Supramolecular DNA-based catalysis in organic solvents

Gurudas Chakraborty; Konstantin Balinin; Rafael del Villar-Guerra; Meike Emondts; Giuseppe Portale; Mark Loznik; Wiebe Jacob Niels Klement; Lifei Zheng; Tanja Weil; Jonathan B. Chaires; Andreas Herrmann

doi:10.1016/j.isci.2024.109689

Supramolecular DNA-based catalysis in organic solvents

Gurudas Chakraborty, Konstantin Balinin, Rafael del Villar-Guerra, Meike Emondts, Giuseppe Portale, Mark Loznik, Wiebe Jacob Niels Klement, Lifei Zheng, Tanja Weil, Jonathan B. Chaires, Andreas Herrmann^*

^*Corresponding author voor dit werk

Onderzoeksoutput › Academic › peer review

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The distinct folding accompanied by its polymorphic character renders DNA G-quadruplexes promising biomolecular building blocks to construct novel DNA-based and supramolecular assemblies. However, the highly polar nature of DNA limits the use of G-quadruplexes to water as a solvent. In addition, the archetypical G-quadruplex fold needs to be stabilized by metal-cations, which is usually a potassium ion. Here, we show that a noncovalent PEGylation process enabled by electrostatic interactions allows the first metal-free G-quadruplexes in organic solvents. Strikingly, incorporation of an iron-containing porphyrin renders the self-assembled metal-free G-quadruplex catalytically active in organic solvents. Hence, these “supraG4zymes” enable DNA-based catalysis in organic media. The results will allow the broad utilization of DNA G-quadruplexes in nonaqueous environments.

Originele taal-2	English
Artikelnummer	109689
Aantal pagina's	20
Tijdschrift	Iscience
Volume	27
Nummer van het tijdschrift	5
DOI's	https://doi.org/10.1016/j.isci.2024.109689
Status	Published - 17-mei-2024

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10.1016/j.isci.2024.109689Licentie: CC BY-NC

Supramolecular DNA-based catalysis in organic solventsFinal publisher's version, 6,23 MBLicentie: CC BY-NC

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@article{d4e1583676e7490db0d37c4dbb956e88,

title = "Supramolecular DNA-based catalysis in organic solvents",

abstract = "The distinct folding accompanied by its polymorphic character renders DNA G-quadruplexes promising biomolecular building blocks to construct novel DNA-based and supramolecular assemblies. However, the highly polar nature of DNA limits the use of G-quadruplexes to water as a solvent. In addition, the archetypical G-quadruplex fold needs to be stabilized by metal-cations, which is usually a potassium ion. Here, we show that a noncovalent PEGylation process enabled by electrostatic interactions allows the first metal-free G-quadruplexes in organic solvents. Strikingly, incorporation of an iron-containing porphyrin renders the self-assembled metal-free G-quadruplex catalytically active in organic solvents. Hence, these “supraG4zymes” enable DNA-based catalysis in organic media. The results will allow the broad utilization of DNA G-quadruplexes in nonaqueous environments.",

keywords = "Biomolecular engineering, Catalysis, Chemistry",

author = "Gurudas Chakraborty and Konstantin Balinin and Villar-Guerra, {Rafael del} and Meike Emondts and Giuseppe Portale and Mark Loznik and {Niels Klement}, {Wiebe Jacob} and Lifei Zheng and Tanja Weil and Chaires, {Jonathan B.} and Andreas Herrmann",

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year = "2024",

month = may,

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doi = "10.1016/j.isci.2024.109689",

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AU - Chakraborty, Gurudas

AU - Balinin, Konstantin

AU - Villar-Guerra, Rafael del

AU - Emondts, Meike

AU - Portale, Giuseppe

AU - Loznik, Mark

AU - Niels Klement, Wiebe Jacob

AU - Zheng, Lifei

AU - Weil, Tanja

AU - Chaires, Jonathan B.

AU - Herrmann, Andreas

PY - 2024/5/17

Y1 - 2024/5/17

N2 - The distinct folding accompanied by its polymorphic character renders DNA G-quadruplexes promising biomolecular building blocks to construct novel DNA-based and supramolecular assemblies. However, the highly polar nature of DNA limits the use of G-quadruplexes to water as a solvent. In addition, the archetypical G-quadruplex fold needs to be stabilized by metal-cations, which is usually a potassium ion. Here, we show that a noncovalent PEGylation process enabled by electrostatic interactions allows the first metal-free G-quadruplexes in organic solvents. Strikingly, incorporation of an iron-containing porphyrin renders the self-assembled metal-free G-quadruplex catalytically active in organic solvents. Hence, these “supraG4zymes” enable DNA-based catalysis in organic media. The results will allow the broad utilization of DNA G-quadruplexes in nonaqueous environments.

AB - The distinct folding accompanied by its polymorphic character renders DNA G-quadruplexes promising biomolecular building blocks to construct novel DNA-based and supramolecular assemblies. However, the highly polar nature of DNA limits the use of G-quadruplexes to water as a solvent. In addition, the archetypical G-quadruplex fold needs to be stabilized by metal-cations, which is usually a potassium ion. Here, we show that a noncovalent PEGylation process enabled by electrostatic interactions allows the first metal-free G-quadruplexes in organic solvents. Strikingly, incorporation of an iron-containing porphyrin renders the self-assembled metal-free G-quadruplex catalytically active in organic solvents. Hence, these “supraG4zymes” enable DNA-based catalysis in organic media. The results will allow the broad utilization of DNA G-quadruplexes in nonaqueous environments.

KW - Biomolecular engineering

KW - Catalysis

KW - Chemistry

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DO - 10.1016/j.isci.2024.109689

M3 - Article

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SN - 2589-0042

VL - 27

JO - Iscience

JF - Iscience

IS - 5

M1 - 109689

ER -

Supramolecular DNA-based catalysis in organic solvents

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