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4,383 results on '"Deoxyribose"'

1. NMR solution structure of tricyclo-DNA containing duplexes: insight into enhanced thermal stability and nuclease resistance.

Author

Istrate A, Johannsen S, Istrate A, Sigel RKO, and Leumann CJ

Subjects
Base Pairing, Circular Dichroism, DNA genetics, Deoxyribose, Magnetic Resonance Spectroscopy, Models, Molecular, Nucleic Acid Hybridization, Oligonucleotides genetics, RNA genetics, Thermodynamics, DNA chemistry, Nucleic Acid Conformation, Oligonucleotides chemistry, RNA chemistry
Abstract

Tc-DNA is a conformationally constrained oligonucleotide analogue which shows significant increase in thermal stability when hybridized with RNA, DNA or tc-DNA. Remarkably, recent studies revealed that tc-DNA antisense oligonucleotides (AO) hold great promise for the treatment of Duchenne muscular dystrophy and spinal muscular atrophy. To date, no high-resolution structural data is available for fully modified tc-DNA duplexes and little is known about the origins of their enhanced thermal stability. Here, we report the structures of a fully modified tc-DNA oligonucleotide paired with either complementary RNA, DNA or tc-DNA. All three investigated duplexes maintain a right-handed helical structure with Watson-Crick base pairing and overall geometry intermediate between A- and B-type, but closer to A-type structures. All sugars of the tc-DNA and RNA residues adopt a North conformation whereas the DNA deoxyribose are found in a South-East-North conformation equilibrium. The conformation of the tc-DNA strand in the three determined structures is nearly identical and despite the different nature and local geometry of the complementary strand, the overall structures of the examined duplexes are very similar suggesting that the tc-DNA strand dominates the duplex structure., (© The Author(s) 2019. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published
2019
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2. Synthetic studies towards a novel, chemical stable, abasic site analogue of DNA.

Author

Hirtz C and Leumann CJ

Subjects
DNA chemical synthesis, DNA Repair, Indicators and Reagents, Oligodeoxyribonucleotides chemical synthesis, Phosphines, DNA chemistry, Deoxyribose
Abstract

We synthesized the phosphinate 7 via photoaddition of methanol to the alpha, beta unsaturated deoxyribono lactone as the key step, followed by an Arbusov reaction for the introduction of phosphorous. Precursor 7 serves for the synthesis and incorporation into DNA of a novel chemically stable abasic site analogue that might act as an inhibitor for DNA glycosylases.

Published
2003
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4. Base-base and deoxyribose-base stacking interactions in B-DNA and Z-DNA: a quantum-chemical study.

Author

Sponer J, Gabb HA, Leszczynski J, and Hobza P

Subjects
Base Composition, Base Sequence, Calorimetry, Deoxyribose, Models, Chemical, Models, Molecular, Potentiometry, Quantum Theory, Thermodynamics, DNA chemistry, Nucleic Acid Conformation, Oligodeoxyribonucleotides chemistry
Abstract

Base-stacking interactions in canonical and crystal B-DNA and in Z-DNA steps are studied using the ab initio quantum-chemical method with inclusion of electron correlation. The stacking energies in canonical B-DNA base-pair steps vary from -9.5 kcal/mol (GG) to -13.2 kcal/mol (GC). The many-body nonadditivity term, although rather small in absolute value, influences the sequence dependence of stacking energy. The base-stacking energies calculated for CGC and a hypothetical TAT sequence in Z-configuration are similar to those in B-DNA. Comparison with older quantum-chemical studies shows that they do not provide even a qualitatively correct description of base stacking. We also evaluate the base-(deoxy)ribose stacking geometry that occurs in Z-DNA and in nucleotides linked by 2',5'-phosphodiester bonds. Although the molecular orbital analysis does not rule out the charge-transfer n-pi* interaction of the sugar 04' with the aromatic base, the base-sugar contact is stabilized by dispersion energy similar to that of stacked bases. The stabilization amounts to almost 4 kcal/mol and is thus comparable to that afforded by normal base-base stacking. This enhancement of the total stacking interaction could contribute to the propensity of short d(CG)n sequences to adopt the Z-conformation.

Published
1997
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5. [Free radical mechanisms of radiation modification of DNA sugar fragment].

Author

Sharpatyĭ VA

Subjects
Electron Spin Resonance Spectroscopy, Free Radicals, DNA radiation effects, DNA Fragmentation, Deoxyribose
Abstract

Analysis of the DNA and modeling its certain fragments substances radiolysis data allows to attribute the cardinal role to the primary 2-deoxyribosyl radicals in the processes of the breaks (C'3, C'5) and alkali-labile sites (C'1, C'2, C'4) in DNA strands, of the free bases appearance (C'3, C'5). The higher yield of bases destruction in DNA is explained by the transferring of a damage (unpaired electron) from 2-deoxyribosyl to a base within one nucleotide.

Published
1997

6. Conformational distortion of sugar moieties in the RecA-bound DNA structure determined by a simulated annealing method.

