Abstract
PcrA DNA helicase uses the free energy of hydrolysis and binding of ATP to unwind double-stranded DNA (ds-DNA). There are two states of PcrA, termed the substrate and product complexes and, through the conformational changes between these two states, PcrA moves along ds-DNA and separates the two strands. In this study, two different methods, namely chain minimisation (CM, less reliable method) and auto targeted molecular dynamic (TMD) simulation (more reliable), were performed to generate two different initial reaction pathways between these two states, and then fixed root mean square distance (RMSD) TMD simulation was performed to optimise these two initial pathways. In general, the two optimised pathways share very similar major conformational changes, but are different in the minor motions. The potential energy profiles of the two improved pathways are generally similar, but the one generated by the improved TMD path is slightly lower. Considering the poor reliability of the initial path generated by CM and insignificant improvements of the auto-TMD path, our study suggests that fixed RMSD TMD simulation can generate reliable reaction pathways, but the different initial paths still have some influence on the detailed conformational analysis.
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