ASU Electronic Theses and Dissertations
- 2 English
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In vitro selection technologies allow for the identification of novel biomolecules endowed with desired functions. Successful selection methodologies share the same fundamental requirements. First, they must establish a strong link between the enzymatic function being selected (phenotype) and the genetic information responsible for the function (genotype). Second, they must enable partitioning of active from inactive variants, often capturing only a small number of positive hits from a large population of variants. These principles have been applied to the selection of natural, modified, and even unnatural nucleic acids, peptides, and proteins. The ability to select for and characterize new functional molecules …
- Larsen, Andrew, Chaput, John C, Jacobs, Bertram L, et al.
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Advances in chemical synthesis have enabled new lines of research with unnatural genetic polymers whose modified bases or sugar-phosphate backbones have potential therapeutic and biotechnological applications. Maximizing the potential of these synthetic genetic systems requires inventing new molecular biology tools that can both generate and faithfully replicate unnatural polymers of significant length. Threose nucleic acid (TNA) has received significant attention as a complete replication system has been developed by engineering natural polymerases to broaden their substrate specificity. The system, however, suffers from a high mutational load reducing its utility. This thesis will cover the development of two new polymerases capable …
- Dunn, Matthew Ryan, Chaput, John C, LaBaer, Joshua, et al.
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