Author

Nishinaka T, Ito Y, Yokoyama S, and Shibata T

Subjects
Deoxyribose, Nuclear Magnetic Resonance, Biomolecular, Stress, Mechanical, DNA chemistry, DNA metabolism, Nucleic Acid Conformation, Oligodeoxyribonucleotides chemistry, Rec A Recombinases chemistry, Rec A Recombinases metabolism
Abstract

We recently reported an NMR study indicating that the DNA structure bound to RecA protein contains a novel deoxyribose-base stacking interaction. Although the final structure calculated by the simulated annealing was well defined, the type of sugar puckers was neither pure C2'-endo nor C3'-endo, but something in between. This implies that the sugar moieties in the RecA-bound state actually take an intermediate puckering, but we can not exclude the possibility that RecA-bound DNA takes multiple conformations between the S-type and N-type of sugar puckers. In either case, the DNA structure within RecA filaments shows a unique property that is distinct from canonical DNA structures.

Published
1997

7. "Small is beautiful": major modifications in DNA structure or dynamics by small substituents or ligands.

Author

Guschlbauer W

Subjects
Adenine analogs & derivatives, Base Sequence, DNA drug effects, Deoxyribose, Guanine Nucleotides, Guanosine, Magnetic Resonance Spectroscopy, Methylation, Models, Molecular, Molecular Sequence Data, Plasmids, Polydeoxyribonucleotides chemistry, S-Adenosylmethionine pharmacology, Site-Specific DNA-Methyltransferase (Adenine-Specific) metabolism, Site-Specific DNA-Methyltransferase (Adenine-Specific) pharmacology, DNA chemistry, Ligands, Nucleic Acid Conformation
Abstract

This short review assembles the contributions of the author's laboratory to the structural aspects of DNA. DNA was modified by small ligands and/or substituents. There are three aspects to this work: a) Protonation of guanosine and DNA and the formation of triple- and quadruple-strands of guanosine, its nucleotides, their polymers and DNA. b) Substitution of the 2'-position of deoxyribose by the most polar atom, fluorine: studies on 2'-deoxy-2'-fluro-nucleosides, -nucleotides and their polymers, studied both by structural and biological methods. c) The effect of introducing the methyl group in the large groove of DNA: NMR studies of oligonucleotides containing N6-methylated adenine residues, and enzymatic and molecular biology work on Dam methylase are reported.

Published
1996

8. Effect of selective cytosine methylation and hydration on the conformations of DNA triple helices containing a TTTT loop structure by FT-IR spectroscopy.

Author

Fang Y, Bai C, Wei Y, Lin SB, and Kan L

Subjects
Absorption, Base Composition, Carbohydrates chemistry, Deoxyribose, Hydrogen-Ion Concentration, Methylation, Nucleic Acid Conformation, Phosphates, Solutions, Spectroscopy, Fourier Transform Infrared, Structure-Activity Relationship, Cytosine chemistry, DNA chemistry
Abstract

5-Methylcytosines have been introduced into triplex-forming-oligonucleotides and shown to extend the pH range over which a triplex forms with a homopurine-homopyrimidine tract of duplex DNA. As a host strand, an oligodeoxypyrimidine with a base sequence of 5'-d(TC)3T4(CT)3 ([CC]) was designed to form a hairpin triplex with a 5'-d-A(GA)2G ([AG6]) purine strand at acidic pH (Tsay, et al., (1995) J. Biomol. Str. Dyn., 13, 1235-1245). We here present results obtained by FT-IR spectroscopy concerning the conformation of the hairpin triplex as a function of the selective substitution of cytosines by 5-methylcytosines in the host strand. Namely, cytosines are substituted by 5-methylcytosines in either the 3'-pyrimidine portion ([CM]) or the 5'-pyrimidine portion ([MC]) or in both ([MM]) of the host strand. The acidic-induced transitions of the equimolar mixtures of the purine target with either of the four pyrimidine oligomers gives rise to different apparent pK values, i.e., [MM].[AG6] (6.2) > [MC].[AG6] (6.0) > [CM].[AG6] (5.7) > [CC].[AG6] (5.2) > single-stranded oligopyrimidines (4.6 +/- 0.2), indicating that cytosine methylation expands the pH range compatible with the hairpin triplex formation regardless of whether the substitution is in the 5'-pyrimidine (Hoogsteen) portion or in the 3'-pyrimidine (Watson-Crick) portion. Thermal denaturation profiles indicated that all the triplexes denatured in a monophasic manner in the pH range of 4.0 to 7.0, and that cytosine methylations in any position of the 16-base pyrimidine oligomer increase the stability of the hairpin triplex DNA. IR spectra recorded in D2O and H2O solutions revealed that cytosine methylation does not significantly influence the conformation of triplex DNA in solution, i.e., all the four triplexes accept a similar sugar conformation, and predominately take on a S-type sugar pucker with a relative proportion of two S-type sugars for one N-type. Furthermore, we also investigated the effect of relative humidity (RH) on the conformation of triplex MC.AG6 in hydrated films, and found that the conformational change induced by the decrease of RH, from predominant S-type to primary N-type sugar pucker, might first occur in the purine strand at 86% RH.

Published
1995
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9. Calculation of hydroxyl radical attack on different forms of DNA.

