Author: ["Sebastian Müller","Sunita Kumari","Raphaël Rodriguez","Shankar Balasubramanian"]
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Abstract
Nucleic acids containing stretches of tandem guanines can fold into four-stranded structures called G-quadruplexes. The existence of such sequences in genomic DNA suggests the occurrence of these motifs in cells, with potential implications in a number of biological processes relevant to cancer. Small molecules have proven to be valuable tools to dissect cell circuitry. Here, we describe a synthetic small molecule derived from an N,N′-bis(2-quinolinyl)pyridine-2,6-dicarboxamide, which is designed to mediate the selective isolation of G-quadruplex nucleic acids. The methodology was successfully applied to a range of DNA and RNA G-quadruplexes in vitro. We demonstrate the general applicability of the method by isolating telomeric DNA-containing G-quadruplex motifs from cells. We show that telomeres are targets for the probe, providing further evidence of the formation of G-quadruplexes in human cells. A small-molecule-affinity tag has been designed to mediate the selective isolation of G-quadruplex nucleic acids in a structure-dependant manner. This concept has been applied to the pull-down of G-quadruplex-containing fragments from human cells, and the methodology holds promise for the elucidation of their putative biological functions. Cite this article
Müller, S., Kumari, S., Rodriguez, R. et al. Small-molecule-mediated G-quadruplex isolation from human cells. Nature Chem 2, 1095–1098 (2010). https://doi.org/10.1038/nchem.842 