Description
This study was conducted to understand the reactivity of APE1 in repairing abasic sites associated with clustered DNA damages and to determine if the efficiency of APE1 enzyme is affected by the type of bases (purines or pyrimidines) neighboring the AP site. DNA damages are always occurring in living cells and if left uncorrected can lead to various problems such as diseases and even cell death. Cells are able to recognize and correct these DNA damages to prevent further damages to the genome, and the Base Excision Repair (BER) pathway is one of the mechanisms used in repairing DNA damages. A former student in the Levitus Lab, Elana Maria Shepherd Stennett, henceforth referred to as Elana worked on this project. She observed that the activity of the APE1 enzyme increased some when the base opposing the abasic site was changed from thymine (T) to adenine (A) while no difference was observed when the surrounding bases were changed. Thus, this experiment was conducted to further study the results she obtained and to possibly validate her findings. The AP sites used in this study are natural abasic sites created by UDG glycosylase enzyme from a double stranded uracil-containing DNA samples ordered from IDT technologies. Each reaction was carried out at physiological temperature (37degrees Celsius) and analyzed using polyacrylamide gel electrophoresis.
Details
Title
- Exploration of Enzymatic Reactivity of Human Endonuclease Enzyme APE1 in Clustered DNA Damages Involving an Abasic Site
Contributors
- Onyeabor, Moses Ekenedilichukwu (Author)
- Levitus, Marcia (Thesis director)
- Van Horn, Wade (Committee member)
- School of Life Sciences (Contributor)
- School of Molecular Sciences (Contributor)
- Barrett, The Honors College (Contributor)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2018-05
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