Abstract
The large fragment of DNA polymerase I from Geobacillus stearothermophilus GIM1.543 (Bst DNA polymerase) with 5′-3′ DNA polymerase activity while in absence of 5′-3′ exonuclease activity possesses high thermal stability and polymerase activity. Bst DNA polymerase was employed in isothermal multiple self-matching initiated amplification (IMSA) which amplified the interest sequence with high selectivity and was widely applied in the rapid detection of human epidemic diseases. However, the detailed information of commercial Bst DNA polymerase is unpublished and well protected by patents, which makes the high price of commercial kits. In this study, wild-type Bst DNA polymerase (WT) and substitution mutations for improving the efficiency of DNA polymerization were expressed and purified in E. coli. Site-directed substitutions of four conserved residues (Gly310, Arg412, Lys416, and Asp540) in the activity site of Bst DNA polymerase influenced efficiency of polymerizing dNTPs. The substitution of residue Gly310 by alanine or leucine and residue Asp540 by glutamic acid increased the efficiency of polymerase activity. All mutants with higher polymerizing efficiency were employed to complete the rapid detection of EV71-associated hand, foot, and mouth disease (HFMD) by IMSA approach with relatively shorter period which is suitable for the primary diagnostics setting in rural and underdeveloped areas.
Highlights
Nucleic acid amplification techniques are widely used in diagnosis of infectious diseases, genetic traits, and other clinical medics in application-oriented fields
Notomi et al developed a rapid detection of nucleic acid bases, loopmediated isothermal amplification (LAMP), which with high sensitivity and specificity successfully accomplished the amplification of the target DNA sequence at constant temperature in water bath for one hour neglecting normal threetemperature cycles [1, 2]
Bands corresponding to 1758 bp wild-type Bst DNA polymerase (WT) of Bst DNA pol large fragment (LF) and 10 genes of site-directed mutants were detected on 1.5% (w/v) agarose gel by colony PCR of recombinant plasmids (Figure 1), demonstrating that WT of Bst DNA pol LF and mutant genes were successfully inserted into pET21a vectors, respectively
Summary
Nucleic acid amplification techniques are widely used in diagnosis of infectious diseases, genetic traits, and other clinical medics in application-oriented fields. Notomi et al developed a rapid detection of nucleic acid bases, loopmediated isothermal amplification (LAMP), which with high sensitivity and specificity successfully accomplished the amplification of the target DNA sequence at constant temperature in water bath for one hour neglecting normal threetemperature cycles [1, 2]. LAMP technique has been widely used in the virus detection for infectious diseases, such as avian influenza [3], HFMD [4], Dengue Virus [5], the human immunodeficiency virus [6], and Ebola virus [7]. In order to make quantitative analysis accurately, the IMSA assay generated a fluorescence increase in positive samples allowing real-time monitoring detection
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