Natural and synthetic small molecules targeting G-quadruplex are currently being studied. These peculiar DNA arrangements arise in guanine-rich sequences located in telomeres, oncogene promoters and in several viruses. Two semi-synthetic derivatives of osajin, a natural isoflavone from Maclura pomifera, were prepared and screened for their binding affinity towards G-quadruplex and double stranded DNA (dsDNA) using electrospray mass spectrometry (ESI-MS). Although an overall decrease in affinity for DNA was observed, one of the derivatives showed improved selectivity for G-quadruplex over dsDNA, retaining structure stabilization properties. Binding motif was studied by collision-induced dissociation (CID) assays and molecular docking, that suggested stacking as the preferential interaction pattern. Moreover, the compound selectively induced DNA damage on the G-quadruplex sequence upon UV irradiation, due to the presence of the photoreactive aryl tosylate group.
Natural and synthetic small molecules targeting G-quadruplex are currently being studied. These peculiar DNA arrangements arise in guanine-rich sequences located in telomeres, oncogene promoters and in several viruses. Two semi-synthetic derivatives of osajin, a natural isoflavone from Maclura pomifera, were prepared and screened for their binding affinity towards G-quadruplex and double stranded DNA (dsDNA) using electrospray mass spectrometry (ESI-MS). Although an overall decrease in affinity for DNA was observed, one of the derivatives showed improved selectivity for G-quadruplex over dsDNA, retaining structure stabilization properties. Binding motif was studied by collision-induced dissociation (CID) assays and molecular docking, that suggested stacking as the preferential interaction pattern. Moreover, the compound selectively induced DNA damage on the G-quadruplex sequence upon UV irradiation, due to the presence of the photoreactive aryl tosylate group.
Photoactivated semi-synthetic derivative of osajin selectively interacts with G-quadruplex DNA
Ongaro, Alberto;
2022
Abstract
Natural and synthetic small molecules targeting G-quadruplex are currently being studied. These peculiar DNA arrangements arise in guanine-rich sequences located in telomeres, oncogene promoters and in several viruses. Two semi-synthetic derivatives of osajin, a natural isoflavone from Maclura pomifera, were prepared and screened for their binding affinity towards G-quadruplex and double stranded DNA (dsDNA) using electrospray mass spectrometry (ESI-MS). Although an overall decrease in affinity for DNA was observed, one of the derivatives showed improved selectivity for G-quadruplex over dsDNA, retaining structure stabilization properties. Binding motif was studied by collision-induced dissociation (CID) assays and molecular docking, that suggested stacking as the preferential interaction pattern. Moreover, the compound selectively induced DNA damage on the G-quadruplex sequence upon UV irradiation, due to the presence of the photoreactive aryl tosylate group.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