Author

Michalik V, Spotheim Maurizot M, and Charlier M

Subjects
Base Composition, Base Sequence, DNA Damage, DNA, Single-Stranded metabolism, Deoxyribose, Molecular Sequence Data, Nucleic Acid Conformation, Structure-Activity Relationship, DNA metabolism, Hydroxyl Radical metabolism, Models, Molecular
Abstract

A stochastic model of hydroxyl radical reaction with the DNA macromolecule in dilute aqueous solution is presented. It is based on the Monte Carlo method, the model of Smoluchowski, the model of the regular DNA atomic structure and the knowledge of reaction rate constants for .OH radical reaction with DNA constituents. The calculated respective overall probability of .OH radical reaction with sugar or base moiety dependents on DNA form (A, B or Z), base composition (AT/GC content) and strandedness (single and double). While for all three DNA forms studied (A, B and Z) as well as for both single- and double-stranded B-DNA, the specific probability of .OH radical attack on nucleobases is modulated by their sequence, the attack on deoxyriboses is only slightly sequence dependent (except for Z-DNA). The model predictions are compared to the experimental patterns of strand breaks and alkali revealed breaks for single and double stranded DNA in B-form and discussed in terms of molecular mechanisms of DNA damage induced by hydroxyl radical.

Published
1995
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10. Spectroscopic studies of chimeric DNA-RNA and RNA 29-base intramolecular triple helices.

Author

Liquier J, Taillandier E, Klinck R, Guittet E, Gouyette C, and Huynh-Dinh T

Subjects
Base Sequence, Carbohydrate Conformation, Chimera, Deoxyribose, Hydrogen-Ion Concentration, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Ribose, Spectrophotometry, Ultraviolet, Spectroscopy, Fourier Transform Infrared, DNA chemistry, Nucleic Acid Conformation, Oligodeoxyribonucleotides chemistry, Oligoribonucleotides chemistry, RNA chemistry
Abstract

Fourier transform infrared (FTIR), UV absorption and exchangeable proton NMR spectroscopies have been used to study the formation and stability of two intramolecular pH-dependent triple helices composed by a chimeric 29mer DNA-RNA (DNA double strand and RNA third strand) or by the analogous 29mer RNA. In both cases decrease of pH induces formation of a triple helical structure containing either rU*dA.dT and rC+*dG.dC or rU*rA.rU and rC+*rG.rC triplets. FTIR spectroscopy shows that exclusively N-type sugars are present in the triple helix formed by the 29mer RNA while both N- and S-type sugars are detected in the case of the chimeric 29mer DNA-RNA triple helix. Triple helix formation with the third strand RNA and the duplex as DNA appears to be associated with the conversion of the duplex part from a B-form secondary structure to one which contains partly A-form sugars. Thermal denaturation experiments followed by UV spectroscopy show that a major stabilization occurs upon formation of the triple helices. Monophasic melting curves indicate a simultaneous disruption of the Hoogsteen and Watson-Crick hydrogen bonds in the intramolecular triplexes when the temperature is increased. This is in agreement with imino proton NMR spectra recorded as a function of temperature. Comparison with experiments concerning intermolecular triplexes of identical base and sugar composition shows the important role played by the two tetrameric loops in the stabilization of the intramolecular triple helices studied.

Published
1995
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11. Theoretical analysis of DNA intrastrand cross linking by formation of 8,5'-cyclodeoxyadenosine.

Author

Miaskiewicz K, Miller JH, and Fuciarelli AF

Subjects
Base Sequence, Cross-Linking Reagents, Deoxyribose, Free Radicals, Molecular Sequence Data, Stereoisomerism, Thermodynamics, DNA chemistry, Deoxyadenosines chemistry, Nucleic Acid Conformation, Oligodeoxyribonucleotides chemistry
Abstract

Formation of intramolecular cross links by addition of C(5') deoxyribose radicals to the C(8)-N(7) double bond of an attached adenine base was analyzed by ab initio quantum-chemical methods. Conformational preferences that influence the stereospecificity of the reaction were investigated. A good correlation was found between the ratio of experimental yields of R and S stereoisomers of 8,5'-cyclodeoxyadenosine and the relative energy of conformations of the C(5') radical that are precursors to these isomers. Molecular mechanics based on the AMBER force field was used to model the effect of 8,5'-cyclodeoxyadenosine on the conformation of the DNA dodecamer d(CGCGAATTCGCG)2 with the lesion at the A6 position. The R and S stereoisomers of the intrastrand cross link cause comparable levels of DNA distortion with the major conformational changes occurring in backbone torsional angles at the site of the lesion.

Published
1995
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12. Nucleic acids induce the formation of a carcinogen, 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) in a model system.

