Maja Marušič scite author profile

The formation of a single G-quadruplex structure adopted by a promising 25 nt G-rich vascular endothelial growth factor aptamer in a K+ rich environment was facilitated by locked nucleic acid modifications. An unprecedented all parallel-stranded monomeric G-quadruplex with three G-quartet planes exhibits several unique structural features. Five consecutive guanine residues are all involved in G-quartet formation and occupy positions in adjacent DNA strands, which are bridged with a no-residue propeller-type loop. A two-residue D-shaped loop facilitates inclusion of an isolated guanine residue into the vacant spot within the G-quartet. The remaining two G-rich tracts of three residues each adopt parallel orientation and are linked with edgewise and propeller loops. Both 5′ with 3 nt and 3′ with 4 nt overhangs display well-defined conformations, with latter adopting a basket handle topology. Locked residues contribute to thermal stabilization of the adopted structure and formation of structurally pre-organized intermediates that facilitate folding into a single G-quadruplex. Understanding the impact of chemical modifications on folding, thermal stability and structural polymorphism of G-quadruplexes provides means for the improvement of vascular endothelial growth factor aptamers and advances our insights into driving nucleic acid structure by locking or unlocking the conformation of sugar moieties of nucleotides in general.

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Human Papillomavirus G-Quadruplexes

Tlučková

Marušič

Tóthová

et al. 2013

Biochemistry

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Infection with human papillomaviruses (HPVs) is one of the most common sexually transmitted infections and can lead to development of head and neck, skin, and anogenital cancer, including cervical cancer, which represents one of the world's most significant health problems. In this study, we analyze G-rich regions in all known HPV genomes in order to evaluate their potential to fold into G-quadruplex structure. Interestingly, G-rich loci fulfilling the criteria for G-quadruplex formation were found in only 8 types of HPV. Nevertheless, viral G-quadruplexes in 7 sequences derived directly from HPVs are confirmed here for the first time. G-rich regions with the capacity to form G-quadruplexes are located in the LCR, L2, E1, and E4 regions of the HPV genome; therefore we assume that regulation processes in viruses could be affected by G-quadruplex formation. Our results represent a starting point for the design of specific ligands with viral G-quadruplex motifs and suggest novel methods for the control of viral replication and transcription.

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Solution-state structure of an intramolecular G-quadruplex with propeller, diagonal and edgewise loops

Marušič

Šket

Bauer

et al. 2012

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We herein report on the formation and high-resolution NMR solution-state structure determination of a G-quadruplex adopted by d[G3ATG3ACACAG4ACG3] comprised of four G-tracts with the third one consisting of four guanines that are intervened with non-G streches of different lengths. A single intramolecular antiparallel (3+1) G-quadruplex exhibits three stacked G-quartets connected with propeller, diagonal and edgewise loops of different lengths. The propeller and edgewise loops are well structured, whereas the longer diagonal loop is more flexible. To the best of our knowledge, this is the first high-resolution G-quadruplex structure where all of the three main loop types are present.

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RNA Dynamics by NMR Spectroscopy

2019

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An ever‐increasing number of functional RNAs require a mechanistic understanding. RNA function relies on changes in its structure, so‐called dynamics. To reveal dynamic processes and higher energy structures, new NMR methods have been developed to elucidate these dynamics in RNA with atomic resolution. In this Review, we provide an introduction to dynamics novices and an overview of methods that access most dynamic timescales, from picoseconds to hours. Examples are provided as well as insight into theory, data acquisition and analysis for these different methods. Using this broad spectrum of methodology, unprecedented detail and invisible structures have been obtained and are reviewed here. RNA, though often more complicated and therefore neglected, also provides a great system to study structural changes, as these RNA structural changes are more easily defined—Lego like—than in proteins, hence the numerous revelations of RNA excited states.

