ABSTRACT
BACKGROUND AND OBJECTIVES: Pfu DNA polymerase is an enzyme that exhibits the lowest error rate in the 3' to 5' exonuclease (proofreading) activity during DNA synthesis in Polymerase Chain Reactions (PCRs). This study was aimed to express and purify Pfu DNA polymerase in a bacterial expression system under a simple purification method. MATERIALS AND METHODS: Pfu polymerase gene sequence, derived from Pyrocuccus furiosus (Pfu) genomic DNA, was cloned and overexpressed in E. coli BL21 (DE3) pLysS. Upon overexpression, bacterial lysate containing the Pfu DNA polymerase was heated at 94°C for 5 minutes. Pfu DNA polymerase having high thermal stability was retained while the other bacterial proteins were denatured. The resulting thermo stable Pfu DNA polymerase was separated from the other debris of the denatured proteins by simple centrifugation. RESULTS: The enzymatic activity of the resulting Pfu DNA polymerase was estimated by comparing with the commercial Pfu DNA Polymerases. An estimated 50000 units of functional Pfu DNA polymerase was produced from a 400 ml culture. CONCLUSION: The in-house produced Pfu DNA Polymerase could be used for routine amplification that requires high-fidelity such as cloning and DNA sequencing.
ABSTRACT
Background: Traditionally, the most common diagnostic approach used for diagnosing leptospirosis was the demonstration of immune-seroconversion in acute and convalescent patient serum samples. Recently, a variety of molecular techniques, including conventional and real-time polymerase chain reaction (PCR), have been developed for the specific detection of pathogenic bacteria from the genus Leptospira. PCR is a sensitive, specific, and rapid technique that has been successfully used to detect several microorganisms; including those of clinical significance. Methods: In this study, we developed a multiplex PCR (mPCR) assay for detecting Leptospira’s DNA. The mPCR assay detects both the 16S rRNA gene and the major outer membrane lipoprotein gene, which is known as LipL32. Representative serovars were tested from 10 species of Leptospira and 23 other species of bacteria. Results: A positive result was obtained from all leptospiral serovars. The amplification sensitivity for the multiplex assay was 21.8 pg and 1 x 103 leptospires/ml. This mPCR assay has the potential to facilitate a rapid and sensitive diagnosis for acute leptospirosis. Conclusion: The mPCR assay developed in this study can be used for the early detection of leptospirosis. The LipL32 gene could also serve as another target to aid in the efficient detection of leptospiral infection because using 2 sets of primers in mPCR increases the sensitivity and specificity of the test.
