Rangefinder: A semisynthetic FRET sensor design algorithm
Mitchell J, Whitfield J, Zhang W, Henneberger C, Janovjak HL, O’Mara M, Jackson C. 2016. Rangefinder: A semisynthetic FRET sensor design algorithm. ACS SENSORS. 1(11), 1286–1290.
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Journal Article
| Published
| English
Scopus indexed
Author
Mitchell, Joshua;
Whitfield, Jason;
Zhang, William;
Henneberger, Christian;
Janovjak, Harald LISTA 
;
O'Mara, Megan;
Jackson, Colin
;
O'Mara, Megan;
Jackson, ColinDepartment
Abstract
Optical sensors based on the phenomenon of Förster resonance energy transfer (FRET) are powerful tools that have advanced the study of small molecules in biological systems. However, sensor construction is not trivial and often requires multiple rounds of engineering or an ability to screen large numbers of variants. A method that would allow the accurate rational design of FRET sensors would expedite the production of biologically useful sensors. Here, we present Rangefinder, a computational algorithm that allows rapid in silico screening of dye attachment sites in a ligand-binding protein for the conjugation of a dye molecule to act as a Förster acceptor for a fused fluorescent protein. We present three ratiometric fluorescent sensors designed with Rangefinder, including a maltose sensor with a dynamic range of >300% and the first sensors for the most abundant sialic acid in human cells, N-acetylneuraminic acid. Provided a ligand-binding protein exists, it is our expectation that this model will facilitate the design of an optical sensor for any small molecule of interest.
Publishing Year
Date Published
2016-11-10
Journal Title
ACS SENSORS
Acknowledgement
J.A.M., J.H.W., and W.H.Z. were supported by Australian
Postgraduate Awards (APA), AS Sargeson Supplementary
scholarships, and RSC supplementary scholarships. C.J.J.
acknowledges support from a Human Frontiers in Science
Young Investigator Award and a Discovery Project and Future
Fellowship from the Australian Research Council. M.L.O. is
supported by an Australian Research Council Discovery Project
(DP130102153) and the Merit Allocation Scheme of the
National Computational Infrastructure.
Volume
1
Issue
11
Page
1286 - 1290
IST-REx-ID
Cite this
Mitchell J, Whitfield J, Zhang W, et al. Rangefinder: A semisynthetic FRET sensor design algorithm. ACS SENSORS. 2016;1(11):1286-1290. doi:10.1021/acssensors.6b00576
Mitchell, J., Whitfield, J., Zhang, W., Henneberger, C., Janovjak, H. L., O’Mara, M., & Jackson, C. (2016). Rangefinder: A semisynthetic FRET sensor design algorithm. ACS SENSORS. American Chemical Society. https://doi.org/10.1021/acssensors.6b00576
Mitchell, Joshua, Jason Whitfield, William Zhang, Christian Henneberger, Harald L Janovjak, Megan O’Mara, and Colin Jackson. “Rangefinder: A Semisynthetic FRET Sensor Design Algorithm.” ACS SENSORS. American Chemical Society, 2016. https://doi.org/10.1021/acssensors.6b00576.
J. Mitchell et al., “Rangefinder: A semisynthetic FRET sensor design algorithm,” ACS SENSORS, vol. 1, no. 11. American Chemical Society, pp. 1286–1290, 2016.
Mitchell J, Whitfield J, Zhang W, Henneberger C, Janovjak HL, O’Mara M, Jackson C. 2016. Rangefinder: A semisynthetic FRET sensor design algorithm. ACS SENSORS. 1(11), 1286–1290.
Mitchell, Joshua, et al. “Rangefinder: A Semisynthetic FRET Sensor Design Algorithm.” ACS SENSORS, vol. 1, no. 11, American Chemical Society, 2016, pp. 1286–90, doi:10.1021/acssensors.6b00576.
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