The structure of a higher-order G-quadruplex structure for human telomeric DNA is presented. The structure was determined by a novel integrated approach in which molecular dynamics simulations were used to produce a stable structure, from which specific experimentally accessible properties were predicted. These properties were tested by sedimentation velocity and steady-state fluorescence measurements. The structure that emerges is a dimeric structure with two quadruplex units, each with a different structure. The interface between the quadruplex units is stabilized by specific stacking interactions of loop nucleotides. The interface is a unique structure and a unique target for drug design.
The tail of the telomere / Petraccone, Luigi; John O., Trent; Jonathan B., Chaires. - In: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. - ISSN 0002-7863. - STAMPA. - 130:49(2008), pp. 16530-16532. [10.1021/ja8075567]
The tail of the telomere
PETRACCONE, LUIGI;
2008
Abstract
The structure of a higher-order G-quadruplex structure for human telomeric DNA is presented. The structure was determined by a novel integrated approach in which molecular dynamics simulations were used to produce a stable structure, from which specific experimentally accessible properties were predicted. These properties were tested by sedimentation velocity and steady-state fluorescence measurements. The structure that emerges is a dimeric structure with two quadruplex units, each with a different structure. The interface between the quadruplex units is stabilized by specific stacking interactions of loop nucleotides. The interface is a unique structure and a unique target for drug design.| File | Dimensione | Formato | |
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