Specific and highly efficient condensation of GC and IC DNA by polyaza pyridinophane derivatives

Marijana Radić Stojković; Jorge Gonzalez-Garcia; Filip Šupljika; Cristina Galiana-Rosello; Lluis Guijarro; Salvatore A. Gazze; Lewis W. Francis; Ivo Piantanida; Enrique Garcia-Espana

doi:10.1016/j.ijbiomac.2017.11.156

Specific and highly efficient condensation of GC and IC DNA by polyaza pyridinophane derivatives

Marijana Radić Stojković, Jorge Gonzalez-Garcia, Filip Šupljika, Cristina Galiana-Rosello, Lluis Guijarro, Salvatore A. Gazze, Lewis W. Francis, Ivo Piantanida, Enrique Garcia-Espana

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Two bis-polyaza pyridinophane derivatives and their monomeric reference compounds revealed strong interactions with ds-DNA and RNA. The bis-derivatives show a specific condensation of GC- and IC-DNA, which is almost two orders of magnitude more efficient than the well-known condensation agent spermine. The type of condensed DNA was identified as ψ-DNA, characterized by the exceptionally strong CD signals. At variance to the almost silent AT(U) polynucleotides, these strong CD signals allow the determination of GC-condensates at nanomolar nucleobase concentrations. Detailed thermodynamic characterisation by ITC reveals significant differences between the DNA binding of the bis-derivative compounds (enthalpy driven) and that of spermine and of their monomeric counterparts (entropy driven). Atomic force microscopy confirmed GC-DNA compaction by the bis-derivatives and the formation of toroid- and rod-like structures responsible for the ψ-type pattern in the CD spectra.

Original language	English (US)
Pages (from-to)	143-151
Number of pages	9
Journal	International Journal of Biological Macromolecules
Volume	109
DOIs	https://doi.org/10.1016/j.ijbiomac.2017.11.156
State	Published - Apr 1 2018

Keywords

Circular dichroism spectroscopy
DNA/RNA binding
GC-DNA condensation
Pyridinophane compounds

ASJC Scopus subject areas

Structural Biology
Biochemistry
Molecular Biology
Economics and Econometrics
General Energy

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10.1016/j.ijbiomac.2017.11.156

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Stojković, M. R., Gonzalez-Garcia, J., Šupljika, F., Galiana-Rosello, C., Guijarro, L., Gazze, S. A., Francis, L. W., Piantanida, I., & Garcia-Espana, E. (2018). Specific and highly efficient condensation of GC and IC DNA by polyaza pyridinophane derivatives. International Journal of Biological Macromolecules, 109, 143-151. https://doi.org/10.1016/j.ijbiomac.2017.11.156

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title = "Specific and highly efficient condensation of GC and IC DNA by polyaza pyridinophane derivatives",

abstract = "Two bis-polyaza pyridinophane derivatives and their monomeric reference compounds revealed strong interactions with ds-DNA and RNA. The bis-derivatives show a specific condensation of GC- and IC-DNA, which is almost two orders of magnitude more efficient than the well-known condensation agent spermine. The type of condensed DNA was identified as ψ-DNA, characterized by the exceptionally strong CD signals. At variance to the almost silent AT(U) polynucleotides, these strong CD signals allow the determination of GC-condensates at nanomolar nucleobase concentrations. Detailed thermodynamic characterisation by ITC reveals significant differences between the DNA binding of the bis-derivative compounds (enthalpy driven) and that of spermine and of their monomeric counterparts (entropy driven). Atomic force microscopy confirmed GC-DNA compaction by the bis-derivatives and the formation of toroid- and rod-like structures responsible for the ψ-type pattern in the CD spectra.",

keywords = "Circular dichroism spectroscopy, DNA/RNA binding, GC-DNA condensation, Pyridinophane compounds",

author = "Stojkovi{\'c}, {Marijana Radi{\'c}} and Jorge Gonzalez-Garcia and Filip {\v S}upljika and Cristina Galiana-Rosello and Lluis Guijarro and Gazze, {Salvatore A.} and Francis, {Lewis W.} and Ivo Piantanida and Enrique Garcia-Espana",

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year = "2018",

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doi = "10.1016/j.ijbiomac.2017.11.156",

language = "English (US)",

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T1 - Specific and highly efficient condensation of GC and IC DNA by polyaza pyridinophane derivatives

AU - Stojković, Marijana Radić

AU - Gonzalez-Garcia, Jorge

AU - Šupljika, Filip

AU - Galiana-Rosello, Cristina

AU - Guijarro, Lluis

AU - Gazze, Salvatore A.

AU - Francis, Lewis W.

AU - Piantanida, Ivo

AU - Garcia-Espana, Enrique

PY - 2018/4/1

Y1 - 2018/4/1

N2 - Two bis-polyaza pyridinophane derivatives and their monomeric reference compounds revealed strong interactions with ds-DNA and RNA. The bis-derivatives show a specific condensation of GC- and IC-DNA, which is almost two orders of magnitude more efficient than the well-known condensation agent spermine. The type of condensed DNA was identified as ψ-DNA, characterized by the exceptionally strong CD signals. At variance to the almost silent AT(U) polynucleotides, these strong CD signals allow the determination of GC-condensates at nanomolar nucleobase concentrations. Detailed thermodynamic characterisation by ITC reveals significant differences between the DNA binding of the bis-derivative compounds (enthalpy driven) and that of spermine and of their monomeric counterparts (entropy driven). Atomic force microscopy confirmed GC-DNA compaction by the bis-derivatives and the formation of toroid- and rod-like structures responsible for the ψ-type pattern in the CD spectra.

AB - Two bis-polyaza pyridinophane derivatives and their monomeric reference compounds revealed strong interactions with ds-DNA and RNA. The bis-derivatives show a specific condensation of GC- and IC-DNA, which is almost two orders of magnitude more efficient than the well-known condensation agent spermine. The type of condensed DNA was identified as ψ-DNA, characterized by the exceptionally strong CD signals. At variance to the almost silent AT(U) polynucleotides, these strong CD signals allow the determination of GC-condensates at nanomolar nucleobase concentrations. Detailed thermodynamic characterisation by ITC reveals significant differences between the DNA binding of the bis-derivative compounds (enthalpy driven) and that of spermine and of their monomeric counterparts (entropy driven). Atomic force microscopy confirmed GC-DNA compaction by the bis-derivatives and the formation of toroid- and rod-like structures responsible for the ψ-type pattern in the CD spectra.

KW - Circular dichroism spectroscopy

KW - DNA/RNA binding

KW - GC-DNA condensation

KW - Pyridinophane compounds

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JO - International Journal of Biological Macromolecules

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ER -

Specific and highly efficient condensation of GC and IC DNA by polyaza pyridinophane derivatives

Abstract

Keywords

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