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  • Title: In situ hybridization localization of the GABAA receptor beta 2S- and beta 2L-subunit transcripts reveals cell-specific splicing of alternate cassette exons.
    Author: Harvey RJ, Darlison MG.
    Journal: Neuroscience; 1997 Mar; 77(2):361-9. PubMed ID: 9472396.
    Abstract:
    We have recently described two variants of the chicken GABAA receptor beta 2 subunit which arise by alternative splicing of the corresponding primary gene transcript. The long form of the beta 2 subunit (beta 2L) differs from the short form (beta 2S) by the insertion of an additional 17 amino acids, in the large presumed intracellular loop, between the third and fourth membrane-spanning domains. In this study, we have utilized in situ hybridization with transcript-specific oligonucleotide probes to determine the regional and cellular localizations of the beta 2S- and beta 2L-subunit messenger RNAs in the one-day-old chick brain. We show that the beta 2-subunit gene is expressed in many brain areas that also transcribe the GABAA receptor alpha 1- and gamma 2-polypeptide genes. We also demonstrate that while the beta 2S- and beta 2L-subunit messenger RNAs frequently co-localize in many brain areas, certain structures (e.g., the ectostriatum, the hippocampus, the nucleus solitarius, the nucleus isthmi, pars parvocellularis, the nucleus isthmi, pars magnocellularis, the paleostriatum primitivum, the Purkinje cell layer, and the deep cerebellar nuclei) exclusively or predominantly contain either the beta 2S- or the beta 2L-subunit transcript. The distributions of the beta 2S- and beta 2L-polypeptide messenger RNAs resemble those previously described for the chicken GABAA receptor gamma 2S- and gamma 2L-subunit transcripts, respectively, which are also generated by alternative splicing. Our results indicate that a major GABAA receptor subtype in the avian brain is comprised of alpha 1, beta 2 and gamma 2 subunits. In addition, the data obtained reveal that many neurons in the chicken CNS are capable of producing more than one alternatively spliced form of a given primary gene transcript. However, the avian brain also appears to contain two small populations of neurons that possess mechanisms that result in either the incorporation of alternate cassette exons into mature transcripts, or the exclusion of such exons from processed messenger RNAs.
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