Influence of monovalent metal ions on metal binding and catalytic activity of the 10–23 DNAzyme

Rosenbach, Hannah; Borggräfe, Jan; Victor, Julian; Wuebben, Christine; Schiemann, Olav; Hoyer, Wolfgang; Steger, Gerhard; Etzkorn, Manuel; Span, Ingrid

doi:10.1515/hsz-2020-0207

Cited by 14 publications

(14 citation statements)

References 52 publications

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“…2a ), and an electrophoretic mobility shift assay (EMSA) after hydrolysis and phosphatase treatment ( Supplementary Fig. 2b ), which were consistent with the presence of a terminal 2’,3’ cyclic phosphate, suggesting a transesterification pathway similar to other RNA-cleaving catalysts 61 including the classic 10-23 and 8-17 DNAzymes 62 , as well as the previously described “FR17_6” FANA XNAzyme 56 . Consistent with a transesterification involving deprotonation of the 2’hydroxyl group of the ribose at the cut site for in-line attack, methylation of this group by substitution with a 2’-O-Methyl-RNA residue in a modified substrate rendered it uncleavable ( Supplementary Fig.…”

Section: Resultssupporting

confidence: 83%

A modular XNAzyme cleaves long, structured RNAs under physiological conditions and enables allele-specific gene silencing

et al. 2022

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Nucleic acid catalysts (ribozymes, DNA- and XNAzymes) cleave target (m)RNAs with high specificity but have shown limited efficacy in clinical application. Here we report on the in vitro evolution and engineering of a highly specific modular RNA endonuclease XNAzyme, FR6_1, composed of 2’-deoxy-2’-fluoro-β-D-arabino nucleic acid (FANA). FR6_1 overcomes activity limitations of previous DNA- and XNAzymes and can be retargeted to cleave highly structured full-length (>5 kb) BRAF and KRAS mRNAs at physiological Mg 2+ concentrations with allelic selectivity for tumour-associated ( BRAF V600E and KRAS G12D) mutations. Phosphorothioate-FANA modification enhances FR6_1 biostability and enables rapid KRAS mRNA knockdown in cultured human adenocarcinoma cells with a G12D-allele-specific component provided by in vivo XNAzyme cleavage activity. These results provide a starting point for the development of improved gene silencing agents based on FANA or other XNA chemistries.

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Section: Resultssupporting

confidence: 83%

A modular XNAzyme cleaves long, structured RNAs under physiological conditions and enables allele-specific gene silencing

et al. 2022

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“…Interestingly, very similar effects are found when changing the NaCl concentration from 100 to 500 m m (I, blue, in the absence of Mg 2+ ). Panels B,C,G,H,I combine and reproduce data reported in Refs [27,49].…”

Section: Discussionsupporting

confidence: 67%

“…Structural representations in (D, E) were prepared with pymol [51]. (G) Single turnover cleavage assay of Dz in the presence of 1 m m Mg 2+ and indicated concentrations of Na + (data taken from [49]). (H, I) NMR fingerprint spectra of precatalytic Dz:RNA complexes under indicated conditions.…”

Section: Discussionmentioning

confidence: 99%

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The architecture of the 10‐23 DNAzyme and its implications for DNA‐mediated catalysis

et al. 2022

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Understanding the molecular features of catalytically active DNA sequences, so‐called DNAzymes, is essential not only for our understanding of the fundamental properties of catalytic nucleic acids in general, but may well be the key to unravelling their full potential via tailored modifications. Our recent findings contributed to the endeavour to assemble a mechanistic picture of DNA‐mediated catalysis by providing high‐resolution structural insights into the 10‐23 DNAzyme (Dz) and exposing a complex interplay between the Dz's unique molecular architecture, conformational plasticity, and dynamic modulation by metal ions as central elements of the DNA catalyst. Here, we discuss key features of our findings and compare them to other studies on similar systems.

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“…There is evidence that the positively charged ions of trace elements interact directly with molecular regions of high density charged micro environment residues, particularly with phosphate bonds in the DNA strands[15]. This interaction can change the three dimensional conformation of DNA which is the basic molecular requirement to modulate epigenetically the activity of gene regions to express determined translation products[16][17][18][19]. Thus, trace elements in theory have the physical chemical requirements to act as inducers, fulfilling a biological interaction in the cell metabolism.…”

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confidence: 99%

The inorganic chemicals that surround us: role of tellurium, selenium and zinc on behavioural functions in mammals

Alvarez

Sacchi

Ratti

2021

Journal of Neurorestoratology

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Living organisms live in continuous interaction with its environment. During this process changes in one can induce adaptive responses on the other. Many factors in the environment have been studied with the notorious distinction of been rare or to be of high intensity strength in its interaction with living organisms. However, little attention has been put on some factors that have constant interaction with organisms but usually have low intensity strength, such as the case of the inorganic chemical environment that surrounds us. In this review, the interaction between the chemical element and living organisms is discussed under a theoretical model of interaction between compartments, giving attention to tellurium (Te), zinc (Zn) and selenium (Se) on some cognitive functions in human and animals. After studies in our laboratory of the phenotypic expression of the HSR (Hand Skill Relative) gene in school children community living in geographic zone rich in minerals and mines of La Rioja province, Argentine, where Te was found to be in higher non-toxic concentrations, a translational experimental model to maturing rats exposed to this trace element was made. Te was found to increase some parameters related to locomotion in an open field induced by novelty and exploratory motivation. At the same time, inhibition of lateralized responses, survival responses and social activity was also observed. Some of these changes, particularly those related to lateralization had similarity with that found previously in children of La Rioja province. Discussion of similarities and discrepancies of biologic effects between animals and humans, about the possible meaning of Te and its interaction with Zn and Se with relevance to humans was analyzed.

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Influence of monovalent metal ions on metal binding and catalytic activity of the 10–23 DNAzyme

Cited by 14 publications

References 52 publications

A modular XNAzyme cleaves long, structured RNAs under physiological conditions and enables allele-specific gene silencing

A modular XNAzyme cleaves long, structured RNAs under physiological conditions and enables allele-specific gene silencing

The architecture of the 10‐23 DNAzyme and its implications for DNA‐mediated catalysis

The inorganic chemicals that surround us: role of tellurium, selenium and zinc on behavioural functions in mammals

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