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Qi SHAO, Simin CHEN, Tian XU, Yuyu SHI, Zijin SUN, Qingguo WANG, Xueqian WANG, Fafeng CHENG. The structure of myelin in the central nervous system and another possible driving force for its formation—myelin compaction[J]. Journal of Zhejiang University Science B, 1998, -1(-1): .
@article{title="The structure of myelin in the central nervous system and another possible driving force for its formation—myelin compaction",
author="Qi SHAO, Simin CHEN, Tian XU, Yuyu SHI, Zijin SUN, Qingguo WANG, Xueqian WANG, Fafeng CHENG",
journal="Journal of Zhejiang University Science B",
volume="-1",
number="-1",
pages="",
year="1998",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.B2300776"
}
%0 Journal Article
%T The structure of myelin in the central nervous system and another possible driving force for its formation—myelin compaction
%A Qi SHAO
%A Simin CHEN
%A Tian XU
%A Yuyu SHI
%A Zijin SUN
%A Qingguo WANG
%A Xueqian WANG
%A Fafeng CHENG
%J Journal of Zhejiang University SCIENCE B
%V -1
%N -1
%P
%@ 1673-1581
%D 1998
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.B2300776
TY - JOUR
T1 - The structure of myelin in the central nervous system and another possible driving force for its formation—myelin compaction
A1 - Qi SHAO
A1 - Simin CHEN
A1 - Tian XU
A1 - Yuyu SHI
A1 - Zijin SUN
A1 - Qingguo WANG
A1 - Xueqian WANG
A1 - Fafeng CHENG
J0 - Journal of Zhejiang University Science B
VL - -1
IS - -1
SP -
EP -
%@ 1673-1581
Y1 - 1998
PB - Zhejiang University Press & Springer
ER -
DOI - 10.1631/jzus.B2300776
Abstract: myelin formation is considered the last true "invention" in the evolution of vertebrate nervous system cell structure. The rapid, jumping pulse propagation achieved by myelin enables the high conduction speed that is the basis of human movement, sensation and cognitive function. As a key structure in the brain, white matter is the gathering place of myelin. However, with age, white matter-associated functions become abnormal, and a large number of myelin sheaths show degenerative changes, causing serious neurological and cognitive disorders. Despite the extensive time and effort invested in exploring myelination and its functions, numerous unresolved issues and challenges persist. In-depth exploration of the functional role of myelin may bring new inspiration for the treatment of central nervous system (CNS) diseases and even mental illnesses. In this study, we conducted a comprehensive examination of the structure and key molecules of the myelin in the CNS, delving into its formation process. Specifically, we propose a new hypothesis regarding the source of power for myelin expansion in which membrane compaction may serve as a driving force for myelin extension. The implications of this hypothesis could provide valuable insights into the pathophysiology of diseases involving myelin malfunction and open new avenues for therapeutic intervention in myelin-related disorders
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