TY - JOUR T1 - Variability of Motor Neuron Spike Timing Maintains and Shapes Contractions of the Accessory Radula Closer Muscle of <em>Aplysia</em> JF - The Journal of Neuroscience JO - J. Neurosci. SP - 7056 LP - 7070 DO - 10.1523/JNEUROSCI.5277-05.2006 VL - 26 IS - 26 AU - Yuriy Zhurov AU - Vladimir Brezina Y1 - 2006/06/28 UR - http://www.jneurosci.org/content/26/26/7056.abstract N2 - The accessory radula closer (ARC) muscle of Aplysia has long been studied as a typical “slow” muscle, one that would be assumed to respond only to the overall, integrated spike rate of its motor neurons, B15 and B16. The precise timing of the individual spikes should not much matter. However, but real B15 and B16 spike patterns recorded in vivo show great variability that extends down to the timing of individual spikes. By replaying these real as well as artificially constructed spike patterns into ARC muscles in vitro, we examined the consequences of this spike-level variability for contraction. Replaying the same pattern several times reproduces precisely the same contraction shape: the B15/B16–ARC neuromuscular transform is deterministic. However, varying the timing of the spikes produces very different contraction shapes and amplitudes. The transform in fact operates at an interface between “fast” and “slow” regimens. It is fast enough that the timing of individual spikes greatly influences the detailed contraction shape. At the same time, slow integration of the spike pattern through the nonlinear transform allows the variable spike timing to determine also the overall contraction amplitude. Indeed, the variability appears to be necessary to maintain the contraction amplitude at a robust level. This phenomenon is tuned by neuromodulators that tune the speed and nonlinearity of the transform. Thus, the variable timing of individual spikes does matter, in at least two, functionally significant ways, in this “slow” neuromuscular system. ER -