Defined folding pattern of poly(rG) supports inherent ability to encode biological information.

The RNA World hypothesis posits that RNA can represent a primitive life form by reproducing itself and demonstrating catalytic activity. However, this hypothesis is incapable of addressing several major origin-of-life (OoL) questions. A recently described paradox-free alternative OoL hypothesis, the Quadruplex (G4) World, is based on the ability of poly(dG) to fold into a stable architecture with an unambiguous folding pattern using G-tetrads as building elements.

Structure of Tetrahelical DNA Homopolymers Supports Quadruplex World Hypothesis.

We previously reported a tetrahelical monomolecular architecture of DNA, tmDNA, which employs G-quartets and an all-parallel GGGTGGGTGGGTGGG (G3T) quadruplex as the repeating unit. Based on thermodynamic and kinetic studies, we proposed that covalently joined (G3T) units formed an uninterrupted programmable homopolymer; however, structural evidence for the tmDNA architecture was lacking. Here, we used NMR spectroscopy of wild-type and single-inosine-substituted constructs to characterize both monomolecular (G3T) and bimolecular quadruplex-Mg-coupled versions of tmDNA.

A Chimeric DNA/RNA Antiparallel Quadruplex with Improved Stability.

Nucleic acid quadruplexes are proposed to play a role in the regulation of gene expression, are often present in aptamers selected for specific binding functions and have potential applications in medicine and biotechnology. Therefore, understanding their structure and thermodynamic properties and designing highly stable quadruplexes is desirable for a variety of applications. Here, we evaluate DNA→RNA substitutions in the context of a monomolecular, antiparallel quadruplex, the thrombin-binding aptamer (TBA, GGTTGGTGTGGTTGG) in the presence of either K or Sr .

Isothermal amplification of long DNA segments by quadruplex priming amplification.

Amplification of long DNA segments with the highest possible specificity and lowest bias is one of the main goals of modern genomics. Quadruplex priming amplification (QPA) is a single-primer isothermal method, which employs the free energy of quadruplex structures as the driving force for DNA amplification without any extra reaction components. As a result, QPA represents one of the simplest isothermal assays and was previously shown to be suitable for amplification of relatively short DNA sequences.

Sr(2+) induces unusually stable d(GGGTGGGTGGGTGGG) quadruplex dimers.

Guanine-rich sequences are able to form quadruplexes consisting of G-quartet structural units. Quadruplexes play an important role in the regulation of gene expression and have therapeutic and biotechnological potential. The HIV-1 integrase inhibitor, (GGGT)4 , and its variants demonstrate unusually high thermal stability.

Stable Domain Assembly of a Monomolecular DNA Quadruplex: Implications for DNA-Based Nanoswitches.

In the presence of K(+) ions, the 5'-GGGTGGGTGGGTGGG-3' (G3T) sequence folds into a monomolecular quadruplex with unusually high thermal stability and unique optical properties. In this study we report that although single G3T molecules unfold and fold rapidly with overlapping melting and refolding curves, G3T multimers (G3T units covalently attached to each other) demonstrate highly reproducible hysteretic behavior. We demonstrate that this behavior necessitates full-length tandem G3T monomers directly conjugated to each other.

Exponential quadruplex priming amplification for DNA-based isothermal diagnostics.

Polymerase chain reaction (PCR) is a method of choice for molecular diagnostics. However, PCR relies on thermal cycling, which is not compatible with the goals of point-of-care diagnostics. A simple strategy to turn PCR into an isothermal method would be to use specific primers, which upon polymerase elongation can self-dissociate from the primer-binding sites.

Quadruplex priming amplification combined with nicking enzyme for diagnostics.

Quadruplex priming amplification (QPA) is a straightforward assay that allows isothermal amplification of DNA and possesses an intrinsic real-time detection mechanism. QPA can be employed as a diagnostic tool for both linear and exponential signal amplification. The linear QPA, which is less prone to background activity characteristics of exponential systems, suffers from low sensitivity.

Thermal stability of quadruplex primers for highly versatile isothermal DNA amplification.

Quadruplex priming amplification (QPA) allows isothermal amplification of nucleic acids with improved yield and simplified detection. This assay is based on a DNA quadruplex, GGGTGGGTGGGTGGG (G3T), which in the presence of specific cations possesses unusually high thermal stability. QPA employs truncated G3T sequences as primers, which upon polymerase elongation, self-dissociate from the binding site and allow the next round of priming without thermal unfolding of amplicons.

Isothermal amplification of DNA using quadruplex primers with fluorescent pteridine base analogue 3-methyl isoxanthopterin.

We previously developed a method, known as quadruplex priming amplification (QPA), which greatly simplifies DNA amplification and quantification assays. QPA employs specific primers based on GGGTGGGTGGGTGGG (G3T) sequence, which upon polymerase elongation spontaneously dissociates from the target and folds into a stable quadruplex. Fluorescent nucleotide analogs, when incorporated into these primers, emit light upon quadruplex formation and permit simple, specific, and sensitive quantification without the attachment of probe molecules.

Effect of Zn(II) on the reduction and accumulation of Cr(VI) by Arthrobacter species.

Natural habitats are often characterized by the coexistence of Zn and Cr. This study assessed the potential of two Gram-positive, Cr(VI)-reducing, aerobic bacterial strains belonging to Arthrobacter genera, which were isolated from basalt samples taken from the most polluted region of the Republic of Georgia, to remediate Cr(VI) in environments in the presence of Zn(II). Our batch experiments revealed that the addition of Zn(II) to the tested bacterial cells significantly enhanced the accumulation of Cr.