A mechanism for the extension and unfolding of parallel telomeric g-quadruplexes by human telomerase at single-molecule resolution

Paudel B.P.; Moye A.L.; Assi H.A.; El-Khoury R.; Cohen S.B.; Holien J.K.; Birrento M.L.; Samosorn S.; Intharapichai K.; Tomlinson C.G.; Teulade-Fichou M.-P.; González C.; Beck J.L.; Damha M.J.; van Oijen A.M.; Bryan T.M.

Please use this identifier to cite or link to this item: https://ir.swu.ac.th/jspui/handle/123456789/11906

Title:	A mechanism for the extension and unfolding of parallel telomeric g-quadruplexes by human telomerase at single-molecule resolution
Authors:	Paudel B.P. Moye A.L. Assi H.A. El-Khoury R. Cohen S.B. Holien J.K. Birrento M.L. Samosorn S. Intharapichai K. Tomlinson C.G. Teulade-Fichou M.-P. González C. Beck J.L. Damha M.J. van Oijen A.M. Bryan T.M.
Keywords:	alexafluor 555 chloroform diagnostic agent dimethyl sulfoxide dithiothreitol edetic acid guanine quadruplex levodopa magnesium chloride polysorbate 20 potassium chloride sodium tetraborate decahydrate buffer telomerase telomerase reverse transcriptase triton x 100 unclassified drug Article chromosomal parameters circular dichroism computer simulation controlled study crystal structure DNA binding fluorescence microscopy fluorescence resonance energy transfer fractional anisotropy gene frequency genetic association genomic instability high performance liquid chromatography human human cell image analysis liquid chromatography-mass spectrometry molecular diagnosis molecular mechanics molecular model protein unfolding telomerase activity assay telomere telomere length thermostability ultraviolet visible spectroscopy
Issue Date:	2020
Abstract:	Telomeric G-quadruplexes (G4) were long believed to form a protective structure at telomeres, preventing their extension by the ribonucleoprotein telomerase. Contrary to this belief, we have previously demonstrated that parallel-stranded conformations of telomeric G4 can be extended by human and ciliate telomerase. However, a mechanistic understanding of the interaction of telomerase with structured DNA remained elusive. Here, we use single-molecule fluorescence resonance energy transfer (smFRET) microscopy and bulk-phase enzymology to propose a mechanism for the resolution and extension of parallel G4 by telomerase. Binding is initiated by the RNA template of telomerase interacting with the G-quadruplex; nucleotide addition then proceeds to the end of the RNA template. It is only through the large conformational change of translocation following synthesis that the G-quadruplex structure is completely unfolded to a linear product. Surprisingly, parallel G4 stabilization with either small molecule ligands or by chemical modification does not always inhibit G4 unfolding and extension by telomerase. These data reveal that telomerase is a parallel G-quadruplex resolvase. © 2020, eLife Sciences Publications Ltd. All rights reserved.
URI:	https://ir.swu.ac.th/jspui/handle/123456789/11906 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85089610831&doi=10.7554%2feLife.56428&partnerID=40&md5=6913b99e1a52d9d25bfda7cb3dcc02ab
ISSN:	2050084X
Appears in Collections:	Scopus 1983-2021

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