PLoS ONE (Jan 2024)

The molecular interaction of six single-stranded DNA aptamers to cardiac troponin I revealed by docking and molecular dynamics simulation.

  • Bejo Ropii,
  • Maulidwina Bethasari,
  • Isa Anshori,
  • Allya Paramita Koesoema,
  • Wervyan Shalannanda,
  • Ardianto Satriawan,
  • Casi Setianingsih,
  • Mohammad Rizki Akbar,
  • Reza Aditama,
  • Fahmi Fahmi,
  • Erwin Sutanto,
  • Muhammad Yazid,
  • Muhammad Aziz

DOI
https://doi.org/10.1371/journal.pone.0302475
Journal volume & issue
Vol. 19, no. 5
p. e0302475

Abstract

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Cardiac troponin I (cTnI) is a cardiac biomarker for diagnosing ischemic heart disease and acute myocardial infarction. Current biochemical assays use antibodies (Abs) due to their high specificity and sensitivity. However, there are some limitations, such as the high-cost production of Abs due to complex instruments, reagents, and steps; the variability of Abs quality from batch to batch; the low stability at high temperatures; and the difficulty of chemical modification. Aptamer overcomes the limitations of antibodies, such as relatively lower cost, high reproducibility, high stability, and ease of being chemically modified. Aptamers are three-dimensional architectures of single-stranded RNA or DNA that bind to targets such as proteins. Six aptamers (Tro1-Tro6) with higher binding affinity than an antibody have been identified, but the molecular interaction has not been studied. In this study, six DNA aptamers were modeled and docked to cTnI protein. Molecular docking revealed that the interaction between all aptamer and cTnI happened in the similar cTnI region. The interaction between aptamer and cTnI involved hydrophobic interaction, hydrogen bonds, π-cation interactions, π-stack interactions, and salt-bridge formation. The calculated binding energy of all complexes was negative, which means that the complex formation was thermodynamically favorable. The electrostatic energy term was the main driving force of the interaction between all aptamer and cTnI. This study could be used to predict the behavior of further modified aptamer to improve aptamer performance.