Distinct Frequency-Dependent Regulation of Nerve Terminal Excitability and Synaptic Transmission by I(A) and I(K) Potassium Channels Revealed by Drosophila Shaker and Shab Mutations

Podobne zapisy

• Voltage Sensitivity and Gating Charge in Shaker and Shab Family Potassium Channels
  od: Islas, Leon D., i wsp.
  Wydane: (1999)
• Altered nerve terminal arborization and synaptic transmission in Drosophila mutants of cell adhesion molecule fasciclin I
  od: Zhong, Y, i wsp.
  Wydane: (1995)
• Pre- and post-synaptic mechanisms of synaptic strength homeostasis revealed by Slowpoke and Shaker K(+) channel mutations in Drosophila
  od: Lee, Jihye, i wsp.
  Wydane: (2008)
• Role of rut adenylyl cyclase in the ensemble regulation of presynaptic terminal excitability: Reduced synaptic strength and precision in a Drosophila memory mutant
  od: Ueda, Atsushi, i wsp.
  Wydane: (2008)
• Shal, Shab, and Shaw: three genes encoding potassium channels in Drosophila.
  od: Butler, A, i wsp.
  Wydane: (1990)