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A guide to large-scale RNA sample preparation

et al. 2018

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RNA is becoming more important as an increasing number of functions, both regulatory and enzymatic, are being discovered on a daily basis. As the RNA boom has just begun, most techniques are still in development and changes occur frequently. To understand RNA functions, revealing the structure of RNA is of utmost importance, which requires sample preparation. We review the latest methods to produce and purify a variation of RNA molecules for different purposes with the main focus on structural biology and biophysics. We present a guide aimed at identifying the most suitable method for your RNA and your biological question and highlighting the advantages of different methods. Graphical abstractIn this review we present different methods for large-scale production and purification of RNAs for structural and biophysical studies

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Targeting VEGF with LNA-stabilized G-rich oligonucleotide for efficient breast cancer inhibition

et al. 2015

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In this study, we investigated the efficacy of an LNA (locked nucleic acid)-modified DNA aptamer named RNV66 targeting VEGF against various breast cancer cell lines. Our results demonstrate that RNV66 efficiently inhibits breast cancer cell proliferation both in vitro and in vivo. Introduction of LNA nucleotides were crucial for higher efficacy. Furthermore, the binding interaction of RNV66 with VEGF was investigated using molecular dynamic simulations leading to the first computational model of the LNA aptamer-VEGF complex blocking its interaction with VEGF-receptor.

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Towards Understanding of Polymorphism of the G-rich Region of Human Papillomavirus Type 52

Marušič

Plavec

2019

Molecules

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The potential to affect gene expression via G-quadruplex stabilization has been extended to all domains of life, including viruses. Here, we investigate the polymorphism and structures of G-quadruplexes of the human papillomavirus type 52 with UV, CD and NMR spectroscopy and gel electrophoresis. We show that oligonucleotide with five G-tracts folds into several structures and that naturally occurring single nucleotide polymorphisms (SNPs) have profound effects on the structural polymorphism in the context of G-quadruplex forming propensity, conformational heterogeneity and folding stability. With help of SNP analysis, we were able to select one of the predominant forms, formed by G-rich sequence d(G3TAG3CAG4ACACAG3T). This oligonucleotide termed HPV52(1–4) adopts a three G-quartet snap back (3 + 1) type scaffold with four syn guanine residues, two edgewise loops spanning the same groove, a no-residue V loop and a propeller type loop. The first guanine residue is incorporated in the central G-quartet and all four-guanine residues from G4 stretch are included in the three quartet G-quadruplex core. Modification studies identified several structural elements that are important for stabilization of the described G-quadruplex fold. Our results expand set of G-rich targets in viral genomes and address the fundamental questions regarding folding of G-rich sequences.

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The Effect of DNA Sequence Directionality on G‐Quadruplex Folding

Marušič

Plavec

2015

Angew Chem Int Ed

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Sequence inversion in G-rich DNA from 5'→3' to 3'→5' exerts a substantial effect on the number of structures formed, while the type of G-quadruplex fold is in fact determined by the presence of K(+) or Na(+) ions. The melting temperatures of G-quadruplexes adopted by oligonucleotides with sequences in the 5'→3' direction are higher than those of their 3'→5' counterparts with both KCl and NaCl. CD, UV, and NMR spectroscopy demonstrates the importance of primary sequence for the structural diversity of G-quadruplexes. The changes introduced by mere sequence reversal of the G-rich DNA segment have a substantial impact on the polymorphic nature of the resulting G-quadruplexes and their potential physiological roles. The insights resulting from this study should enable extension of the empirical rules for the prediction of G-quadruplex topology.

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Maja Marušič

G-rich VEGF aptamer with locked and unlocked nucleic acid modifications exhibits a unique G-quadruplex fold

Human Papillomavirus G-Quadruplexes

Solution-state structure of an intramolecular G-quadruplex with propeller, diagonal and edgewise loops

RNA Dynamics by NMR Spectroscopy

A guide to large-scale RNA sample preparation

Targeting VEGF with LNA-stabilized G-rich oligonucleotide for efficient breast cancer inhibition

Towards Understanding of Polymorphism of the G-rich Region of Human Papillomavirus Type 52

The Effect of DNA Sequence Directionality on G‐Quadruplex Folding

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