袋狸(尤金袋鼠,Macropus eugenii)发育中的育儿袋幼崽的节律性运动活动和肢体间协调
Rhythmic motor activity and interlimb co-ordination in the developing pouch young of a wallaby (Macropus eugenii).
作者信息
Ho S M
机构信息
Developmental Neurobiology Group, Research School of Biological Sciences, Australian National University, Canberra, Australia.
出版信息
J Physiol. 1997 Jun 15;501 ( Pt 3)(Pt 3):623-36. doi: 10.1111/j.1469-7793.1997.623bm.x.
Abstract
- The forelimb motor behaviour of developing wallaby was studied. A clock-like alternating movement was reactivated whenever the animal was removed from the pouch. 2. Forelimb stepping frequency increased during the first 3 weeks of development, while the phase relationship remained constant. Forelimb activity could be affected by altering the afferent feedback from the contralateral limb, or an increase in ambient temperature. 3. In vitro experiments were performed using an isolated brainstem-spinal cord preparation from animals up to 6 weeks postnatal. Fictive locomotor activity could be evoked by electrical stimulation or bath-applied NMDA (< 10 microM). 4. Bath-applied strychnine (10-25 microM) and bicuculline (10-50 microM) disrupted the phase relationship between motor pools, while rhythmic motor discharge remained in the absence of these inhibitory pathways. 5. The present findings indicate that the pattern generator that underlies the robust forelimb movement during the first journey to the pouch is retained for different motor functions during in-pouch development. The neural network that underlies such behaviour can be divided into two major components, a rhythm generator within each hemicord, and a pattern co-ordinating pathway which involve both glycinergic and GABAergic interneurones.
摘要
- 对发育中的沙袋鼠的前肢运动行为进行了研究。每当将动物从育儿袋中取出时,一种类似时钟的交替运动就会重新激活。2. 在发育的前3周,前肢踏步频率增加,而相位关系保持不变。前肢活动可能会受到改变对侧肢体的传入反馈或环境温度升高的影响。3. 使用出生后6周内动物的离体脑干 - 脊髓标本进行了体外实验。电刺激或浴加NMDA(<10微摩尔)可诱发虚构运动活动。4. 浴加士的宁(10 - 25微摩尔)和荷包牡丹碱(10 - 50微摩尔)破坏了运动神经元池之间的相位关系,而在没有这些抑制途径的情况下,节律性运动放电仍然存在。5. 目前的研究结果表明,在首次前往育儿袋的过程中,作为强大前肢运动基础的模式发生器在育儿袋内发育期间被保留用于不同的运动功能。这种行为背后的神经网络可分为两个主要部分,每个半脊髓内的节律发生器,以及涉及甘氨酸能和GABA能中间神经元的模式协调通路。
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