Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter

Dan M. Close; Tingting Xu; Abby E. Smartt; Pat Jegier; Steven A. Ripp; Gary S. Sayler

doi:10.1117/12.883289

Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter

Dan M. Close, Tingting Xu, Abby E. Smartt, Pat Jegier, Steven A. Ripp, Gary S. Sayler

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

Bioluminescent production represents a facile method for bioreporter detection in mammalian tissues. The lack of endogenous bioluminescent reactions in these tissues allows for high signal to noise ratios even at low signal strength compared to fluorescent signal detection. While the luciferase enzymes commonly employed for bioluminescent detection are those from class Insecta (firefly and click beetle luciferases), these are handicapped in that they require concurrent administration of a luciferin compound to elicit a bioluminescent signal. The bacterial luciferase (lux) gene cassette offers the advantages common to other bioluminescent proteins, but is simultaneously capable of synthesizing its own luciferin substrates using endogenously available cellular compounds. The longstanding shortcoming of the lux cassette has been its recalcitrance to function in the mammalian cellular environment. This paper will present an overview of the work completed to date to overcome this limitation and provide examples of mammalian lux-based bioreporter technologies that could provide the framework for advanced, biomedically relevant real-time sensor development.

Original language	English
Title of host publication	Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII
DOIs	https://doi.org/10.1117/12.883289
State	Published - 2011
Externally published	Yes
Event	Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII - Orlando, FL, United States Duration: Apr 25 2011 → Apr 27 2011

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	8029
ISSN (Print)	0277-786X

Conference

Conference	Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII
Country/Territory	United States
City	Orlando, FL
Period	04/25/11 → 04/27/11

Keywords

bacterial lucfierase
biosensor
lux
optical imaging

Access to Document

10.1117/12.883289

Cite this

Close, D. M., Xu, T., Smartt, A. E., Jegier, P., Ripp, S. A., & Sayler, G. S. (2011). Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter. In Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII Article 80290F (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 8029). https://doi.org/10.1117/12.883289

Close, Dan M. ; Xu, Tingting ; Smartt, Abby E. et al. / Light without substrate amendment : The bacterial luciferase gene cassette as a mammalian bioreporter. Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII. 2011. (Proceedings of SPIE - The International Society for Optical Engineering).

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title = "Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter",

abstract = "Bioluminescent production represents a facile method for bioreporter detection in mammalian tissues. The lack of endogenous bioluminescent reactions in these tissues allows for high signal to noise ratios even at low signal strength compared to fluorescent signal detection. While the luciferase enzymes commonly employed for bioluminescent detection are those from class Insecta (firefly and click beetle luciferases), these are handicapped in that they require concurrent administration of a luciferin compound to elicit a bioluminescent signal. The bacterial luciferase (lux) gene cassette offers the advantages common to other bioluminescent proteins, but is simultaneously capable of synthesizing its own luciferin substrates using endogenously available cellular compounds. The longstanding shortcoming of the lux cassette has been its recalcitrance to function in the mammalian cellular environment. This paper will present an overview of the work completed to date to overcome this limitation and provide examples of mammalian lux-based bioreporter technologies that could provide the framework for advanced, biomedically relevant real-time sensor development.",

keywords = "bacterial lucfierase, biosensor, lux, optical imaging",

author = "Close, {Dan M.} and Tingting Xu and Smartt, {Abby E.} and Pat Jegier and Ripp, {Steven A.} and Sayler, {Gary S.}",

year = "2011",

doi = "10.1117/12.883289",

language = "English",

isbn = "9780819486035",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

booktitle = "Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII",

note = "Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII ; Conference date: 25-04-2011 Through 27-04-2011",

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Close, DM, Xu, T, Smartt, AE, Jegier, P, Ripp, SA & Sayler, GS 2011, Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter. in Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII., 80290F, Proceedings of SPIE - The International Society for Optical Engineering, vol. 8029, Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII, Orlando, FL, United States, 04/25/11. https://doi.org/10.1117/12.883289

Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter. / Close, Dan M.; Xu, Tingting; Smartt, Abby E. et al.
Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII. 2011. 80290F (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 8029).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Jegier, Pat

AU - Ripp, Steven A.

AU - Sayler, Gary S.

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N2 - Bioluminescent production represents a facile method for bioreporter detection in mammalian tissues. The lack of endogenous bioluminescent reactions in these tissues allows for high signal to noise ratios even at low signal strength compared to fluorescent signal detection. While the luciferase enzymes commonly employed for bioluminescent detection are those from class Insecta (firefly and click beetle luciferases), these are handicapped in that they require concurrent administration of a luciferin compound to elicit a bioluminescent signal. The bacterial luciferase (lux) gene cassette offers the advantages common to other bioluminescent proteins, but is simultaneously capable of synthesizing its own luciferin substrates using endogenously available cellular compounds. The longstanding shortcoming of the lux cassette has been its recalcitrance to function in the mammalian cellular environment. This paper will present an overview of the work completed to date to overcome this limitation and provide examples of mammalian lux-based bioreporter technologies that could provide the framework for advanced, biomedically relevant real-time sensor development.

AB - Bioluminescent production represents a facile method for bioreporter detection in mammalian tissues. The lack of endogenous bioluminescent reactions in these tissues allows for high signal to noise ratios even at low signal strength compared to fluorescent signal detection. While the luciferase enzymes commonly employed for bioluminescent detection are those from class Insecta (firefly and click beetle luciferases), these are handicapped in that they require concurrent administration of a luciferin compound to elicit a bioluminescent signal. The bacterial luciferase (lux) gene cassette offers the advantages common to other bioluminescent proteins, but is simultaneously capable of synthesizing its own luciferin substrates using endogenously available cellular compounds. The longstanding shortcoming of the lux cassette has been its recalcitrance to function in the mammalian cellular environment. This paper will present an overview of the work completed to date to overcome this limitation and provide examples of mammalian lux-based bioreporter technologies that could provide the framework for advanced, biomedically relevant real-time sensor development.

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Close DM, Xu T, Smartt AE, Jegier P, Ripp SA, Sayler GS. Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter. In Sensing Technologies for Global Health, Military Medicine, Disaster Response, and Environmental Monitoring; and Biometric Technology for Human Identification VIII. 2011. 80290F. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.883289

Light without substrate amendment: The bacterial luciferase gene cassette as a mammalian bioreporter

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