Designated primers targeted canine TP53 gene hotspot regions.
Fatimah Abdulmuttaleb Ali, Aoula Al-Zebeeby
Abstract
Open AccessBackground: Tumor protein 53 gene (TP53) is a critical factor that controls different cell activities such as cell cycle, DNA repair mechanism, autophagy, apoptosis, and metabolism. The TP53 gene is the most commonly mutated gene, especially in the 4-8 exons region. This mutation enhances the development of many abnormalities, such as the initiation of different types of cancer. Aim: The main objective of this study was to design and evaluate the efficacy of three different primer sets that targeted the TP53 gene at the hotspot regions. Methods: To do that, twelve blood samples were collected from dogs belonging to the German Shepherd breed/K9 aged between 8-12 years. Then, the DNA extraction and polymerase chain reaction (PCR) took place by using the three primer sets, which were designed using SnapGene. The primer sets, namely, first primer, the second and the third targeted exons 5-9 located in the canine TP53 gene. In the following step, all the PCR products were sent for Sanger sequencing and then phylogenetic analysis. Results: Our findings indicated that the first primer set consistently showed higher amplification signal efficiency and reduced dimer formation compared with the second and third primer sets, respectively, with a 60ºC annealing temperature. In addition, all the sequenced samples aligned with the reference canine TP53 gene in the phylogenetic tree. Conclusion: This study offered the best TP53 primer design that targeted the hotspot regions of the canine TP53 gene for researchers who are interested in targeting such regions in this gene.