Actin polymerization is activated by terahertz irradiation

Actin polymerization is activated by terahertz irradiation

Abstract Polymerization of monomeric actin into filaments has pivotal roles in cell motility, growth, differentiation, and gene expression. Therefore, techniques of manipulating actin polymerization, including actin-binding chemicals, have been developed for understanding and regulating multiple bio...

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Main Authors: Shota Yamazaki, Masahiko Harata, Toshitaka Idehara, Keiji Konagaya, Ginji Yokoyama, Hiromichi Hoshina, Yuichi Ogawa
Format: Article
Language:English
Published: Nature Publishing Group 2018-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-018-28245-9
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spelling doaj-56204364db3d4478b9c0e7321e41ec5f2020-12-08T04:19:32ZengNature Publishing GroupScientific Reports2045-23222018-07-01811710.1038/s41598-018-28245-9Actin polymerization is activated by terahertz irradiationShota Yamazaki0Masahiko Harata1Toshitaka Idehara2Keiji Konagaya3Ginji Yokoyama4Hiromichi Hoshina5Yuichi Ogawa6Laboratory of Molecular Biology, Graduate School of Agricultural Science, Tohoku UniversityLaboratory of Molecular Biology, Graduate School of Agricultural Science, Tohoku UniversityResearch Center for Development of Far-Infrared Region, University of Fukui (FIR UF)Graduate School of Agriculture, Kyoto University, Kitashirakawa-OiwakechoLaboratory of Molecular Biology, Graduate School of Agricultural Science, Tohoku UniversityTerahertz Sensing and Imaging Research Team, RIKEN Center for Advanced PhotonicsGraduate School of Agriculture, Kyoto University, Kitashirakawa-OiwakechoAbstract Polymerization of monomeric actin into filaments has pivotal roles in cell motility, growth, differentiation, and gene expression. Therefore, techniques of manipulating actin polymerization, including actin-binding chemicals, have been developed for understanding and regulating multiple biological functions. Here, we demonstrate that irradiation with terahertz (THz) waves is a novel method of modulating actin polymerization. When actin polymerization reaction is performed under irradiation with 0.46 THz waves generated by a Gyrotron, actin polymerization was observed to be activated by monitoring the fluorescence of pyrene actin fluorophores. We also observed the number of actin filaments under a fluorescence microscope using the polymerized actin probe SiR-actin. The number of actin filaments was increased by 3.5-fold after THz irradiation for 20 min. When the THz irradiation was applied to a steady-state actin solution, in which elongation and depolymerization of actin filaments were equilibrated, increased actin polymerization was observed, suggesting that the THz irradiation activates actin polymerization, at least in the elongation process. These results suggest that THz waves could be applied for manipulating biomolecules and cells.https://doi.org/10.1038/s41598-018-28245-9
collection DOAJ
language English
format Article
sources DOAJ
author Shota Yamazaki
Masahiko Harata
Toshitaka Idehara
Keiji Konagaya
Ginji Yokoyama
Hiromichi Hoshina
Yuichi Ogawa
spellingShingle Shota Yamazaki
Masahiko Harata
Toshitaka Idehara
Keiji Konagaya
Ginji Yokoyama
Hiromichi Hoshina
Yuichi Ogawa
Actin polymerization is activated by terahertz irradiation
Scientific Reports
author_facet Shota Yamazaki
Masahiko Harata
Toshitaka Idehara
Keiji Konagaya
Ginji Yokoyama
Hiromichi Hoshina
Yuichi Ogawa
author_sort Shota Yamazaki
title Actin polymerization is activated by terahertz irradiation
title_short Actin polymerization is activated by terahertz irradiation
title_full Actin polymerization is activated by terahertz irradiation
title_fullStr Actin polymerization is activated by terahertz irradiation
title_full_unstemmed Actin polymerization is activated by terahertz irradiation
title_sort actin polymerization is activated by terahertz irradiation
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2018-07-01
description Abstract Polymerization of monomeric actin into filaments has pivotal roles in cell motility, growth, differentiation, and gene expression. Therefore, techniques of manipulating actin polymerization, including actin-binding chemicals, have been developed for understanding and regulating multiple biological functions. Here, we demonstrate that irradiation with terahertz (THz) waves is a novel method of modulating actin polymerization. When actin polymerization reaction is performed under irradiation with 0.46 THz waves generated by a Gyrotron, actin polymerization was observed to be activated by monitoring the fluorescence of pyrene actin fluorophores. We also observed the number of actin filaments under a fluorescence microscope using the polymerized actin probe SiR-actin. The number of actin filaments was increased by 3.5-fold after THz irradiation for 20 min. When the THz irradiation was applied to a steady-state actin solution, in which elongation and depolymerization of actin filaments were equilibrated, increased actin polymerization was observed, suggesting that the THz irradiation activates actin polymerization, at least in the elongation process. These results suggest that THz waves could be applied for manipulating biomolecules and cells.
url https://doi.org/10.1038/s41598-018-28245-9
work_keys_str_mv AT shotayamazaki actinpolymerizationisactivatedbyterahertzirradiation
AT masahikoharata actinpolymerizationisactivatedbyterahertzirradiation
AT toshitakaidehara actinpolymerizationisactivatedbyterahertzirradiation
AT keijikonagaya actinpolymerizationisactivatedbyterahertzirradiation
AT ginjiyokoyama actinpolymerizationisactivatedbyterahertzirradiation
AT hiromichihoshina actinpolymerizationisactivatedbyterahertzirradiation
AT yuichiogawa actinpolymerizationisactivatedbyterahertzirradiation
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