Dual temperature-and pH-responsive fluorescence molecular probe for cellular imaging utilizing a PNIPAAm-fluorescein copolymer

Hiroki Kobayashi; Mayumi Nishikawa; Chikako Sakamoto; Tadashi Nishio; Hideko Kanazawa; Teruo Okano

doi:10.2116/analsci.25.1043

Dual temperature-and pH-responsive fluorescence molecular probe for cellular imaging utilizing a PNIPAAm-fluorescein copolymer

Hiroki Kobayashi, Mayumi Nishikawa, Chikako Sakamoto, Tadashi Nishio, Hideko Kanazawa, Teruo Okano

Research output: Contribution to journal › Article › peer-review

19 Citations (Scopus)

Abstract

The thermally controlling fluorescence intensity of a molecular probe for cellular imaging has been investigated. A reversible temperature-induced phase transition of N-isopropylacrylamide/fluorescein copolymers [poly(NIPAAm-co-FL)] was used as a molecular switch to control the fluorescence intensity of the imaging probe. The copolymer displayed environmentally sensitive fluorescence properties, in which the fluorescence intensity changed with the response to both the temperature and the pH. Utilizing these features, we monitored the thermal-aggregation process of BSA by the fluorescence resonance energy transfer (FRET) method. Additionally, the cellular uptake in RAW264.7 cells of poly(NIPAAm-co-FL) conjugated with lipid was studied using a confocal laser scanning microscope. 2009

Original language	English
Pages (from-to)	1043-1047
Number of pages	5
Journal	analytical sciences
Volume	25
Issue number	8
DOIs	https://doi.org/10.2116/analsci.25.1043
Publication status	Published - 2009 Aug
Externally published	Yes

ASJC Scopus subject areas

Analytical Chemistry

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abstract = "The thermally controlling fluorescence intensity of a molecular probe for cellular imaging has been investigated. A reversible temperature-induced phase transition of N-isopropylacrylamide/fluorescein copolymers [poly(NIPAAm-co-FL)] was used as a molecular switch to control the fluorescence intensity of the imaging probe. The copolymer displayed environmentally sensitive fluorescence properties, in which the fluorescence intensity changed with the response to both the temperature and the pH. Utilizing these features, we monitored the thermal-aggregation process of BSA by the fluorescence resonance energy transfer (FRET) method. Additionally, the cellular uptake in RAW264.7 cells of poly(NIPAAm-co-FL) conjugated with lipid was studied using a confocal laser scanning microscope. 2009",

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T1 - Dual temperature-and pH-responsive fluorescence molecular probe for cellular imaging utilizing a PNIPAAm-fluorescein copolymer

AU - Kobayashi, Hiroki

AU - Nishikawa, Mayumi

AU - Sakamoto, Chikako

AU - Nishio, Tadashi

AU - Kanazawa, Hideko

AU - Okano, Teruo

PY - 2009/8

Y1 - 2009/8

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AB - The thermally controlling fluorescence intensity of a molecular probe for cellular imaging has been investigated. A reversible temperature-induced phase transition of N-isopropylacrylamide/fluorescein copolymers [poly(NIPAAm-co-FL)] was used as a molecular switch to control the fluorescence intensity of the imaging probe. The copolymer displayed environmentally sensitive fluorescence properties, in which the fluorescence intensity changed with the response to both the temperature and the pH. Utilizing these features, we monitored the thermal-aggregation process of BSA by the fluorescence resonance energy transfer (FRET) method. Additionally, the cellular uptake in RAW264.7 cells of poly(NIPAAm-co-FL) conjugated with lipid was studied using a confocal laser scanning microscope. 2009

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Dual temperature-and pH-responsive fluorescence molecular probe for cellular imaging utilizing a PNIPAAm-fluorescein copolymer

Abstract

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