Please use this identifier to cite or link to this item: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/8791
Title: A Dynamic Single Molecule Approach to Study Negative Supercoiling Induced G-quadruplex Formation in B-DNA
Authors: Ganji, Mahipal
KRISHNA V R, SHANKAR
Dept. of Biology
20191052
Keywords: Biochemistry
Biophysics
DNA Supercoiling
TIRF Microscopy
G-Quadruplex
Single-Molecule
Issue Date: May-2024
Citation: 33
Abstract: Strand separation by negative supercoiling of B-DNA is known to give rise to noncanonical DNA structures. It is hypothesized that negative supercoiling might give rise to the formation of G-quadruplexes. Current literature involving in vitro studies offer contrasting results both for and against the above hypothesis. Ensemble assays like chemical foot printing, S1 nuclease cleavage and 2D-gel electrophoresis show correlation between negative superhelical stress and G-quadruplex formation in only in certain cases. On the other hand, force-extension measurements using magnetooptical tweezers and single molecule studies using atomic force microscopy (AFM) support the hypothesis. A real time dynamic assay will be useful to determine circumstances in which the hypothesis is true. Intercalation Induced Supercoiling of DNA (ISD) is a dynamic single-molecule technique to generate and visualize supercoiled DNA with the help of fluorescence microscopy. SG4 is a recently developed anti-G-quadruplex nanobody. We aim to use fluorescently labelled SG4 to probe G-quadruplex formation in negatively supercoiled DNA generated by ISD. Negatively supercoiled DNA was successfully generated through ISD assay. The purified SG4 nanobody however did not show G-quadruplex binding in gel mobility shift assay. Work needs to be done in optimizing conditions for the activity of the protein, only then can it be used as a probe.
URI: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/8791
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