Structure- and mechanism-guided design of single fluorescent protein-based biosensors

doi:10.1038/s41589-020-00718-x

Review

. 2021 May;17(5):509-518.

doi: 10.1038/s41589-020-00718-x. Epub 2021 Feb 8.

Structure- and mechanism-guided design of single fluorescent protein-based biosensors

Yusuke Nasu^#¹, Yi Shen^#², Luke Kramer¹, Robert E Campbell^{3

4}

Affiliations

¹ Department of Chemistry, Graduate School of Science, The University of Tokyo, Tokyo, Japan.
² Department of Chemistry, University of Alberta, Edmonton, Alberta, Canada.
³ Department of Chemistry, Graduate School of Science, The University of Tokyo, Tokyo, Japan. campbell@chem.s.u-tokyo.ac.jp.
⁴ Department of Chemistry, University of Alberta, Edmonton, Alberta, Canada. campbell@chem.s.u-tokyo.ac.jp.

^# Contributed equally.

PMID: 33558715
DOI: 10.1038/s41589-020-00718-x

Review

Structure- and mechanism-guided design of single fluorescent protein-based biosensors

Yusuke Nasu et al. Nat Chem Biol. 2021 May.

. 2021 May;17(5):509-518.

doi: 10.1038/s41589-020-00718-x. Epub 2021 Feb 8.

Authors

Yusuke Nasu^#¹, Yi Shen^#², Luke Kramer¹, Robert E Campbell^{3

4}

Affiliations

¹ Department of Chemistry, Graduate School of Science, The University of Tokyo, Tokyo, Japan.
² Department of Chemistry, University of Alberta, Edmonton, Alberta, Canada.
³ Department of Chemistry, Graduate School of Science, The University of Tokyo, Tokyo, Japan. campbell@chem.s.u-tokyo.ac.jp.
⁴ Department of Chemistry, University of Alberta, Edmonton, Alberta, Canada. campbell@chem.s.u-tokyo.ac.jp.

^# Contributed equally.

PMID: 33558715
DOI: 10.1038/s41589-020-00718-x

Abstract

Intensiometric genetically encoded biosensors, based on allosteric modulation of the fluorescence of a single fluorescent protein, are powerful tools for enabling imaging of neural activities and other cellular biochemical events. The archetypical example of such biosensors is the GCaMP series of Ca²⁺ biosensors, which have been steadily improved over the past two decades and are now indispensable tools for neuroscience. However, no other biosensors have reached levels of performance, or had revolutionary impacts within specific disciplines, comparable to that of the Ca²⁺ biosensors. Of the many reasons why this has been the case, a critical one has been a general black-box view of biosensor structure and mechanism. With this Perspective, we aim to summarize what is known about biosensor structure and mechanisms and, based on this foundation, provide guidelines to accelerate the development of a broader range of biosensors with performance comparable to that of the GCaMP series.

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References

1. Greenwald, E. C., Mehta, S. & Zhang, J. Genetically encoded fluorescent biosensors illuminate the spatiotemporal regulation of signaling networks. Chem. Rev. 118, 11707–11794 (2018). - PubMed - PMC - DOI
1. Lavis, L. D. Teaching old dyes new tricks: biological probes built from fluoresceins and rhodamines. Annu. Rev. Biochem. 86, 825–843 (2017). - PubMed - DOI
1. Smith, B. R. & Gambhir, S. S. Nanomaterials for in vivo imaging. Chem. Rev. 117, 901–986 (2017). - PubMed - DOI
1. Miyawaki, A. et al. Fluorescent indicators for Ca²⁺ based on green fluorescent proteins and calmodulin. Nature 388, 882–887 (1997). - PubMed - DOI
1. Baird, G. S., Zacharias, D. A. & Tsien, R. Y. Circular permutation and receptor insertion within green fluorescent proteins. Proc. Natl Acad. Sci. USA 96, 11241–11246 (1999). This landmark paper describes the discovery of the GFP insertion site adjacent to residue 145, describes the first examples of single FP-based biosensors (Ca²⁺ and Zn²⁺) and summarizes the various possible topologies for single FP-based indicators. - PubMed - DOI - PMC

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[1] Greenwald, E. C., Mehta, S. & Zhang, J. Genetically encoded fluorescent biosensors illuminate the spatiotemporal regulation of signaling networks. Chem. Rev. 118, 11707–11794 (2018). - PubMed - PMC - DOI

[2] Greenwald, E. C., Mehta, S. & Zhang, J. Genetically encoded fluorescent biosensors illuminate the spatiotemporal regulation of signaling networks. Chem. Rev. 118, 11707–11794 (2018). - PubMed - PMC - DOI

[3] Lavis, L. D. Teaching old dyes new tricks: biological probes built from fluoresceins and rhodamines. Annu. Rev. Biochem. 86, 825–843 (2017). - PubMed - DOI

[4] Lavis, L. D. Teaching old dyes new tricks: biological probes built from fluoresceins and rhodamines. Annu. Rev. Biochem. 86, 825–843 (2017). - PubMed - DOI

[5] Smith, B. R. & Gambhir, S. S. Nanomaterials for in vivo imaging. Chem. Rev. 117, 901–986 (2017). - PubMed - DOI

[6] Smith, B. R. & Gambhir, S. S. Nanomaterials for in vivo imaging. Chem. Rev. 117, 901–986 (2017). - PubMed - DOI

[7] Miyawaki, A. et al. Fluorescent indicators for Ca²⁺ based on green fluorescent proteins and calmodulin. Nature 388, 882–887 (1997). - PubMed - DOI

[8] Miyawaki, A. et al. Fluorescent indicators for Ca²⁺ based on green fluorescent proteins and calmodulin. Nature 388, 882–887 (1997). - PubMed - DOI

[9] Baird, G. S., Zacharias, D. A. & Tsien, R. Y. Circular permutation and receptor insertion within green fluorescent proteins. Proc. Natl Acad. Sci. USA 96, 11241–11246 (1999). This landmark paper describes the discovery of the GFP insertion site adjacent to residue 145, describes the first examples of single FP-based biosensors (Ca²⁺ and Zn²⁺) and summarizes the various possible topologies for single FP-based indicators. - PubMed - DOI - PMC

[10] Baird, G. S., Zacharias, D. A. & Tsien, R. Y. Circular permutation and receptor insertion within green fluorescent proteins. Proc. Natl Acad. Sci. USA 96, 11241–11246 (1999). This landmark paper describes the discovery of the GFP insertion site adjacent to residue 145, describes the first examples of single FP-based biosensors (Ca²⁺ and Zn²⁺) and summarizes the various possible topologies for single FP-based indicators. - PubMed - DOI - PMC

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Structure- and mechanism-guided design of single fluorescent protein-based biosensors

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Structure- and mechanism-guided design of single fluorescent protein-based biosensors

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