Shupliakov O V
Zh Evol Biokhim Fiziol. 1986 Mar-Apr;22(2):174-80.
In experiments on preparations of isolated spinal cord of the tadpoles, intracellular studies have been made on the synaptic potentials evoked in the lumbar motoneurones during total activation of the fibers within the 9th dorsal root. It was shown that primary afferents form monosynaptic contacts with motoneurones at stages XIV-XXV. During larval development, the number of motor cells in which monosynaptic EPSPs are recorded increases, whereas the number of motoneurones with only polysynaptic reactions decreases. From the moment of formation of monosynaptic contacts, transmission in direct sensory-motor synapses is realised by a dual (electrical-chemical) mode. The data obtained are discussed in relation to the problem of evolution of synaptic transmission between heterotypic neurones in vertebrates.
在对蝌蚪离体脊髓标本进行的实验中,已对第九背根内纤维完全激活期间腰运动神经元中诱发的突触电位进行了细胞内研究。结果表明,初级传入神经在第十四至二十五阶段与运动神经元形成单突触联系。在幼体发育过程中,记录到单突触兴奋性突触后电位的运动细胞数量增加,而仅有多突触反应的运动神经元数量减少。从单突触联系形成之时起,直接感觉运动突触的传递是通过双重(电 - 化学)模式实现的。结合脊椎动物异型神经元之间突触传递的进化问题对所得数据进行了讨论。