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Merck
  • Saltatory Conduction along Myelinated Axons Involves a Periaxonal Nanocircuit.

Saltatory Conduction along Myelinated Axons Involves a Periaxonal Nanocircuit.

Cell (2019-12-31)
Charles C H Cohen, Marko A Popovic, Jan Klooster, Marie-Theres Weil, Wiebke Möbius, Klaus-Armin Nave, Maarten H P Kole
摘要

The propagation of electrical impulses along axons is highly accelerated by the myelin sheath and produces saltating or "jumping" action potentials across internodes, from one node of Ranvier to the next. The underlying electrical circuit, as well as the existence and role of submyelin conduction in saltatory conduction remain, however, elusive. Here, we made patch-clamp and high-speed voltage-calibrated optical recordings of potentials across the nodal and internodal axolemma of myelinated neocortical pyramidal axons combined with electron microscopy and experimentally constrained cable modeling. Our results reveal a nanoscale yet conductive periaxonal space, incompletely sealed at the paranodes, which separates the potentials across the low-capacitance myelin sheath and internodal axolemma. The emerging double-cable model reproduces the recorded evolution of voltage waveforms across nodes and internodes, including rapid nodal potentials traveling in advance of attenuated waves in the internodal axolemma, revealing a mechanism for saltation across time and space.

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生物胞素, ≥98% (TLC)
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二甲胂酸钠 三水合物, ≥98%
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四乙基氯化铵, ≥98% (titration)
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环氧包埋介质试剂盒, embedding resin for electron microscopy
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4-氨基吡啶, 98%
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氯化钙 二水合物, BioUltra, for molecular biology, ≥99.5% (KT)