AI Article Synopsis
- Polymorphism in G-quadruplexes (G4s) plays a crucial role in telomere biology, yet effective methods for separating and assessing their different structures are limited.
- This study investigates the polymorphism of three DNA sequences using advanced techniques like RP-HPLC, LC-MS, and various spectroscopic methods to clearly separate and analyze different G4 conformations.
- Findings indicate that specific conditions, such as salt type and concentration, significantly affect the stability of G4 structures, leading to a new methodology for studying G4 polymorphism and its implications in biological functions.
Article Abstract
Polymorphism is inherent for G-quadruplexes (G4s), and the different structural forms are important for the participation in different biological functions of telomeres. A lot of progress has been made in the exploration of G4 polymorphism. However, quick separation and reliable assessment methods for different conformations of G4 are still very few. In this work, the polymorphism of three sequences d[(GT)G], d[(GC)G] and d[(GT)] annealed in six different solutions were investigated by means of reversed-phase high performance liquid chromatography (RP-HPLC), liquid chromatography-mass spectrometry (LC-MS), fluorescence spectroscopy, circular dichroism spectroscopy, together with native-polyacrylamide gel electrophoresis. Different G4 conformations of these three sequences can be separated clearly by RP-HPLC, and further characterized by on-line LC-MS analysis. It is revealed that high-order structures other than intramolecular quadruplexes were favored for d[(GT)G] and d[(GC)G] under the annealing conditions. However, flanking loop impeded d[(GT)] to form higher-order structures than dimer. In addition, the nature and concentration of cation, as well as the annealing solution component, all have decent influence on the stability and relative ratios of various G4 building blocks. Based on the above findings, RP-HPLC and LC-MS combined with spectroscopic techniques can be used as a facile and powerful tool for quick separation and identification of G4s in solutions, and for effective assessment of DNA sequences and annealing environments on G4 polymorphism. The established protocol provides a novel strategy for evaluating G4 polymorphism, which will facilitate studies on quadruplex structures and their biophysical properties.
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| http://dx.doi.org/10.1016/j.chroma.2018.02.021 | DOI Listing |
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