Author

Manabe S, Kurihara N, Shibutani T, Wada O, Ueki A, and Suzuki H

Subjects
Carcinogens chemistry, Chromatography, High Pressure Liquid, Deoxyribonucleotides, Deoxyribose, Imidazoles chemistry, Kinetics, Purines, Pyrimidines, RNA, Fungal metabolism, Ribonucleotides, Ribose, Carcinogens metabolism, Creatinine, DNA metabolism, Imidazoles metabolism, Phenylalanine, RNA metabolism
Abstract

Effects of nucleic acids on the formation of 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) were studied in a model system. When a mixture of a certain amount of DNA or RNA, creatinine (1 mmol) and phenylalanine (1 mmol) in 10 ml of 50 mM phosphate buffer, pH 7.4, was heated at 60 degrees C for 4 weeks in a screw-capped vial, PhIP was produced, and the yield of PhIP was dependent on the heating time as well as the dose of nucleic acid added to the mixture. However, PhIP was not detectable in the mixtures without the presence of nucleic acids. Both deoxyribonucleotides and ribonucleotides tested induced the formation of PhIP under the presence of phenylalanine and creatinine, although bases of nucleic acids such as adenine and guanine did not induce PhIP formation. Moreover, we confirmed that 2-deoxy-D-ribose as well as D-ribose induced the formation of PhIP in the presence of creatinine and phenylalanine. These results indicate that nucleic acids can induce the formation of PhIP in the presence of creatinine and phenylalanine in the model system. Our data also suggest that pentose in nucleic acids may participate in PhIP forming reactions.

Published
1993
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13. The DNA strand in DNA.RNA hybrid duplexes is neither B-form nor A-form in solution.

Author

Salazar M, Fedoroff OY, Miller JM, Ribeiro NS, and Reid BR

Subjects
Base Sequence, Carbohydrate Conformation, DNA chemical synthesis, Deoxyribose, Magnetic Resonance Spectroscopy methods, Models, Molecular, Molecular Sequence Data, Nucleic Acid Hybridization, Oligodeoxyribonucleotides chemical synthesis, Oligoribonucleotides chemical synthesis, RNA chemical synthesis, Ribose, Solutions, DNA chemistry, Nucleic Acid Conformation, Oligodeoxyribonucleotides chemistry, Oligoribonucleotides chemistry, RNA chemistry
Abstract

The structure of the DNA.RNA hybrid (GTCACATG).(caugugac), where lowercase letters designate RNA residues, has been determined on the basis of J-coupling analysis and 2D-NOE studies. The central hexamer in this sequence has been previously studied [Reid, D. G., Salisbury, S. A., Brown, T., Williams, D. H., Vasseur, J.-J., Rayner, B., & Imabach, J.-L. (1983) Eur. J. Biochem. 135, 307-314] via one-dimensional NOE methods and circular dichroism studies. Contrary to their results, we find that this duplex does not assume a B-form conformation in solution. Instead, the RNA residues retain their C3'-endo (A-form) conformation, as indicated by the absence of H1'-H2' couplings and by strong H6/H8 to (n-1) H2'NOEs. The sugars of the DNA residues, on the other hand, do not assume an A-form (or a B-form) conformation but an intermediate conformation in the O4'-endo range (P approximately 72-110 degrees), as indicated by the presence of strong H1'-H4' NOEs, medium-strength H2"-H3' COSY cross peaks, strong H3'-H4' DQF-COSY cross peaks, and H1'-H2' coupling constants that are of approximately the same magnitude as the H1'-H2" coupling constants. These results suggest that the RNA strand not only retains its N-type structure but also exerts an influence on the conformation of the DNA strand. Our results provide strong evidence that DNA.RNA hybrid duplexes do not assume an all-C2'-endo B-type conformation; neither do they assume an all-C3'-endo A-type conformation in solution. Furthermore, although not the main focus of this study, a comparison of the longitudinal relaxation times of the DNA and RNA residues indicates the need for extended relaxation delays in two-dimensional NMR spectra of hybrid duplexes, as has been previously observed for DNA.RNA chimeric duplexes (Wang, A. C., Kim, S.-G., Chou, S.-H., Orban, J., Flynn, P., & Reid, B. R. (1992) Biochemistry 31, 3940-3946).

Published
1993
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14. Influence of electrostatic interactions on the sugar-phosphate backbone conformation in DNA.

Author

Pechenaya VI

Subjects
Calorimetry methods, Deoxyribose, Hydrogen Bonding, Models, Theoretical, Phosphoric Acids, Spectrum Analysis, Raman, DNA chemistry, Nucleic Acid Conformation
Abstract

The influence of sugar ring flexibility in DNA on the mechanism of the B <===> A conformational transition is studied. The dipole moment of the deoxyribose as a function of its puckered states is calculated by the quantum-mechanical method using the MINDO/3 approximation. The interaction of the sugar dipole with the neighbor molecular groups in polynucleotide chains is estimated. The sugar dipole interaction with phosphate groups and counterions is shown to be strong and capable to deform the pseudorotation potential of deoxyribose. The effective pseudorotation potential of sugar ring in the B and A helices is obtained. The results are used to explain the behavior of Raman bands in the region of sugar-phosphate vibrations. The mechanism of the effect of electrostatic forces on the sugar-phosphate backbone conformation, which is essential for the B <===> A and other structure transitions, is offered.

Published
1993
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15. Conformational sub-states in B-DNA.

