerlai, JM Wojtowicz, A Marks, J Roder - Learning & Memory, 1995 - psycnet.apa.org
Examined the hippocampal electrophysiology and learning of transgenic mice that
overexpress an astrocytic calcium binding protein, S100β. Overall distribution of post-tetanic …
overexpress an astrocytic calcium binding protein, S100β. Overall distribution of post-tetanic …
[引用][C] Overexpression of a calcium-binding protein, S100 beta, in astrocytes alters synaptic plasticity and impairs spatial learning in transgenic mice
R GERLAI - Learn. Mem., 1995 - cir.nii.ac.jp
Overexpression of a calcium-binding protein, S100 beta, in astrocytes alters synaptic plasticity
and impairs spatial learning in transgenic mice | CiNii Research CiNii 国立情報学研究所 学術 …
and impairs spatial learning in transgenic mice | CiNii Research CiNii 国立情報学研究所 学術 …