Polymer conjugation of proteins as a synthetic post-translational modification to impact their stability and activity

Thaiesha A. Wright; Richard C. Page; Dominik Konkolewicz

doi:10.1039/c8py01399c

journal article Jan 01, 2019

Polymer conjugation of proteins as a synthetic post-translational modification to impact their stability and activity

Thaiesha A. Wright Richard C. Page

Dominik Konkolewicz

Polymer Chemistry Vol. 10 No. 4 pp. 434-454 · Royal Society of Chemistry (RSC)

View at Publisher Save 10.1039/c8py01399c

Abstract

This review article discusses the impact of polymer modification on bioconjugate performance, including both activity and stability, with a focus on how the polymer structure and functionality impact these parameters.

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Metrics

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Citations

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References

Details

Published: Jan 01, 2019
Vol/Issue: 10(4)
Pages: 434-454
License: View

Authors

T

Thaiesha A. Wright

Department of Chemistry and Biochemistry; Miami University; Oxford; USA

R

Richard C. Page

Department of Chemistry and Biochemistry; Miami University; Oxford; USA

D

Dominik Konkolewicz

Department of Chemistry and Biochemistry; Miami University; Oxford; USA

Funding

National Institute of General Medical Sciences Award: GM128595

Division of Materials Research Award: 1749730

Cite This Article

Thaiesha A. Wright, Richard C. Page, Dominik Konkolewicz (2019). Polymer conjugation of proteins as a synthetic post-translational modification to impact their stability and activity. Polymer Chemistry, 10(4), 434-454. https://doi.org/10.1039/c8py01399c

Polymer conjugation of proteins as a synthetic post-translational modification to impact their stability and activity

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