Rational Design of a GFP-Based Fluorogenic Caspase Reporter for Imaging Apoptosis In Vivo

Tsz Leung To; Antonino Schepis; Ruben Ruiz Gonzalez; Qiang Zhang; Dan Yu; Zhiqiang Dong; Shaun R. Coughlin; Xiaokun Shu

doi:10.1016/j.chembiol.2016.06.007

Rational Design of a GFP-Based Fluorogenic Caspase Reporter for Imaging Apoptosis In Vivo

Títol traduït de la contribució: Rational Design of a GFP-Based Fluorogenic Caspase Reporter for Imaging Apoptosis In Vivo

Tsz Leung To, Antonino Schepis, Ruben Ruiz Gonzalez, Qiang Zhang, Dan Yu, Zhiqiang Dong, Shaun R. Coughlin, Xiaokun Shu

IQS School of Engineering

Producció científica: Article en revista indexada › Article › Avaluat per experts

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Fluorescence resonance energy transfer-based executioner caspase reporters using GFP are important tools for imaging apoptosis. While these reporters are useful for imaging apoptosis in cultured cells, their in vivo application has been handicapped by poor signal to noise. Here, we report the design and characterization of a GFP-based fluorogenic protease reporter, dubbed ZipGFP. ZipGFP-based TEV protease reporter increased fluorescence 10-fold after activation by protease. A ZipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. Thus, the ZipGFP-based caspase reporter may be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond the executioner caspases.

Títol traduït de la contribució	Rational Design of a GFP-Based Fluorogenic Caspase Reporter for Imaging Apoptosis In Vivo
Idioma original	Anglès
Pàgines (de-a)	875-882
Nombre de pàgines	7
Revista	Cell Chemical Biology
Volum	23
Número	7
DOIs	https://doi.org/10.1016/j.chembiol.2016.06.007
Estat de la publicació	Publicada - 21 de jul. 2016

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10.1016/j.chembiol.2016.06.007

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title = "Rational Design of a GFP-Based Fluorogenic Caspase Reporter for Imaging Apoptosis In Vivo",

abstract = "Fluorescence resonance energy transfer-based executioner caspase reporters using GFP are important tools for imaging apoptosis. While these reporters are useful for imaging apoptosis in cultured cells, their in vivo application has been handicapped by poor signal to noise. Here, we report the design and characterization of a GFP-based fluorogenic protease reporter, dubbed ZipGFP. ZipGFP-based TEV protease reporter increased fluorescence 10-fold after activation by protease. A ZipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. Thus, the ZipGFP-based caspase reporter may be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond the executioner caspases.",

author = "To, {Tsz Leung} and Antonino Schepis and {Ruiz Gonzalez}, Ruben and Qiang Zhang and Dan Yu and Zhiqiang Dong and Coughlin, {Shaun R.} and Xiaokun Shu",

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doi = "10.1016/j.chembiol.2016.06.007",

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AU - To, Tsz Leung

AU - Schepis, Antonino

AU - Ruiz Gonzalez, Ruben

AU - Zhang, Qiang

AU - Yu, Dan

AU - Dong, Zhiqiang

AU - Coughlin, Shaun R.

AU - Shu, Xiaokun

PY - 2016/7/21

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AB - Fluorescence resonance energy transfer-based executioner caspase reporters using GFP are important tools for imaging apoptosis. While these reporters are useful for imaging apoptosis in cultured cells, their in vivo application has been handicapped by poor signal to noise. Here, we report the design and characterization of a GFP-based fluorogenic protease reporter, dubbed ZipGFP. ZipGFP-based TEV protease reporter increased fluorescence 10-fold after activation by protease. A ZipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. Thus, the ZipGFP-based caspase reporter may be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond the executioner caspases.

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Rational Design of a GFP-Based Fluorogenic Caspase Reporter for Imaging Apoptosis In Vivo

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