New class of bioluminogenic probe based on bioluminescent enzyme-induced electron transfer: BioLeT

Hideo Takakura; Ryosuke Kojima; Mako Kamiya; Eiji Kobayashi; Toru Komatsu; Tasuku Ueno; Takuya Terai; Kenjiro Hanaoka; Tetsuo Nagano; Yasuteru Urano

doi:10.1021/ja511014w

New class of bioluminogenic probe based on bioluminescent enzyme-induced electron transfer: BioLeT

Hideo Takakura, Ryosuke Kojima, Mako Kamiya, Eiji Kobayashi, Toru Komatsu, Tasuku Ueno, Takuya Terai, Kenjiro Hanaoka, Tetsuo Nagano, Yasuteru Urano

研究成果: Article › 査読

55 被引用数 (Scopus)

抄録

Bioluminescence imaging (BLI) has advantages for investigating biological phenomena in deep tissues of living animals, but few design strategies are available for functional bioluminescent substrates. We propose a new design strategy (designated as bioluminescent enzyme-induced electron transfer: BioLeT) for luciferin-based bioluminescence probes. Luminescence measurements of a series of aminoluciferin derivatives confirmed that bioluminescence can be controlled by means of BioLeT. Based on this concept, we developed bioluminescence probes for nitric oxide that enabled quantitative and sensitive detection even in vivo. Our design strategy should be applicable to develop a wide range of practically useful bioluminogenic probes.

本文言語	English
ページ（範囲）	4010-4013
ページ数	4
ジャーナル	Journal of the American Chemical Society
巻	137
号	12
DOI	https://doi.org/10.1021/ja511014w
出版ステータス	Published - 2015 4月 1
外部発表	はい

ASJC Scopus subject areas

触媒
化学 (全般)
生化学
コロイド化学および表面化学

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10.1021/ja511014w

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abstract = "Bioluminescence imaging (BLI) has advantages for investigating biological phenomena in deep tissues of living animals, but few design strategies are available for functional bioluminescent substrates. We propose a new design strategy (designated as bioluminescent enzyme-induced electron transfer: BioLeT) for luciferin-based bioluminescence probes. Luminescence measurements of a series of aminoluciferin derivatives confirmed that bioluminescence can be controlled by means of BioLeT. Based on this concept, we developed bioluminescence probes for nitric oxide that enabled quantitative and sensitive detection even in vivo. Our design strategy should be applicable to develop a wide range of practically useful bioluminogenic probes.",

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AU - Takakura, Hideo

AU - Kojima, Ryosuke

AU - Kamiya, Mako

AU - Kobayashi, Eiji

AU - Komatsu, Toru

AU - Ueno, Tasuku

AU - Terai, Takuya

AU - Hanaoka, Kenjiro

AU - Nagano, Tetsuo

AU - Urano, Yasuteru

PY - 2015/4/1

Y1 - 2015/4/1

N2 - Bioluminescence imaging (BLI) has advantages for investigating biological phenomena in deep tissues of living animals, but few design strategies are available for functional bioluminescent substrates. We propose a new design strategy (designated as bioluminescent enzyme-induced electron transfer: BioLeT) for luciferin-based bioluminescence probes. Luminescence measurements of a series of aminoluciferin derivatives confirmed that bioluminescence can be controlled by means of BioLeT. Based on this concept, we developed bioluminescence probes for nitric oxide that enabled quantitative and sensitive detection even in vivo. Our design strategy should be applicable to develop a wide range of practically useful bioluminogenic probes.

AB - Bioluminescence imaging (BLI) has advantages for investigating biological phenomena in deep tissues of living animals, but few design strategies are available for functional bioluminescent substrates. We propose a new design strategy (designated as bioluminescent enzyme-induced electron transfer: BioLeT) for luciferin-based bioluminescence probes. Luminescence measurements of a series of aminoluciferin derivatives confirmed that bioluminescence can be controlled by means of BioLeT. Based on this concept, we developed bioluminescence probes for nitric oxide that enabled quantitative and sensitive detection even in vivo. Our design strategy should be applicable to develop a wide range of practically useful bioluminogenic probes.

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New class of bioluminogenic probe based on bioluminescent enzyme-induced electron transfer: BioLeT

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