Author

Poncin M, Hartmann B, and Lavery R

Subjects
Algorithms, Base Composition, Base Sequence, Calorimetry, Deoxyribose, Dinucleoside Phosphates chemistry, Glycosides, Mathematics, Molecular Sequence Data, Polydeoxyribonucleotides chemistry, DNA chemistry, Nucleic Acid Conformation, Oligodeoxyribonucleotides chemistry
Abstract

Theoretical studies of the sequence-dependent conformation of B-DNA have been carried out using Jumna, a helicoidal co-ordinate minimization algorithm. The results obtained for a series of six oligomers with repetitive sequences show that, with the exception of the homopolymers (dA)n.(dT)n and (dG)n.(dC)n, all sequences can adopt a variety of conformations characterized by considerable changes in helicoidal parameters and also in sugar puckers which adopt C(2')-endo (falling into 2 classes) or, in the case of pyrimidine nucleotides, O(1')-endo forms. These studies lead to an improved understanding of the role of base sequence on DNA conformation and point to a number of interesting correlations between the various structural parameters describing the double helix.

Published
1992
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16. Atomic charges for DNA constituents derived from single-crystal X-ray diffraction data.

Author

Pearlman DA and Kim SH

Subjects
Adenine, Cytosine, Deoxyribose, Guanine, Models, Molecular, Thymine, X-Ray Diffraction methods, DNA, Nucleic Acid Conformation
Abstract

We have derived a complete set of atomic charges for DNA from very high resolution, low temperature, single-crystal X-ray diffraction data, collected for a variety of nucleosides and nucleotides: cytidine; deoxycytidine 5'-monophosphate; deoxythymidine; guanosine 5'-monophosphate; deoxyadenosine; adenosine. This set of charges represents the first experimentally based parameterization of an important term in the energy function used in most modeling of DNA. The resulting charges are in good agreement with chemical intuition and experimental observations. They also agree qualitatively with the theoretically derived values now commonly used, but numerous and significant quantitative differences are observed. Possible reasons for the quantitative disagreement are discussed. An averaged set of charges (derived from the experimental results), which can be used in DNA modeling calculations, is presented.

Published
1990
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17. Complete assignment of the deoxyribose 5'/5" proton resonances of the EcoRI DNA sequence using isotropic mixing.

Author

Glaser SJ, Remerowski ML, and Drobny GP

Subjects
Deoxyribose, Magnetic Resonance Spectroscopy methods, Models, Molecular, Protons, Base Sequence, DNA, Deoxyribonuclease EcoRI, Nucleic Acid Conformation
Abstract

Using two-dimensional isotropic mixing spectroscopy all 5'/5" proton resonances of the EcoRI restriction site DNA dodecamer [d(CGCGAATTCGCG)]2 have been assigned. This completes the previous assignments of 1'H to 4'H resonances of the deoxyribose spin systems (Hare et al., 1983). With mixing times of up to 500 ms, many of these resonances showed connectivities of 5'/5" protons in the two-dimensional isotropic mixing spectrum. Relying only on through-bond connectivities makes these assignments independent of assumptions about the conformation of the DNA oligonucleotide. The assignment of the 5'H/5"H resonances will allow the interpretation of intra- and interresidue NOEs to these protons, providing information about the DNA backbone conformation.

Published
1989
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18. Interpretation of DNA vibration modes: III--The behaviour of the sugar pucker vibration modes as a function of its pseudorotation parameters.

Author

Dohy D, Ghomi M, and Taillandier E

Subjects
Mathematics, Spectrophotometry methods, Vibration, DNA, Deoxyribose, Nucleic Acid Conformation
Abstract

A systematic study of the sugar pucker characteristic vibration modes as a function of its geometrical conformations, has been performed. The present investigation is based on the Wilson GF method and a non-redundant valence force field. The calculated results allow to assign the modes arising mainly from the sugar motions and present in quasi whole vibrational spectra related to the right or left-handed double-helices (i.e., 1050 cm-1, 960 cm-1 and 890 cm-1). Moreover, the conformation dependent modes as those at 860 cm-1 and around 810 cm-1 (A form) as well as the one located around 830 cm-1 (B form) are interpreted by the present investigation. The possibility of the interaction of the latter modes with the phosphate group motions along the DNA double-helical chains are also discussed.

Published
1989
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19. Neocarzinostatin chromophore-DNA adducts: evidence for a covalent linkage to the oxidized C-5' of deoxyribose.

Author

Povirk LF and Goldberg IH

Subjects
Chemical Phenomena, Chemistry, Chromatography, High Pressure Liquid, Deoxyribose, Indicators and Reagents, Poly dA-dT, Antibiotics, Antineoplastic, DNA, Zinostatin
Abstract

The nonprotein chromophore of neocarzinostatin forms a variety of adducts with DNA. The predominant adduct recovered from nuclease digests of chromophore-treated poly(dA-dT). poly(dA-dT) is a compound with structure chromophore-d(TpApT). Mild acid hydrolysis of this compound released free adenine, while snake venom exonuclease (pH 6.5) released 5'-dTMP leaving in both cases adducts of slightly altered chromatographic mobility. These results eliminate adenine and 5'-dTMP as possible sites of covalent chromophore attachment. Electrophoresis data suggest that the adduct is not a phosphotriester. At pH 8.6, chromophore-d(TpApT) spontaneously hydrolyzed, releasing chromophore and 3'-dTMP, leaving a modified d(ApT) which contained deoxyadenosine-5'-aldehyde. Deoxyadenosine-5'-aldehyde was released from the modified d(ApT) by snake venom exonuclease, and identified by a series of derivatizations including 1) mild oxidation to deoxyadenosine-5'-carboxylic acid, 2) NaBH4 reduction to deoxyadenosine, and 3) formation of a hydrazone with phenylhydrazine. Since deoxyadenosine-5'-aldehyde cannot exist as such in the chromophore-d(TpApT) adduct, we suggest that the chromophore may be covalently attached to the C-5' of deoxyadenosine as a phosphorylacetal or similar structure. Hydrolysis of the chromophore-acetal bond at pH 8.6 would leave a phosphorylhemiacetal on C-5', which would be expected to spontaneously decompose to yield the observed 3'-phosphate and 5'-aldehyde groups.

