Submicrosecond Imaging Under a Pulsed-Laser Fluorescence Microscope

Kazuhiko Kinosita; Ikuo Ashikawa; Masahiro Hibino; Akira Lkegami

doi:10.1117/12.945400

Submicrosecond Imaging Under a Pulsed-Laser Fluorescence Microscope

Kazuhiko Kinosita, Ikuo Ashikawa^*, Masahiro Hibino, Akira Lkegami

^*この研究の対応する著者

研究成果: Article › 査読

6 被引用数 (Scopus)

抄録

A microscope system has been constructed that enables digital imaging of a fluorescent cell under pulsed illumination. Each image is produced by a single laser pulse of duration less than 0.3 µ s. With this system, microsecond responses of a single cell to an externally applied electric field have been resolved temporally and spatially. The cell membrane was stained with a voltage-sensitive fluorescent dye. The induction of transsmembrane potential by the applied field, and the perforation (electroporation) of the cell membrane under an intense field, were seen as successive images. The major finding was a transient increase, at the moment of perforation, in the membrane permeability to an enormous level in localized regions of the cell membrane. Possible roles in cell technology, as well as other applications of the microscope system, are discussed.

本文言語	English
ページ（範囲）	271-277
ページ数	7
ジャーナル	Proceedings of SPIE - The International Society for Optical Engineering
巻	909
DOI	https://doi.org/10.1117/12.945400
出版ステータス	Published - 1988 6月 24
外部発表	はい

ASJC Scopus subject areas

応用数学
電子材料、光学材料、および磁性材料
凝縮系物理学
電子工学および電気工学
コンピュータサイエンスの応用

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abstract = "A microscope system has been constructed that enables digital imaging of a fluorescent cell under pulsed illumination. Each image is produced by a single laser pulse of duration less than 0.3 µ s. With this system, microsecond responses of a single cell to an externally applied electric field have been resolved temporally and spatially. The cell membrane was stained with a voltage-sensitive fluorescent dye. The induction of transsmembrane potential by the applied field, and the perforation (electroporation) of the cell membrane under an intense field, were seen as successive images. The major finding was a transient increase, at the moment of perforation, in the membrane permeability to an enormous level in localized regions of the cell membrane. Possible roles in cell technology, as well as other applications of the microscope system, are discussed.",

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T1 - Submicrosecond Imaging Under a Pulsed-Laser Fluorescence Microscope

AU - Kinosita, Kazuhiko

AU - Ashikawa, Ikuo

AU - Hibino, Masahiro

AU - Lkegami, Akira

PY - 1988/6/24

Y1 - 1988/6/24

N2 - A microscope system has been constructed that enables digital imaging of a fluorescent cell under pulsed illumination. Each image is produced by a single laser pulse of duration less than 0.3 µ s. With this system, microsecond responses of a single cell to an externally applied electric field have been resolved temporally and spatially. The cell membrane was stained with a voltage-sensitive fluorescent dye. The induction of transsmembrane potential by the applied field, and the perforation (electroporation) of the cell membrane under an intense field, were seen as successive images. The major finding was a transient increase, at the moment of perforation, in the membrane permeability to an enormous level in localized regions of the cell membrane. Possible roles in cell technology, as well as other applications of the microscope system, are discussed.

AB - A microscope system has been constructed that enables digital imaging of a fluorescent cell under pulsed illumination. Each image is produced by a single laser pulse of duration less than 0.3 µ s. With this system, microsecond responses of a single cell to an externally applied electric field have been resolved temporally and spatially. The cell membrane was stained with a voltage-sensitive fluorescent dye. The induction of transsmembrane potential by the applied field, and the perforation (electroporation) of the cell membrane under an intense field, were seen as successive images. The major finding was a transient increase, at the moment of perforation, in the membrane permeability to an enormous level in localized regions of the cell membrane. Possible roles in cell technology, as well as other applications of the microscope system, are discussed.

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Submicrosecond Imaging Under a Pulsed-Laser Fluorescence Microscope

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