A novel G·G·T non-conventional intramolecular triplex formed by the double repeat sequence of Chlamydomonas telomeric DNA

Aparna Bansal; Priyanka Phogat; Shrikant Kukreti

doi:10.1039/d2ra00861k

A novel G·G·T non-conventional intramolecular triplex formed by the double repeat sequence of Chlamydomonas telomeric DNA

RSC Adv. 2022 May 26;12(25):15918-15924. doi: 10.1039/d2ra00861k. eCollection 2022 May 23.

Authors

Aparna Bansal^{1

2}, Priyanka Phogat¹, Shrikant Kukreti¹

Affiliations

¹ Nucleic Acids Research Lab, Department of Chemistry, University of Delhi (North Campus) Delhi 110007 India skukreti@chemistry.du.ac.in shrikant.kukreti6@gmail.com.
² Department of Chemistry, Hansraj College, University of Delhi, (North Campus) Delhi 110007 India.

Abstract

Competition among DNA non-canonical structures has been widely studied in repetitive DNA sequences. The factors affecting DNA structural polymorphism have always been an important area of research. The Chlamydomonas reinhardtii telomere (TTTTAGGG) _n is found to be an exception to the general idea of forming a folded G-quadruplex by a few repeats in any telomeric sequence. Herein, using gel electrophoresis, UV thermal melting, UV thermal difference spectra (TDS), circular dichroism, and fluorescence and NMR spectroscopy. We demonstrated that the double repeat of the C. reinhardtii telomere (TTTTAGGG)₂ (Chlm2) adopts an intramolecular non-conventional triplex structure in Na⁺ solution. We report that the co-existence of reverse Hoogsteen (G·G) and Wobble base pairing (G·T) stabilizes the triplex structure. To the best of our knowledge, such a non-conventional triplex structure formed by any telomeric sequence has not been reported to date.