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蟾蜍(海蟾蜍)臀肌在突触消除过程中地形图和纤维类型的发育

The development of topographical maps and fibre types in toad (Bufo marinus) glutaeus muscle during synapse elimination.

作者信息

Bennett M R, Davies A M, Everett A W

机构信息

Neurobiology Research Centre, University of Sydney, NSW, Australia.

出版信息

J Physiol. 1989 Feb;409:43-61. doi: 10.1113/jphysiol.1989.sp017484.

DOI:10.1113/jphysiol.1989.sp017484
PMID:2511295
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1190431/
Abstract
  1. The toad glutaeus muscle consists of two muscle compartments. A study has been made of the topographical distribution of motor units in these compartments, in relation to the fibre types which arise during different stages of development. 2. Monoclonal antibodies to myosin allowed the distribution of fibre types to be determined. In mature muscles (from toads of greater than 30 g body weight) clusters of type 5 (tonic) fibres were found exclusively at the dorsal surface of the muscle, surrounded by a layer of type 3 (slow-twitch) fibres. A homogeneous layer of type 2 (fast-twitch red) fibres was found beneath this dorsal rind of slow and tonic fibres. The rest of the muscle, including the ventral surface, consisted of a mosaic of type 1 (fast-twitch white) and type 2 fibres. 3. Glycogen-depletion methods, together with the myosin antibodies, allowed the distribution of single motor units and their fibre types to be determined. In mature muscles, axons originating from rostral spinal cord possessed muscle units located in a band extending from the ventral surface to beyond the middle of the muscle; these units consisted of 78% type 1 and 22% type 2 fibres found amongst the mosaic of type 1 and type 2 fibres. Intermediate axons possessed muscle units located primarily in the middle and dorsal half of the muscle. These units consisted mostly of type 2 fibres (29% type 1, 71% type 2) also found amongst the mosaic of type 1 and type 2 fibres. Thus rostral and intermediate units were of mixed fibre type, with type 1 fibres predominating in the former units and type 2 in the latter. Caudal axons possessed muscle units located mostly in the homogeneous layer of type 2 fibres, beneath the dorsal rind of tonic fibres; these units were almost always composed entirely of type 2 fibres. 4. The distribution of single motor units and their fibre types were determined for the caudal axons during development. In juvenile animals (toads of about 10 g body weight) the dorsal rind of tonic and slow fibres, together with the underlying homogeneous layer of type 2 fibres, were still present, but the rest of the muscle to the ventral surface consisted almost entirely of type 1 fibres. Caudal axons innervated the type 2 fibre layer at the dorsal surface as they do in mature animals. 5. The glutaeus in post-metamorphic toads (0.15 g body weight) had only a small number of tonic and slow-twitch fibres in the very dorsal layer of cells; the muscle was largely type 1.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 蟾蜍的臀肌由两个肌区组成。已对这些肌区中运动单位的地形分布进行了研究,涉及在不同发育阶段出现的纤维类型。2. 针对肌球蛋白的单克隆抗体可确定纤维类型的分布。在成熟肌肉(来自体重超过30克的蟾蜍)中,5型(紧张性)纤维簇仅在肌肉的背表面被发现,被一层3型(慢肌纤维)纤维包围。在这层慢肌纤维和紧张性纤维的背层之下发现了一层均匀的2型(快肌红纤维)纤维。肌肉的其余部分,包括腹表面,由1型(快肌白纤维)和2型纤维组成的镶嵌图案构成。3. 糖原耗竭法与肌球蛋白抗体一起,可确定单个运动单位及其纤维类型的分布。在成熟肌肉中,源自延髓脊髓的轴突所支配的肌肉单位位于从腹表面延伸至肌肉中部以外的一条带中;这些单位由在1型和2型纤维的镶嵌图案中发现的78%的1型纤维和22%的2型纤维组成。中间轴突所支配的肌肉单位主要位于肌肉的中部和背半部。这些单位也大多由在1型和2型纤维的镶嵌图案中发现的2型纤维组成(29%的1型纤维,71%的2型纤维)。因此,延髓和中间单位是混合纤维类型,1型纤维在前一种单位中占主导,2型纤维在后一种单位中占主导。尾侧轴突所支配的肌肉单位大多位于紧张性纤维背层之下的均匀的2型纤维层中;这些单位几乎总是完全由2型纤维组成。4. 在发育过程中确定了尾侧轴突的单个运动单位及其纤维类型的分布。在幼年动物(体重约10克的蟾蜍)中,紧张性和慢肌纤维的背层以及其下均匀的2型纤维层仍然存在,但到腹表面的其余肌肉几乎完全由1型纤维组成。尾侧轴突像在成熟动物中一样支配背表面的2型纤维层。5. 变态后蟾蜍(体重0.15克)的臀肌在最背层细胞中只有少量紧张性和慢肌纤维;肌肉大部分是1型。(摘要截取自400字)
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/36a397512e44/jphysiol00494-0066-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/4c58db26d03b/jphysiol00494-0063-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/095b991af5d8/jphysiol00494-0058-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/c64cbe10214e/jphysiol00494-0059-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/36a397512e44/jphysiol00494-0066-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/4c58db26d03b/jphysiol00494-0063-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/095b991af5d8/jphysiol00494-0058-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/c64cbe10214e/jphysiol00494-0059-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a3e/1190431/36a397512e44/jphysiol00494-0066-a.jpg

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