• Title of article

    Impact of linker histone in the formation of ambochlorin-calf thymus DNA complex: Multi-spectroscopic, stopped-flow, and molecular modeling approaches

  • Author/Authors

    Askari, Azam Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran , Mokaberi, Parisa Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran , Dareini, Maryam Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran , Medalian, Morvarid Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran , Pejhan, M Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran , Erfani, M Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran , Asadzadeh-Lotfabad, Maryam Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran , Saberi, Mohammad Reza Medical Chemistry Department- School of Pharmacy - Mashhad University of Medical Sciences - Mashhad, Iran , Chamani, Jamshidkhan Department of Biology - Faculty of Sciences - Mashhad Branch - Islamic Azad University - Mashhad, Iran

  • Pages
    15
  • From page
    1568
  • To page
    1582
  • Abstract
    This study aimed to evaluate the role of the linker histone (H1) in the binding interaction between ambochlorin (Amb), and calf thymus DNA (ctDNA) as binary and ternary systems. Materials and Methods: The project was accomplished through the means of absorbance, fluorescence, stopped-flow circular dichroism spectroscopy, viscosity, thermal melting, and molecular modeling techniques. Results: Spectroscopic analysis revealed that although Amb was strongly bound to both ctDNA and ctDNA-H1, it showed a greater tendency to ctDNA in the presence of the linker histone. The obtained thermodynamic parameters revealed that both Amb-ctDNA and Amb-ctDNA-H1 interactions were spontaneous, endothermic, and entropy-favored, and hydrophobic interactions played the main role in the formation and stabilization of complexes. Analysis of the stopped-flow circular dichroism results revealed that the binding process of Amb-ctDNA and Amb-ctDNA-H1 required a time of more than 150 milliseconds to complete. Moreover, Amb-ctDNA complex formation was marginally decelerated in the presence of the linker histone. The docking results suggested that the presence of the linker histone may alter the binding sites of Amb from ctDNA minor grooves to major grooves. Conclusion: All quenching processes were governed by a dynamic mechanism. Additionally, Amb did not stabilize or induce considerable conformational changes in ctDNA and ctDNA-H1 complex upon binding. In silico molecular docking results confirmed that Amb was bound to the double-helical ctDNA and ctDNA-H1 via ctDNA grooves. In summary, some binding properties of the interactions between Amb and ctDNA change in the presence of the linker histone.
  • Keywords
    Calf thymus DNA , Linker histone , Molecular modeling , Spectroscopy , Circular dichroism
  • Journal title
    Iranian Journal of Basic Medical Sciences
  • Serial Year
    2021
  • Record number

    2701374