Activation of Eukaryotic Flagellar Beating at High-Pressure

Review of High Pressure Science and Technology/Koatsuryoku No Kagaku To Gijutsu Pub Date : 2021-01-01 DOI:10.4131/jshpreview.31.66
T. Yagi, M. Nishiyama
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Abstract

Eukaryotic flagella and cilia generate rhythmical beating motions. When the structure is partially defective, the motility is severely impaired. We have developed a high-pressure microscope that is optimized both for the best image formation and for the stability to hydrostatic pressure up to 150 MPa. Here, we show that high hydrostatic pressure induces vigorous beating motion of Chlamydomonas flagella with defect structures. In addition, our results suggest that application of pressure increased intra-flagella Ca2+ concentration. The present technique could be extended to study other protein machineries and cell dynamics. [high-pressure microscopy, flagellar motility, bacterial motility, chlamydomonas, intracellular calcium concentration]
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高压下真核鞭毛跳动的激活
真核生物的鞭毛和纤毛产生有节奏的跳动运动。当结构部分缺损时,运动能力严重受损。我们开发了一种高压显微镜,它既能获得最佳成像效果,又能在高达150mpa的静水压力下保持稳定。本研究表明,高静水压力诱导具有缺陷结构的鞭毛衣藻剧烈跳动。此外,我们的结果表明,施加压力增加鞭毛内Ca2+浓度。该技术可以推广到其他蛋白质机制和细胞动力学的研究中。[高压显微镜,鞭毛运动,细菌运动,衣原体,细胞内钙浓度]
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来源期刊
Review of High Pressure Science and Technology/Koatsuryoku No Kagaku To Gijutsu
Review of High Pressure Science and Technology/Koatsuryoku No Kagaku To Gijutsu Chemistry-Chemistry (all)
CiteScore
0.10
自引率
0.00%
发文量
9
期刊最新文献
Foreword 琉球大学 理学部 物質地球科学科物理系 多重自由度相関研究室(物性物理学) ダイヤモンドアンビルセル中の物質の高温高圧その場熱物性測定 High-Pressure Synthesis and In-Situ Physical Property Measurement Using Boron-Doped Diamond 高圧バイオサイエンスという異分野交流
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