Published
1982
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20. Spontaneous release of DNA by human blood lymphocytes as shown in an in vitro system.

Author

Anker P, Stroun M, and Maurice PA

Subjects
Cell Count, Cell Survival, Cells, Cultured, Centrifugation, DNA biosynthesis, DNA isolation & purification, Deoxyribonucleases, Deoxyribose, Humans, Molecular Weight, Nucleic Acid Hybridization, Spectrophotometry, Ultraviolet, Time Factors, DNA metabolism, Lymphocytes metabolism
Abstract

Human blood lymphocytes released DNA in vitro in the absence of any stimulation. Once purified from the complex appearing in the supernatant, this DNA exhibited typical characteristics as shown by its UV absorption curve, its deoxyribose coloration, and its sensitivity to DNase. Elution patterns on hydroxyapatite columns indicated that the excreted DNA is double stranded. The released DNA was smaller than the cellular DNA; its molecular weight ranged from 3.5 x 10(5) to 3.7 x 10(6) daltons. The DNA appearing in the supernatant does not seem to be due to dead or dying cells since: (a) the same amount of DNA was found in the medium whether the incubation lasted 2 hr or as long as 16 hr; (b) cell death rate had no effect on the amount of extracellular DNA; (c) when the lymphocytes were centrifuged and placed in a new medium several times in a row, a similar amount of extracellular DNA was isolated from each of the successive supernatants, whereas if, after centrifugation, the lymphocytes were put back in their original medium, no increase in the amount of extracellular DNA was observed, suggesting an active regulatory mechanism independent of a mechanical effect; (d) it took more than 1 hr for extracellular DNA to reach its maximum concentration, a fact that also argues against a mechanical effect; (e) the specific activity of the released DNA was different from that of the cellular DNA, depending on the time of labeling; and (f) the cells that had excreted DNA kept their functional integrity, as shown by their fully maintained capacity to increase DNA synthesis after stimulation. The extracellular DNA hybridized specifically with cellular DNA. The hybridization curves indicate that the DNA excreted is highly complex, and they suggest that it is composed of part of the newly synthesized DNA. The higher specific activity of the released DNA, compared with that of the cellular DNA after a long labeling period, can be explained only by a preferential release of the newly synthesized DNA.

Published
1975

21. Determination of internal dynamics of deoxyriboses in the DNA hexamer d(CGTACG)2 by 1H NMR.

Author

Lane AN and Forster MJ

Subjects
Base Sequence, Hydrogen, Magnetic Resonance Spectroscopy methods, Mathematics, Models, Molecular, Molecular Sequence Data, DNA, Deoxyribose, Models, Theoretical, Nucleic Acid Conformation, Oligodeoxyribonucleotides
Abstract

The conformations and internal dynamics of the deoxyriboses of d(CGTACG)2 have been determined by NMR measurements at 15 degrees C. The conformations of the sugars were determined using coupling constants and time-dependent NOE measurements. The J-splitting patterns of the H1', H2' and H2" resonances show that the sugars exist as mixtures of conformations near C2' endo (south) and C3' endo (north). The population of the south conformation was larger for the purines than for the pyrimidines. The overall tumbling time of the molecule in 2H2O was determined from measurements of the cross relaxation rate constant for the H6-H5 vectors of the two cytosine residues. Order parameters were determined for the H1'-H2", H2'-H2" and H2'-H3' vectors from measurements of cross relaxation rate constants, making use of multi-spin analysis of the NOE build up rates. These order parameters are weakly dependent of the base sequence, and except for the terminal Cyt 1 residue, the H2'-H2" and H2'-H3' vectors are near unity, indicating the absence of rapid pseudorotation on the nanosecond time scale. However, the order parameter for the H1'-H2" vector is significantly smaller than expected for rapid pseudorotation indicating the presence of other motions of the sugars. This motion must be about an effective axis parallel to the H2'-H2" vector, and to occur with an angular fluctuation of about 30 degrees. The results show that to obtain highly refined structures for nucleic acids by NMR the effects of spin diffusion and motional averaging cannot be ignored.

Published
1989
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22. Conformational characteristics of mixed sugar puckered deoxytetranucleoside triphosphate d-GpCpGpC from energy minimization studies.

