Design of a methotrexate-controlled chemical dimerization system and its use in bio-electronic devices
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104840859. Available under License Creative Commons Attribution 4.0. |
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Description
Natural evolution produced polypeptides that selectively recognize chemical entities and their polymers, ranging from ions to proteins and nucleic acids. Such selective interactions serve as entry points to biological signaling and metabolic pathways. The ability to engineer artificial versions of such entry points is a key goal of synthetic biology, bioengineering and bioelectronics. We set out to map the optimal strategy for developing artificial small molecule:protein complexes that function as chemically induced dimerization (CID) systems. Using several starting points, we evolved CID systems controlled by a therapeutic drug methotrexate. Biophysical and structural analysis of methotrexate-controlled CID system reveals the critical role played by drug-induced conformational change in ligand-controlled protein complex assembly. We demonstrate utility of the developed CID by constructing electrochemical biosensors of methotrexate that enable quantification of methotrexate in human serum. Furthermore, using the methotrexate and functionally related biosensor of rapamycin we developed a multiplexed bioelectronic system that can perform repeated measurements of multiple analytes. The presented results open the door for construction of genetically encoded signaling systems for use in bioelectronics and diagnostics, as well as metabolic and signaling network engineering.
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| ID Code: | 227523 | ||||||
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| Item Type: | Contribution to Journal (Journal Article) | ||||||
| Refereed: | Yes | ||||||
| ORCID iD: |
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| Additional Information: | Funding Information: We thank Dr. Carel Pretorius from Pathology Queensland for carrying out quantification of biomarkers in human samples for this study. Authors are thankful to Brett Collins for his help with the MST experiments. We would also like to thank the Melbourne Mass Spectrometry and Proteomics Facility of The Bio21 Molecular Science and Biotechnology Institute at the University of Melbourne for the support of mass spectrometry analysis. We thank the Australian Synchrotron for beamtime and the beamline scientists for their help with data collection. This work was supported in part by the Australian Research Council Discovery Projects DP160100973, DP150100936 as well as ARC Centre of Excellence in Synthetic Biology CE200100029 to K.A. The work was also supported by NHMRC Development grants APP1113262 to K.A. and APP1179001 to K.A. and J.P.J.U. This work was also in part supported by HFSP grant RGP0002/2018 to K.A. and E.K. and US Department of Defense grant W81XWH-20-1-0708 to K.A., E.K., and A.M. K.A. gratefully acknowledges financial support of CSIRO-QUT Synthetic Biology Alliance and QUT Industry Engagement Fund. | ||||||
| Measurements or Duration: | 13 pages | ||||||
| DOI: | 10.1038/s41467-021-27184-w | ||||||
| ISSN: | 2041-1723 | ||||||
| Pure ID: | 104840859 | ||||||
| Divisions: | Current > Research Centres > Centre for Agriculture and the Bioeconomy Current > QUT Faculties and Divisions > Faculty of Science Current > Schools > School of Biology & Environmental Science |
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| Funding Information: | We thank Dr. Carel Pretorius from Pathology Queensland for carrying out quantification of biomarkers in human samples for this study. Authors are thankful to Brett Collins for his help with the MST experiments. We would also like to thank the Melbourne Mass Spectrometry and Proteomics Facility of The Bio21 Molecular Science and Biotechnology Institute at the University of Melbourne for the support of mass spectrometry analysis. We thank the Australian Synchrotron for beamtime and the beamline scientists for their help with data collection. This work was supported in part by the Australian Research Council Discovery Projects DP160100973, DP150100936 as well as ARC Centre of Excellence in Synthetic Biology CE200100029 to K.A. The work was also supported by NHMRC Development grants APP1113262 to K.A. and APP1179001 to K.A. and J.P.J.U. This work was also in part supported by HFSP grant RGP0002/2018 to K.A. and E.K. and US Department of Defense grant W81XWH-20-1-0708 to K.A., E.K., and A.M. K.A. gratefully acknowledges financial support of CSIRO-QUT Synthetic Biology Alliance and QUT Industry Engagement Fund. | ||||||
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| Copyright Owner: | 2021 The Author(s) | ||||||
| Copyright Statement: | This work is covered by copyright. Unless the document is being made available under a Creative Commons Licence, you must assume that re-use is limited to personal use and that permission from the copyright owner must be obtained for all other uses. If the document is available under a Creative Commons License (or other specified license) then refer to the Licence for details of permitted re-use. It is a condition of access that users recognise and abide by the legal requirements associated with these rights. If you believe that this work infringes copyright please provide details by email to qut.copyright@qut.edu.au | ||||||
| Deposited On: | 20 Jan 2022 07:09 | ||||||
| Last Modified: | 09 Jun 2024 20:47 |
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