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| Publications [#112799] of G Vann V. Bennett
Papers Published
- S Lambert, V Bennett, Postmitotic expression of ankyrinR and beta R-spectrin in discrete neuronal populations of the rat brain.,
The Journal of neuroscience : the official journal of the Society for Neuroscience, UNITED STATES, vol. 13 no. 9
(September, 1993),
pp. 3725-35, ISSN 0270-6474
(last updated on 2003/02/18)
Abstract:
Isoforms of ankyrin (ankyrinR) are expressed in both the erythrocyte and the brain. Four cDNAs representing regulatory domains of ankyrinR expressed in the rat spleen and brain were cloned and sequenced. These different cDNAs were found to result from tissue-specific alternative mRNA processing of the ankyrinR regulatory domain. One of the isolated cDNAs was used to develop an antibody to brain isoforms of ankyrinR, and this antibody was used to study the localization of ankyrinR in the rat brain. The protein was found to be widely expressed in neurons of the metencephalon but limited to a discrete subset of neurons in the rat forebrain. In the thalamus and areas of the basal ganglia, these neurons were grouped in defined nuclei, whereas in the cortex, hippocampus, and caudate putamen they appeared as isolated cells distributed randomly throughout these structures. A similar study using an antibody raised against erythrocyte spectrin (beta R) showed a comparable localization to that of ankyrinR. Both proteins were expressed late in the developing rat brain, as part of the maturation stage of neural development. These data suggest a specific role for these erythrocyte structural proteins in the postmitotic development of a subset of neurons in the rat brain.
Keywords:
Aging • Alternative Splicing* • Amino Acid Sequence • Animals • Ankyrins • Basal Ganglia • Brain • Cerebral Cortex • Erythrocytes • Hippocampus • Mesencephalon • Mitosis • Molecular Sequence Data • Neurons • Organ Specificity • Polymerase Chain Reaction • Prosencephalon • Putamen • RNA, Messenger • Rats • Rats, Sprague-Dawley • Regulatory Sequences, Nucleic Acid • Rhombencephalon • Spectrin • Spleen • Thalamus • analysis • biosynthesis* • cytology • growth & development • metabolism • metabolism* • methods • physiology
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