The role of negative conductances in neuronal subthreshold properties and synaptic integration (2017)
- Autores:
- Autores USP: SILVA FILHO, ANTONIO CARLOS ROQUE DA - FFCLRP ; LEÃO, RICARDO MAURICIO XAVIER - FMRP
- Unidades: FFCLRP; FMRP
- DOI: 10.1007/s12551-017-0300-8
- Assuntos: NEUROLOGIA; SINAPSE
- Palavras-chave do autor: Neuronal membrane; Neuronal subthreshold properties; Passive cable theory; Synaptic integration; Voltage-dependent inward currents
- Agências de fomento:
- Idioma: Inglês
- Imprenta:
- Local: Heidelberg
- Data de publicação: 2017
- Fonte:
- Título do periódico: Biophysical Reviews
- ISSN: 1867-2450
- Volume/Número/Paginação/Ano: v. 9, n. 5, p. 827-834, 2017
- Este periódico é de assinatura
- Este artigo é de acesso aberto
- URL de acesso aberto
- Cor do Acesso Aberto: green
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ABNT
CEBALLOS, Cesar C. e ROQUE, Antonio Carlos e LEÃO, Ricardo Maurício Xavier. The role of negative conductances in neuronal subthreshold properties and synaptic integration. Biophysical Reviews, v. 9, n. 5, p. 827-834, 2017Tradução . . Disponível em: https://doi.org/10.1007/s12551-017-0300-8. Acesso em: 25 abr. 2024. -
APA
Ceballos, C. C., Roque, A. C., & Leão, R. M. X. (2017). The role of negative conductances in neuronal subthreshold properties and synaptic integration. Biophysical Reviews, 9( 5), 827-834. doi:10.1007/s12551-017-0300-8 -
NLM
Ceballos CC, Roque AC, Leão RMX. The role of negative conductances in neuronal subthreshold properties and synaptic integration [Internet]. Biophysical Reviews. 2017 ; 9( 5): 827-834.[citado 2024 abr. 25 ] Available from: https://doi.org/10.1007/s12551-017-0300-8 -
Vancouver
Ceballos CC, Roque AC, Leão RMX. The role of negative conductances in neuronal subthreshold properties and synaptic integration [Internet]. Biophysical Reviews. 2017 ; 9( 5): 827-834.[citado 2024 abr. 25 ] Available from: https://doi.org/10.1007/s12551-017-0300-8 - Differential role of subthreshold conductances on the firing of dorsal cochlear nucleus fusiform neurons
- Non-Decaying postsynaptics potentials and delayed spikes in hippocampal pyramidal neurons generated by a zero slope conductance created by the persistent Na+ current
- The persistent sodium current increases near-threshold input resistance and membrane time constant via a negative slope conductance
- Ih equalizes membrane input resistance in a heterogeneous population of fusiform neurons in the dorsal cochlear nucleus
- A negative slope conductance of the persistent sodium current prolongs subthreshold depolarizations
- Ih equalizes membrane input resistance in a heterogeneous population of fusiform neurons in the dorsal cochlear nucleus
- Corrigendum: ih equalizes membrane input resistance in a heterogeneous population of fusiform neurons in the dorsal cochlear nucleus
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Informações sobre o DOI: 10.1007/s12551-017-0300-8 (Fonte: oaDOI API)
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