Enhanced calcium transients in glial cells in neonatal cerebellar cultures derived from S100B null mice

Z Xiong, D O'Hanlon, LE Becker, J Roder… - Experimental cell …, 2000 - Elsevier
S100B is the major low-affinity Ca2+-binding protein in astrocytes. In order to study the role
of S100B in the maintenance of Ca2+ homeostasis, we generated S100B null mice by a …
被引用次数:167 相关文章

Enhanced Calcium Transients in Glial Cells in Neonatal Cerebellar Cultures Derived from S100B Null Mice

Z Xiong, D O'Hanlon, LE Becker, J Roder… - Experimental Cell …, 2000 - infona.pl
S100B is the major low-affinity Ca2+-binding protein in astrocytes. In order to study the role
of S100B in the maintenance of Ca2+ homeostasis, we generated S100B null mice by a …

[引用][C] Enhanced Calcium Transients in Glial Cells in Neonatal Cerebellar Cultures Derived from S100B Null Mice

Z Xiong, D O'Hanlon, LE Becker, J Roder… - Experimental Cell …, 2000 - cir.nii.ac.jp
Enhanced Calcium Transients in Glial Cells in Neonatal Cerebellar Cultures Derived from
S100B Null Mice | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ …

Enhanced calcium transients in glial cells in neonatal cerebellar cultures derived from S100B null mice.

Z Xiong, D O'Hanlon, LE Becker, J Roder… - Experimental Cell …, 2000 - europepmc.org
S100B is the major low-affinity Ca (2+)-binding protein in astrocytes. In order to study the
role of S100B in the maintenance of Ca (2+) homeostasis, we generated S100B null mice by …

Enhanced calcium transients in glial cells in neonatal cerebellar cultures derived from S100B null mice

Z Xiong, D O'Hanlon, LE Becker… - Experimental cell …, 2000 - pubmed.ncbi.nlm.nih.gov
S100B is the major low-affinity Ca (2+)-binding protein in astrocytes. In order to study the
role of S100B in the maintenance of Ca (2+) homeostasis, we generated S100B null mice by …

[引用][C] Marks Enhanced calcium transients in glial cells in neonatal cerebellar cultures derived from S100B null mice

Z XIONG - Exp. Cell. Res., 2000 - cir.nii.ac.jp