Author

Anukanth A and Ponnuswamy PK

Subjects
Electronic Data Processing, Hydrogen Bonding, Phosphates, Thermodynamics, DNA, Deoxyribose, Nucleic Acid Conformation, Nucleotides
Abstract

As a continuation of our theoretical studies on nucleic acid subunit systems, in this article we consider the case of the tetranucleoside d-GpCpGpC, the minimally ideal representative unit for analyzing the relative stabilities of different forms of homo- and mixed helical conformation of polynucleotides. The four sugar rings are kept so as to generate B-genus, B+A genus and Z-genus conformations. Twenty five helical conformational states which resulted from judicious mixing of A-, B-, C-, W-, and Z-, states locally are subjected to energy minimization permitting the 19 dihedral angles to vary simultaneously. Conformational states corresponding to regular helical forms and mixed helical forms, when analyzed provide valuable information as to the local conformational flexibility and transitions available to polynucleotides.

Published
1989
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23. Conformational analysis of the deoxyribofuranose ring in DNA by means of sums of proton-proton coupling constants: a graphical method.

Author

Rinkel LJ and Altona C

Subjects
Computer Graphics, Magnetic Resonance Spectroscopy, Pentoses, Protons, Software, DNA, Deoxyribose, Nucleic Acid Conformation
Abstract

A graphical method is presented for the conformational analysis of the sugar ring in DNA fragments by means of proton-proton couplings. The coupling data required for this analysis consist of sums of couplings, which are referred to as sigma 1' (= J1'2' + J1'2''), sigma 2' (= J1'2' + J2'3' + J2'2''), sigma 2'' (= J1'2'' + J2''3' + J2'2'') and sigma 3' (= J2'3' + J2''3' + J3'4'). These sums of couplings correspond to the distance between the outer peaks of the H1', H2', H2'' and H3' [31P] resonances, respectively, (except for sigma 2' and sigma 2'' in the case of a small chemical shift difference between the H2' and H2'' resonances) and can often be obtained from 1H-NMR spectra via first-order measurement, obviating the necessity of a computer-assisted simulation of the fine structure of these resonances. Two different types of graphs for the interpretation of the coupling data are discussed: the first type of graph serves to probe as to whether or not the sugar ring occurs as a single conformer, and if so to analyze the coupling data in terms of the geometry of this sugar ring. In cases where the sugar ring does not occur as a single conformer, but as a blend of N- and S-type sugar puckers, the second type of graph is used to analyze the coupling data in terms of the geometry and population of the most abundant form. It is shown that the latter type of analysis can be carried out on the basis of experimental values for merely sigma 1',sigma 2' and sigma 2'', without any assumptions or restrictions concerning a relation between the geometry of the N- and S-type conformer. In addition, the question is discussed as to how insight can be gained into the conformational purity of the sugar ring from the observed fine structure of the H1' resonance. Finally, a comparison is made between experimental coupling data reported for single-stranded and duplex DNA fragments and covalent RNA-DNA hybrids on the one hand and the predicted couplings and sums of couplings presented in this paper on the other hand.

Published
1987
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24. Analysis of intrasugar interproton NOESY cross-peaks as an aid to determine sugar geometries in DNA fragments.

Author

Chary KV and Modi S

Subjects
Base Sequence, Magnetic Resonance Spectroscopy methods, Nucleic Acid Conformation, Oligodeoxyribonucleotides, DNA, Deoxyribose
Abstract

A systematic analysis of the conformation of deoxyribofuranose rings in DNA fragments has been described using two-dimensional nuclear Overhauser effect spectroscopy (2D NOESY). The approach is based on the interpretation of the intrasugar proton-proton distances which can be estimated using a low-mixing-time pure-absorption mode w1-scaled NOESY spectrum. The experimental distances are compared with the theoretical values calculated as a function of pseudorotation phase angle (P) describing the sugar geometries. The approach can be used as a complementary aid to J couplings for establishing sugar conformations in individual nucleotide units of DNA fragments. Using this strategy on d-ACATCGATGT, we observed that individual nucleotides exhibit O4'-endo sugar pucker. The results rule out possibilities of the existence of a fast equilibrium (on the NMR time scale) between C2'-endo (or S-domain) and C3'-endo (or N-domain) sugar puckers.

Published
1988
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25. Electron transfer oxidation of DNA radicals by paranitroacetophenone.

Author

Whillans DW and Adams GE

Subjects
DNA, Single-Stranded, Deoxyribose, Oxidation-Reduction, Pulse Radiolysis, Thymidine, Thymidine Monophosphate, Thymine, Acetophenones, DNA, Nitro Compounds, Radiation-Sensitizing Agents
Abstract

The reaction of a typical electron-affinic sensitizer, paranitroacetophenone (PNAP) with the model compounds thymine, thymidine, thymidylic acid, deoxyribose and single and double-stranded DNA has been investigated by pulse radiolysis. Radicals formed by one-electron reduction of the bases and of DNA react rapidly and efficiently with PNAP by electron transfer. A small yield of transfer (less than 10 per cent) is also observed arising from oxidation of the radicals formed by the small proportion of OH which react at the sugar moieties in DNA. In contrast, electron transfer oxidation by PNAP of radicals formed by the addition of OH to the base moieties, e.g. thymine, is not an efficient process. Further, addition of the sensitizer to the thymine OH-adduct proceeds at a rate that is too low to measure by pulse radiolysis. We conclude that, since the major sites of OH reaction with DNA are the heterocyclic bases (greater than 80 per cent), oxidation of the resultant radicals is unlikely to be a major step in the mechanism of sensitization by this typical hypoxic-cell sensitizer.

