Calcium-Binding Proteins in the Central Nervous System.

Seto‐Ohshima, Akiko

doi:10.1267/ahc.27.93

Cited by 42 publications

(19 citation statements)

References 108 publications

(89 reference statements)

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“…Parvalbumin is expressed preferentially in a subpopulation of GABAergic neurons in mice, overlapping with the ␣ 3 Na ϩ /K ϩ -ATPase expression (8,61,62). Parvalbumin modulates short term synaptic plasticity (63) and thus compliments the signaling role of the ␣ 3 Na ϩ /K ϩ -ATPase in synaptic plasticity and in dendritic growth in cortical neurons (64).…”

Section: Discussionmentioning

confidence: 99%

α3Na+/K+-ATPase Deficiency Causes Brain Ventricle Dilation and Abrupt Embryonic Motility in Zebrafish

Doğanlı

Beck

Ribera

et al. 2013

Journal of Biological Chemistry

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Section: Discussionmentioning

confidence: 99%

α3Na+/K+-ATPase Deficiency Causes Brain Ventricle Dilation and Abrupt Embryonic Motility in Zebrafish

Doğanlı

Beck

Ribera

et al. 2013

Journal of Biological Chemistry

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“…These proteins are widely dispersed throughout the cytosol of the neurons up to its thinnest processes. Thus, antibodies against these CaBPs are excellent tools to visualize the neuronal architecture and to provide almost Golgi-like staining (for reviews see Baimbridge et al, 1992;Andressen et al, 1993;Seto-Ohshima, 1994). The labeling can even help to reveal specific connectivities between afferents and their target neurons (Baimbridge et al, 1992;Kevetter and Leonard, 1997).…”

Section: Introductionmentioning

confidence: 99%

Characterization of cochlear nucleus principal cells of Meriones unguiculatus and Monodelphis domestica by use of calcium-binding protein immunolabeling

Bazwinsky

Härtig²,

Rübsamen³

2008

Journal of Chemical Neuroanatomy

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“…The present experiments investigated whether rotundal core neurons were a single or heterogeneous population by an independent approach, immunocytochemistry, using antibodies to the calcium binding proteins, calbindin/calretinin and parvalbumin, which label specific neuronal aggregates and cell populations in the central nervous system of other vertebrates [Andressen et al, 1993;Seto-Ohshima, 1994]. Observations at the light microscope level were performed to answer the following questions.…”

Section: Introductionmentioning

confidence: 99%

Calcium Binding Protein Immunoreactivity in Nucleus Rotundus in a Reptile, <i>Caiman crocodilus</i>

Pritz

Siadati²

1999

Brain Behav Evol

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Nucleus rotundus is a prominent nucleus in the dorsal thalamus of nonmammalian amniotes. In one group of reptiles, Caiman crocodilus, previous studies have identified three parts of this neuronal aggregate. The central portion, the rotundal core, which receives visual input from the midbrain and projects to a restricted portion of the telencephalon, contains relay cells only. Previous examinations using Nissl morphology indicated that neurons of the rotundal core were not a homogeneous population of cells. The present investigation utilized another methodology to examine cell populations within the rotundal core, immunoreactivity to the calcium binding proteins, calbindin/calretinin and parvalbumin. Light microscopic observations revealed the following features. First, calbindin/calretinin immunoreactive neurons and parvalbumin immunoreactive neurons were present in the rotundal core. Of these two antibodies, immunoreactivity to calbindin/calretinin was much more robust and calbindin/calretinin immunoreactive neurons were more numerous than parvalbumin cells. Second, neurons immunoreactive to either calbindin/calretinin or parvalbumin were not homogeneous but comprised several populations based on perikaryal shape and size and neuronal process morphology. These results are compared with similar data in other amniotes.

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Calcium-Binding Proteins in the Central Nervous System.

Cited by 42 publications

References 108 publications

α3Na+/K+-ATPase Deficiency Causes Brain Ventricle Dilation and Abrupt Embryonic Motility in Zebrafish

α3Na+/K+-ATPase Deficiency Causes Brain Ventricle Dilation and Abrupt Embryonic Motility in Zebrafish

Characterization of cochlear nucleus principal cells of Meriones unguiculatus and Monodelphis domestica by use of calcium-binding protein immunolabeling

Calcium Binding Protein Immunoreactivity in Nucleus Rotundus in a Reptile, <i>Caiman crocodilus</i>

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