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离体小龙虾中枢神经系统中单位活动的源机制

Source mechanisms for unit activity in isolated crayfish central nervous system.

作者信息

Biederman-Thorson M

出版信息

J Gen Physiol. 1966 Mar;49(4):597-612. doi: 10.1085/jgp.49.4.597.

Abstract

As a tool for the identification of source mechanisms underlying the activity of single interneurons in the isolated crayfish abdominal cord, pulse trains from a sample of such neurons are statistically described (shape, mean, standard deviation, and serial correlation coefficient of interval distributions). These statistics were measured under four independent means of obtaining different average frequencies: (a) naturally occurring frequencies under standard conditions, (b) temperature control, (c) dc polarization, and (d) electrical stimulation of presynaptic fibers. 40 of 44 units studied had unimodal histograms, symmetrical when the mean interval was small and positively skewed with large means. Under standard conditions these units had SD = k (mean)(n), with n approximately 2. Fifteen single units were caused to fire at varied frequencies by cooling or dc stimulation. The resulting SD-vs.-mean plots for single units showed: (a)all points for a given unit fell approximately on a single line, regardless of whether temperature, dc, or neither was used to vary frequency, and (b) the average value of n (slope of log SD vs. log mean) for the fifteen units was 1.9 +/- 0.2. A paradox arises from interpretation of these data via gamma distributions. It is concluded that most of the spontaneous activity in the isolated abdominal cord may result from pacemaker activity within each cell and does not require a network of active units. Finally, the fact that the SD-mean relation was found not to depend measurably on temperature is interpreted as a useful restriction on models for neuronal noise processes.

摘要

作为一种用于识别分离的小龙虾腹神经索中单个中间神经元活动潜在源机制的工具,对来自此类神经元样本的脉冲序列进行了统计描述(形状、均值、标准差以及间隔分布的序列相关系数)。这些统计数据是在获得不同平均频率的四种独立方法下测量的:(a) 标准条件下的自然发生频率,(b) 温度控制,(c) 直流极化,以及 (d) 对突触前纤维的电刺激。所研究的44个单元中有40个具有单峰直方图,当平均间隔较小时对称,当平均间隔较大时呈正偏态。在标准条件下,这些单元的标准差SD = k(均值)(n),其中n约为2。通过冷却或直流刺激使15个单个单元以不同频率放电。单个单元得到的标准差与均值的关系图显示:(a) 对于给定单元的所有点大致落在一条直线上,无论使用温度、直流还是两者都不使用来改变频率,并且 (b) 这15个单元的n(对数标准差与对数均值的斜率)的平均值为1.9±0.2。通过伽马分布对这些数据进行解释会产生一个悖论。得出的结论是,分离的腹神经索中的大多数自发活动可能源于每个细胞内的起搏器活动,并且不需要活跃单元网络。最后,标准差与均值的关系被发现与温度没有可测量的依赖性这一事实被解释为对神经元噪声过程模型的一个有用限制。

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