Expanding Chemical and Structural Space in mRNA Display

MINGLONG LIU

doi:10.33540/788

Expanding Chemical and Structural Space in mRNA Display

MINGLONG LIU

Research output: Thesis › Doctoral thesis 1 (Research UU / Graduation UU)

Abstract

In vitro translation provides a useful toolbox for the chemical biologist because of its multiple applications, such as protein/peptide synthesis, protein folding studies and rapid identification of genes. By reprogramming the genetic code within this system we can incorporate nonstandard amino acids to further expand the applications, such as site-specific labelling of proteins, mRNA display with an expanded chemical space and to provide handles for biorthogonal reactions on proteins/peptides. This thesis outlines the steps involved in bacterial translation, how this can be used to pan libraries of peptides at ultra-high numerical diversity, how genetic code expansion can be used to extend the chemical diversity within these, and some of the opportunities for even further modification provided by bio-orthogonal reactions.

Original language	English
Qualification	Doctor of Philosophy
Awarding Institution	Utrecht University
Supervisors/Advisors	Boons, Geert-Jan, Primary supervisor Jongkees, Seino, Co-supervisor
Award date	20 Sept 2021
Place of Publication	Utrecht
Publisher	Utrecht University
DOIs	https://doi.org/10.33540/788
Publication status	Published - 20 Sept 2021

Keywords

mRNA display
bacterial translation
biorthogonal reactions
genetic code expansion
genetic code reprogramming

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Expanding Chemical and Structural Space in mRNA DisplayFinal published version, 6.94 MB

https://dspace.library.uu.nl/handle/1874/402940

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title = "Expanding Chemical and Structural Space in mRNA Display",

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AB - In vitro translation provides a useful toolbox for the chemical biologist because of its multiple applications, such as protein/peptide synthesis, protein folding studies and rapid identification of genes. By reprogramming the genetic code within this system we can incorporate nonstandard amino acids to further expand the applications, such as site-specific labelling of proteins, mRNA display with an expanded chemical space and to provide handles for biorthogonal reactions on proteins/peptides. This thesis outlines the steps involved in bacterial translation, how this can be used to pan libraries of peptides at ultra-high numerical diversity, how genetic code expansion can be used to extend the chemical diversity within these, and some of the opportunities for even further modification provided by bio-orthogonal reactions.

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KW - genetic code reprogramming

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ER -

Expanding Chemical and Structural Space in mRNA Display

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Keywords

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