Nitric oxide: an adequate modulatory link between biological oscillators and control systems in the mammalian brain

Hans-Christian Pape
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引用次数: 26

Abstract

Nitric oxide (NO), a free radical gas, has been widely suggested as a messenger molecule in the nervous system, whose biophysical mechanisms and biochemical pathways of action are radically different from those of more traditional transmitter candidates. The intention of the present seminar is to evaluate recent evidence indicating a close anatomical and physiological relationship between NO and subsystems in the brain associated with the circadian rhythm and the sleep/waking cycle, and thus to prompt the discussion about the functional significance and the teleological advantage of a ‘nitrergic’ link between two different sorts of synaptic activity: that which is generated within cellular networks of biological oscillators and that which is a consequence of activity in systems assumed to control or reset pacemaker activity.

一氧化氮:哺乳动物大脑中生物振荡器和控制系统之间的适当调节联系
一氧化氮(NO)是一种自由基气体,被广泛认为是神经系统中的信使分子,其生物物理机制和生物化学作用途径与传统的递质候选者有根本不同。本次研讨会的目的是评估最近的证据,这些证据表明NO和大脑中与昼夜节律和睡眠/清醒周期相关的子系统之间存在密切的解剖和生理关系,从而促进关于两种不同类型的突触活动之间的“氮能”联系的功能意义和目的论优势的讨论。这是在生物振荡器的细胞网络中产生的,这是控制或重置起搏器活动的系统活动的结果。
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