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Literature DB >> 8558241

Homogeneous development of electrical excitability via heterogeneous ion channel expression.

Abstract

Synchronous differentiation of delayed-rectifier potassium current regulates electrical excitability and calcium entry in motor, sensory, and interneurons of the developing amphibian spinal cord. Although Kv1 and Kv2 potassium channel transcripts are detectable in these cells, it is not known which transcript contributes to functional expression. Overexpression of a Kv1 dominant-negative subunit indicates that 20% of neurons have only Kv1 potassium currents. In other neurons, non-Kv1 channels function because the dominant-negative subunit either only partially suppresses or has no effect on current. Thus, diverse embryonic neurons coordinate differentiation of excitability yet rely on heterogeneous potassium channel gene expression.

Entities: Chemical

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Year: 1996 PMID： 8558241 PMCID： PMC6578785

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

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Cited

18 in total

1. Xenopus embryonic spinal neurons express potassium channel Kvbeta subunits.

Authors: M A Lazaroff; A D Hofmann; A B Ribera
Journal: J Neurosci Date: 1999-12-15 Impact factor: 6.167

2. Subfamily-specific posttranscriptional mechanism underlies K(+) channel expression in a developing neuronal blastomere.

Authors: F Ono; Y Katsuyama; K Nakajo; Y Okamura
Journal: J Neurosci Date: 1999-08-15 Impact factor: 6.167

3. Kv2 channels form delayed-rectifier potassium channels in situ.

Authors: J T Blaine; A B Ribera
Journal: J Neurosci Date: 2001-03-01 Impact factor: 6.167

4. Antisense suppression of potassium channel expression demonstrates its role in maturation of the action potential.

Authors: A Vincent; N J Lautermilch; N C Spitzer
Journal: J Neurosci Date: 2000-08-15 Impact factor: 6.167

5. In vivo analysis of Kvbeta2 function in Xenopus embryonic myocytes.

Authors: Meredith A Lazaroff; Alison D Taylor; Angeles B Ribera
Journal: J Physiol Date: 2002-06-15 Impact factor: 5.182

6. Quantitative single-cell-reverse transcription-PCR demonstrates that A-current magnitude varies as a linear function of shal gene expression in identified stomatogastric neurons.

Authors: D J Baro; R M Levini; M T Kim; A R Willms; C C Lanning; H E Rodriguez; R M Harris-Warrick
Journal: J Neurosci Date: 1997-09-01 Impact factor: 6.167

Homogeneous development of electrical excitability via heterogeneous ion channel expression.

1. Xenopus embryonic spinal neurons express potassium channel Kvbeta subunits.

2. Subfamily-specific posttranscriptional mechanism underlies K(+) channel expression in a developing neuronal blastomere.

3. Kv2 channels form delayed-rectifier potassium channels in situ.

4. Antisense suppression of potassium channel expression demonstrates its role in maturation of the action potential.

5. In vivo analysis of Kvbeta2 function in Xenopus embryonic myocytes.

6. Quantitative single-cell-reverse transcription-PCR demonstrates that A-current magnitude varies as a linear function of shal gene expression in identified stomatogastric neurons.

7. Kv1 potassium channel complexes in vivo require Kvbeta2 subunits in dorsal spinal neurons.

8. Dorsal-ventral gradient for neuronal plasticity in the embryonic spinal cord.

9. Expression of Kv1.1, a Shaker-like potassium channel, is temporally regulated in embryonic neurons and glia.

10. Heteromultimeric potassium channels formed by members of the Kv2 subfamily.