Janos Sagi

Circular dichroism and guanine quadruplexes

Circular dichroism (CD) is remarkably sensitive to the conformational states of nucleic acids; therefore, CD spectroscopy has been used to study most features of DNA and RNA structures. Quadruplexes are among the significant noncanonical nucleic acids architectures that have received special attentions recently. This article presents examples on the contribution of CD spectroscopy to our knowledge of quadruplex structures and their polymorphism. The examples were selected to demonstrate the potential of this simple method in the quadruplex field. As CD spectroscopy detects only the global feature of a macromolecule, it should preferably be used in combination with other techniques. On the other hand, CD spectroscopy, often as a pioneering approach, can reveal the formation of particular structural arrangements, to search for the conditions stabilizing the structures, to follow the transitions between various structural states, to explore kinetics of their appearance, to determine thermodynamic parameters and also detect formation of higher order structures. This article aims to show that CD spectroscopy is an important complementary technique to NMR spectroscopy and X-ray diffraction in quadruplex studies.

Base-modified oligodeoxynucleotides. I. effect of 5-alkyl, 5-(1-alkenyl) and 5-(1-alkynyl) substitution of the pyrimidines on duplex stability and hydrophobicity

Abstract Properties of oligodeoxynucleotides essential for the antisense effect can be favourably modified by substitution of the heterocyclic base moiety. This is shown here for duplex stability by 5 alkyl, 5-(1-alkenyl) and 5-(1-alkynyl) substitution of the pyrimidines in the self-complementary (dT-dA) 10 and (dC-dG) 6 oligomers as well as for the hydrophobic character of the (dT-dA) 10 series.

8-Oxoguanine in a quadruplex of the human telomere DNA sequence

8‐Oxoguanine is a ubiquitous oxidative base lesion. We report here on the effect of this lesion on the structure and stability of quadruplexes formed by the human telomeric DNA sequence 5′‐dG3(TTAG3)3 in NaCl and KCl. CD, PAGE and absorption‐based thermodynamic stability data showed that replacement of any of the tetrad‐forming guanines by 8‐oxoguanine did not hinder the formation of monomolecular, antiparallel quadruplexes in NaCl. The modified quadruplexes were, however, destabilized in both salts, the extent of this depending on the position of the lesion. These results and the results of previous studies on guanine‐to‐adenine exchanges and guanine abasic lesions in the same quadruplex show a noticeable trend: it is not the type of the lesion but the position of the modification that determines the effect on the conformation and stability of the quadruplex. The type of lesion only governs the extent of changes, such as of destabilization. Most sensitive sites were found in the middle tetrad of the three‐tetrad quadruplex, and the smallest alterations were observed if guanines of the terminal tetrad with the diagonal TTA loop were substituted, although even these substitutions brought about unfavorable enthalpic changes. Interestingly, the majority of these base‐modified quadruplexes did not adopt the rearranged folding induced in the unmodified dG3(TTAG3)3 by potassium ions, an observation that could imply biological relevance of the results.

G-quadruplexes incorporating modified constituents: a review

This review summarizes the results of structural studies carried out with analogs of G-quadruplexes built from natural nucleotides. Several dozens of base-, sugar-, and phosphate derivatives of the biological building blocks have been incorporated into more than 50 potentially quadruplex forming DNA and RNA oligonucleotides and the stability and folding topology of the resultant intramolecular, bimolecular and tetramolecular architectures characterized. The TG4T, TG5T, the 15 nucleotide-long thrombin binding aptamer, and the human telomere repeat AG3(TTAG3)3 sequences were modified in most cases, and four guanine analogs can be noted as being particularly useful in structural studies. These are the fluorescent 2-aminopurine, the 8-bromo-, and 8-methylguanines, and the hypoxanthine. The latter three analogs stabilize a given fold in a mixture of structures making possible accurate structural determinations by circular dichroism and nuclear magnetic resonance measurements.

Substitution of adenine for guanine in the quadruplex-forming human telomere DNA sequence G3(T2AG3)3

We have studied the formation and structural properties of quadruplexes of the human telomeric DNA sequence G(3)(T(2)AG(3))(3) and related sequences in which each guanine base was replaced by an adenine base. None of these single base substitutions hindered the formation of antiparallel quadruplexes, as shown by circular dichroism, gel electrophoresis, and UV thermal stability measurements in NaCl solutions. Effect of substitution did differ, however, depending on the position of the substituted base. The A-for-G substitution in the middle quartet of the antiparallel basket scaffold led to the most distorted and least stable structures and these sequences preferred to form bimolecular quadruplexes. Unlike G(3)(T(2)AG(3))(3), no structural transitions were observed for the A-containing analogs of G(3)(T(2)AG(3))(3) when sodium ions were replaced by potassium ions. The basic quadruplex topology remained the same for all sequences studied in both salts. As in vivo misincorporation of A for a G in the telomeric sequence is possible and potassium is a physiological salt, these findings may have biological relevance.

Acyclic oligonucleotide analogues

Acyclic analogues of oligothymidylate and oligoadenylate and their alternating copolymers were synthesized to study their thermal melting, their stability against snake venom phosphodiesterase and their primer/template properties using the Klenow fragment of the Escherichia coli DNA polymerase I enzyme. Acyclic dodecaadenylate (GlyA)12 hybridized to dodecathymidylate p(dT)12, and the complex presented a sharp melting with a Tm at 24 degrees C. This association was confirmed by circular dichroism curves which were similar to those of the natural oligonucleotide duplexes in A-conformation. (GlyA)12 proved very stable against snake venom phosphodiesterase hydrolysis. The reaction rate was more than 10,000 times slower than that of p(dT)12. (GlyA)12 served as a primer for the Klenow DNA polymerase. When (GlyA)12 was complexed with the poly(dT) template, the enzyme polymerized dATP but the reaction was much slower than with the (GlyT)12 primer. Molecular modelling of atactic (GlyA)12.(dT)12 of the A-conformation indicates that this conformation is energetically possible.

