A Comparative Study of DNA Complexation with Mg(II) and Ca(II) in Aqueous Solution: Major and Minor Grooves Bindings

Ahmad, Rohana; Arakawa, Hisayuki; Tajmir-Riahi, H.A.

doi:10.1016/s0006-3495(03)75050-4

Cited by 99 publications

(90 citation statements)

References 43 publications

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“…(See the Appendix for the relationship between our analysis and the method from Meisburger et al) It is not clear how accurate this assumption is or whether the same assumption would be valid for highly charged ions (such as Mg 2+ and Sr 2+ ) since the interaction between those ions with nucleic acids is expected to be ion-dependent. [37][38][39][40][41][42] Here, we apply our analysis method to a 25 base-pair duplex DNA. Fig.…”

Section: Duplex Dna In Salt Solutionsmentioning

confidence: 99%

Extracting water and ion distributions from solution x-ray scattering experiments

Nguyên

Pabit

Pollack

et al. 2016

The Journal of Chemical Physics

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Small-angle X-ray scattering measurements can provide valuable information about the solvent environment around biomolecules, but it can be difficult to extract solvent-specific information from observed intensity profiles. Intensities are proportional to the square of scattering amplitudes, which are complex quantities. Amplitudes in the forward direction are real, and the contribution from a solute of known structure (and from the waters it excludes) can be estimated from theory; hence, the amplitude arising from the solvent environment can be computed by difference. We have found that this "square root subtraction scheme" can be extended to non-zero q values, out to 0.1 Å −1 for the systems considered here, since the phases arising from the solute and from the water environment are nearly identical in this angle range. This allows us to extract aspects of the water and ion distributions (beyond their total numbers), by combining experimental data for the complete system with calculations for the solutes. We use this approach to test molecular dynamics and integral-equation (3D-RISM (three-dimensional reference interaction site model)) models for solvent structure around myoglobin, lysozyme, and a 25 base-pair duplex DNA. Comparisons can be made both in Fourier space and in terms of the distribution of interatomic distances in real space. Generally, computed solvent distributions arising from the MD simulations fit experimental data better than those from 3D-RISM, even though the total small-angle X-ray scattering patterns are very similar; this illustrates the potential power of this sort of analysis to guide the development of computational models. Published by AIP Publishing. [http://dx

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Section: Duplex Dna In Salt Solutionsmentioning

confidence: 99%

Extracting water and ion distributions from solution x-ray scattering experiments

Nguyên

Pabit

Pollack

et al. 2016

The Journal of Chemical Physics

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“…For example, Mg(II) and Ca (II) play a role in the complex formation of ATP and DNA, where they, as well as other metal ions, play a critical role in conformation stabilization (Ahmad et al, 2003;Deng et al, 2000). Given the similar ionic radii of Th(IV) and Ca(II) (i.e., 119 pm for Th(IV) and 126 pm for Ca(II) in 8-fold coordination, 108 pm for Th(IV) and 114 pm for Ca(II) in 6-fold coordination), it is possible that Th(IV) exchanges for Ca(II) in its coordination environments (e.g., the eggbox; Rees, 1972;Kohn, 1972;Moe et al, 1995), even though coulombic repulsion is about four times higher for Th(IV) (due to the higher charge/radius ratio).…”

Section: Organic Th Speciationmentioning

confidence: 99%

Thorium speciation in seawater

et al. 2006

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Since the 1960s, thorium isotopes occupy a special place in the oceanographer's toolbox as tracers for determining rates and mechanisms of oceanic scavenging, particle dynamics, and carbon fluxes. Due to their unique and constant production rates from soluble parent nuclides of uranium and radium, their disequilibrium can be used to calculate rates and time scales of sinking particles. In addition, by ratio-ing particulate 234 Th (as well, in principle, other Th-nuclides) to carbon (and other elements), and linking this ratio to the parent-daughter disequilibrium in the water column, it is possible to calculate fluxes of carbon and other elements. Most of these applications are possible with little knowledge of the dissolved chemical properties of thorium, other than its oxidation state (IV) and tendency to strongly sorb to surfaces, i.e., its bparticle-or surface-activityQ. However, the use of any tracer is hindered by a lack of knowledge of its chemical properties. Recent observations in the variability of carbon to 234 Th ratios in different particle types, as well as of associations of Th(IV) with various marine organic biomolecules has led to the need for a review of current knowledge and what future endeavors should be taken to understand the marine chemistry of thorium. D

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“…We initially considered Tris as a buffer as it is commonly used as a medium for studies of metal ion-DNA interactions with DNA [11,12,21] and is particularly suitable for capillary electrophoresis experiments owing to its low conductivity [22]. However, transition metal ions form complexes of reasonable stability with Tris [20,[23][24][25][26][27][28][29] and ternary M(DNA)(Tris) complexes with oligonucleotides or DNA [16,20].…”

Section: Buffer Influencementioning

confidence: 99%

“…Although ACE investigations of metal ion-DNA interactions have been reported, only a few studies describe the quantification of complex equilibria. Apparent equilibrium constants have been determined for the interactions of Ag + [11], Mg 2+ [12], Ca 2+ [12] and Fe 2+ [13] salts with double-stranded DNA. Two different modes of capillary electrophoresis, electrophoretic mobility shift assay (EMSA) and peak area evaluation, are commonly used.…”

Section: Introductionmentioning

confidence: 99%

Quantification of single-stranded nucleic acid and oligonucleotide interactions with metal ions by affinity capillary electrophoresis: part I

et al. 2006

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A Comparative Study of DNA Complexation with Mg(II) and Ca(II) in Aqueous Solution: Major and Minor Grooves Bindings

Cited by 99 publications

References 43 publications

Extracting water and ion distributions from solution x-ray scattering experiments

Extracting water and ion distributions from solution x-ray scattering experiments

Thorium speciation in seawater

Quantification of single-stranded nucleic acid and oligonucleotide interactions with metal ions by affinity capillary electrophoresis: part I

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