Synthesis of 2’ Modified Primers to Characterize Extension Events by Mutant Taq DNA Polymerases

• Main Author: Jackson, Constanza
• Format: Others
• Published: Scholarship @ Claremont 2015
• Subjects: Directed evolution; Taq DNA polymerase; Modified primers; Biochemistry; Biotechnology; Integrative Biology
• Online Access: http://scholarship.claremont.edu/scripps_theses/592; http://scholarship.claremont.edu/cgi/viewcontent.cgi?article=1544&context=scripps_theses

Oligonucleotides enable many biotechnological applications; however they are easily degraded by nucleases. Many nucleotides modified at the 2’ position are degraded at decreased rates which improves oligonucleotide utility. Most applications of oligonucleotides rely on enzymatic synthesis. Unfortunately, native DNA polymerases do not recognize most useful modified nucleotide substrates. Directed evolution has been used to identify mutants of Taq DNA polymerase I (Taq) that recognize substrates with 2’ modifications. While mutant enzymes capable of modified nucleotide addition have been identified, to date, all of these enzymes are limited by their inability to synthesize full length modified DNA. Despite considerable efforts to evolve new activity there has been little work done to quantitatively characterize these evolved enzymes. This thesis work presents efforts to synthesize modified primers that will help comparatively and quantitatively characterize three enzymes previously evolved to recognize 2’ modified substrates. Using the methods developed in this thesis project, our lab will be able to characterize the relationship between the number of modified nucleotides in the primer terminus and the rate of modified and unmodified nucleotide addition. Future work will identify key enzymatic steps that limit extension in these enzymes with implications for the future design of Taq mutants capable of synthesizing long 2’ modified oligonucleotides.