Hair cell-specific splicing of mRNA for the α 1D subunit of voltage-gated Ca 2+ channels in the chicken’s cochlea
- 23 December 1997
- journal article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 94 (26) , 14889-14893
- https://doi.org/10.1073/pnas.94.26.14889
Abstract
The L-type voltage-gated Ca2+ channels that control tonic release of neurotransmitter from hair cells exhibit unusual electrophysiological properties: a low activation threshold, rapid activation and deactivation, and a lack of Ca2+-dependent inactivation. We have inquired whether these characteristics result from cell-specific splicing of the mRNA for the L-type alpha1D subunit that predominates in hair cells of the chicken's cochlea. The alpha1D subunit in hair cells contains three uncommon exons: one encoding a 26-aa insert in the cytoplasmic loop between repeats I and II, an alternative exon for transmembrane segment IIIS2, and a heretofore undescribed exon specifying a 10-aa insert in the cytoplasmic loop between segments IVS2 and IVS3. We propose that the alternative splicing of the alpha1D mRNA contributes to the unusual behavior of the hair cell's voltage-gated Ca2+ channels.Keywords
This publication has 39 references indexed in Scilit:
- Identification of Functionally Distinct Isoforms of the N-Type Ca2+ Channel in Rat Sympathetic Ganglia and BrainNeuron, 1997
- Essential Ca 2+ -Binding Motif for Ca 2+ -Sensitive Inactivation of L-Type Ca 2+ ChannelsScience, 1995
- The Structures of the Human Calcium Channel α1 Subunit (CACNL1A2) and β Subunit (CACNLB3) GenesGenomics, 1995
- Molecular determinants of voltage-dependent inactivation in calcium channelsNature, 1994
- Tissue‐specific expression of high‐voltage‐activated dihydropyridine‐sensitive L‐type calcium channelsEuropean Journal of Biochemistry, 1991
- Molecular cloning of multiple subtypes of a novel rat brain isoform of the α1 subunit of the voltage-dependent calcium channelNeuron, 1991
- Distinct calcium channels are generated by alternative splicing and are differentially expressed in the mammalian CNSNeuron, 1991
- Primary structure and functional expression of a high voltage activated calcium channel from rabbit lungFEBS Letters, 1990
- How the ear's works workNature, 1989
- Voltage- and ion-dependent conductances in solitary vertebrate hair cellsNature, 1983