Poly(amino2dA-dT) Isomerizes into the Unusual X-DNA Double Helix at Physiological Conditions Inducing Z-DNA in Poly(dG-methyl5dC)

It is demonstrated that a two-state conformational isomerization is induced in the poly(amino2-dA-dT) duplex by submillimolar concentrations of divalent magnesium cations in low-salt aqueous solution. The isomerization is fast and has a low degree of cooperativity. The resulting conformer is the unusual X-DNA double helix originally observed with poly(dA-dT) at very high concentrations of CsF. Interestingly, the X form is induced in poly(amino2dA-dT) under the physiological conditions when poly(dG-methyl5dC) assumes Z-DNA. The same conditions of stabilization are presumably connected with the fact, observed in previous phosphorus NMR studies, that Z- and X-DNA have similar polydinucleotide backbone architectures. Results presented in this work permit to specify base pair exocyclic groups responsible for the radically different conformational variability of the synthetic DNA molecules containing alternating purine-pyrimidine sequences of GC or AT base pairs.

Loss of loop adenines alters human telomere d[AG3(TTAG3)3] quadruplex folding

Abasic (AP) lesions are the most frequent type of damages occurring in cellular DNA. Here we describe the conformational effects of AP sites substituted for 2′-deoxyadenosine in the first (ap7), second (ap13) or third (ap19) loop of the quadruplex formed in K+ by the human telomere DNA 5′-d[AG3(TTAG3)3]. CD spectra and electrophoresis reveal that the presence of AP sites does not hinder the formation of intramolecular quadruplexes. NMR spectra show that the structural heterogeneity is substantially reduced in ap7 and ap19 as compared to that in the wild-type. These two (ap7 and ap19) sequences are shown to adopt the hybrid-1 and hybrid-2 quadruplex topology, respectively, with AP site located in a propeller-like loop. All three studied sequences transform easily into parallel quadruplex in dehydrating ethanol solution. Thus, the AP site in any loop region facilitates the formation of the propeller loop. Substitution of all adenines by AP sites stabilizes the parallel quadruplex even in the absence of ethanol. Whereas guanines are the major determinants of quadruplex stability, the presence or absence of loop adenines substantially influences quadruplex folding. The naturally occurring adenine-lacking sites in the human telomere DNA can change the quadruplex topology in vivo with potentially vital biological consequences.

Application of chromatographic retention data in an investigation of a quantitative structure—nucleotide incorporation rate relationship

Abstract A series of 5-alkyl-, 5-alkenyl- and 5-alkynyl-substituted deoxyuridines and their triphosphate derivatives were synthesized and studied in DNA polymerase reactions. The initial rate of incorporation of the derivatives catalysed by Klenow fragment DNA polymerase enzyme ( E. coli ) was measured. Calf thymus DNA and synthetic poly (dA—dT) served as templates. The rate values were expressed as a percentage relative to the incorporation rate of natural substrate dTTP. The high-performance liquid chromatographic (HPLC) retention behaviours of the nucleoside derivatives were investigated on silica and reversed-phase stationary phases using various mixtures of ethyl acetate—methanol and methanol—water, as respectively, mobile phases. According to the results of principal component analysis, the HPLC retention data describe the hydrophobic properties of the compounds. The inclusion complex stability constants of the derivatives with cyclodextrins determined by reversed-phase thin-layer chromatography served as a measure of the steric properties of the subtituents. The electronic properties of the 5-substituents were characterized by the Swain-Lupton inductive and resonance parameters. The results of the stepwise linear regression analysis of the nucleotide incorporation rate data and the above-mentioned physico-chemical data revealed the importance of the electronic, steric and hydrophobic properties of the substituents in the DNA polymerase reactions. The importance of the steric parameter was more significant when the poly (dA—dT) template was used instead of the random base sequence template (calf thymus DNA).

Destabilization of the duplex and the high-salt Z-form of poly(dG-methyl5dC) by substitution of ethyl for the 5-methyl group.

The B-to-Z conformational transition of poly(dG-dC) is highly promoted by 5-methyl substitution of the dC moiety, i.e. in poly(dG-methyl5dC). By the synthesis of a new poly(dG-dC) analogue, poly(dG-ethyl5dC), the effect of a longer alkyl-chain substituent of dC on structure and conformation has been studied with ultraviolet absorption melting profiles and circular dichroism spectroscopy. The 5-ethyl substituent in poly(dG-ethyl5dC) destabilizes the duplex structure against thermal denaturation compared with both poly(dG-methyl5dC) and poly(dG-dC). C.d. studies also reveal that for the high-salt B-Z transition of poly(dG-ethyl5dC) a higher NaCl concentration is required than for that of poly(dG-methyl5dC), although much lower than for poly(dG-dC). However low-salt Z-DNA in poly(dG-ethyl5dC) shows unique features, e.g. it needs no divalent cations to be stable. The low-salt B-Z transition of poly(dG-ethyl5dC) can also be observed by the absorption-temperature melting profile, in contrast to both poly(dG-methyl5dC) and poly(dG-dC). The effects of MgCl2 concentration, temperature, acid pH and trifluorethanol on the conformation of poly(dG-ethyl5dC) have also been determined.