成年期及生长过程中动物之间运动模式产生的变异性。
Animal-to-animal variability in motor pattern production in adults and during growth.
作者信息
Bucher Dirk, Prinz Astrid A, Marder Eve
机构信息
Volen Center and Biology Department, Brandeis University, Waltham, Massachusetts 02454-9110, USA.
出版信息
J Neurosci. 2005 Feb 16;25(7):1611-9. doi: 10.1523/JNEUROSCI.3679-04.2005.
Abstract
Which features of network output are well preserved during growth of the nervous system and across different preparations of the same size? To address this issue, we characterized the pyloric rhythms generated by the stomatogastric nervous systems of 99 adult and 12 juvenile lobsters (Homarus americanus). Anatomical studies of single pyloric network neurons and of the whole stomatogastric ganglion (STG) showed that the STG and its neurons grow considerably from juvenile to adult. Despite these changes in size, intracellularly recorded membrane potential waveforms of pyloric network neurons and the phase relationships in the pyloric rhythm were very similar between juvenile and adult preparations. Across adult preparations, the cycle period and number of spikes per burst were not tightly maintained, but the mean phase relationships were independent of the period of the rhythm and relatively tightly maintained across preparations. We interpret this as evidence for homeostatic regulation of network activity.
摘要
在神经系统发育过程中以及在相同大小的不同标本中,网络输出的哪些特征能得到很好的保留?为了解决这个问题,我们对99只成年龙虾和12只幼年龙虾(美洲螯龙虾)的口胃神经系统产生的幽门节律进行了特征描述。对单个幽门网络神经元和整个口胃神经节(STG)的解剖学研究表明,从幼年到成年,STG及其神经元有显著生长。尽管大小有这些变化,但幼年和成年标本中,细胞内记录的幽门网络神经元的膜电位波形以及幽门节律中的相位关系非常相似。在成年标本中,每个爆发的周期时长和尖峰数量并没有严格保持一致,但平均相位关系与节律周期无关,并且在不同标本间相对严格地保持着。我们将此解释为网络活动稳态调节的证据。
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