Published
1975
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26. NMR distance measurements in DNA duplexes: sugars and bases have the same correlation times.

Author

Reid BR, Banks K, Flynn P, and Nerdal W

Subjects
Base Sequence, Deoxyribonuclease EcoRI, Deoxyribose, Magnetic Resonance Spectroscopy methods, Molecular Sequence Data, Molecular Structure, Nucleic Acid Conformation, Polydeoxyribonucleotides, Protons, Purines, Pyrimidines, DNA
Abstract

To evaluate whether the sugar moieties of short DNA duplexes exhibit local motion of sufficient amplitude to affect interproton distance measurements, we have carried out a series of time-dependent NOESY experiments at increasingly shorter mixing times on dodecamer DNA duplexes. By use of the cytosine H5-H6 vector as a known distance in the bases and the geminal 2'H-2''H vector as a known distance in the sugars, the corresponding apparent cross-relaxation rates were sampled at various mixing times. While the ratio of the inverse sixth power of these two fixed distances is in the range 6-7, when the system is sampled at 100 ms the apparent initial rate of growth of the 2'H-2''H NOESY crosspeak is only 1.9-2.0 times faster than that of the H5-H6 crosspeak--in agreement with the results of Clore and Gronenborn [Clore, G. M., & Gronenborn, A. M. (1984) FEBS Lett. 172, 219; (1984) FEBS Lett. 175, 117] and of Gronenborn and Clore [Gronenborn, A. M., & Clore, G. M. (1985) Prog. NMR Spectrosc. 17, 1]. This observation was interpreted to indicate the existence of internal mobility with a 3-fold shorter correlation time for the sugar moieties in DNA and led to the use of this shorter correlation time to estimate sugar-sugar proton distances and many sugar-base proton distances in subsequent DNA structure determination. We have examined 2'H-2"H cross-relaxation and H5-H6 cross-relaxation at 100, 90, 60, 30, and 15 ms in dodecamer DNA duplexes.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1989
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30. Iron-dependent free radical damage to DNA and deoxyribose. Separation of TBA-reactive intermediates.

Author

Gutteridge JM and Toeg D

Subjects
Animals, Cattle, Chemical Phenomena, Chemistry, Free Radicals, Isoenzymes, Peroxidase, Peroxidases, Thiobarbiturates, Xanthine Oxidase, DNA, Deoxyribose, Iron
Abstract

1. Iron-dependent free radical damage to DNA and deoxyribose results in the formation of thiobarbituric acid (TBA) reactive intermediates. 2. These intermediates have been compared chromatographically and spectrophotometrically after incubation with the enzymes xanthine oxidase and peroxidase. 3. Loss of TBA-reactivity occurred in the bleomycin-iron(II) derived products incubated with xanthine oxidase and in a standard solution of sodium malondialdehyde incubated with peroxidase.

Published
1982
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31. Oxidative damage to DNA and deoxyribose by beta-lactam antibiotics in the presence of iron and copper salts.

Author

Quinlan GJ and Gutteridge JM

Subjects
Catalase, Indicators and Reagents, Oxidation-Reduction, Superoxide Dismutase, Thiobarbiturates, beta-Lactams, Anti-Bacterial Agents, Copper, DNA, DNA Damage, Deoxyribose, Iron
Abstract

beta-lactam antibiotics in the presence of certain metal ions damage deoxyribose and DNA with the release of thiobarbituric acid-reactive material. This damage can be substantially prevented by catalase, metal chelators and some scavengers of the hydroxyl radical. Ferric salts in the presence of certain beta-lactam antibiotics were effective in degrading deoxyribose but they did not appear to damage DNA. In contrast copper salts and beta-lactam antibiotics were extremely effective in damaging both DNA and deoxyribose.

Published
1988
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32. Covalent adducts of DNA and the nonprotein chromophore of neocarzinostatin contain a modified deoxyribose.

Author

Povirk LF and Goldberg IH

Subjects
Chemical Phenomena, Chemistry, Deoxyribose, Antibiotics, Antineoplastic, DNA, Zinostatin
Abstract

When the nonprotein chromophore of neocarzinostatin was allowed to react with either calf thymus DNA or poly(dA-dT) . poly(dA-dT) in the presence of 2-mercaptoethanol and the DNA was precipitated with ethanol, 5% of the fluorescence attributable to the naphthalene rings of the chromophore coprecipitated with the DNA. Most of this fluorescence remained attached to DNA through successive reprecipitations, suggesting formation of covalent adducts between chromophore and DNA. Enzymatically digested poly(dA-dT) . poly(dA-dT)-chromophore adduct contained, in addition to deoxyadenosine and thymidine, several highly fluorescent hydrophobic products, separable by reverse-phase chromatography, all of which contained both adenine and thymine radiolabel, as well as chromophore radiolabel. One such product consistently had twice as much thymine as adenine, suggesting a structure chromophore-d(TpApT), in which the attached chromophore rendered both phosphodiester bonds refractory to endonuclease S1. This adduct fragment was completely hydrolyzed at pH 12, releasing adenine, 3'-dTMP, and 5'-dTMP. At pH 7, the adduct fragment slowly released chromophore and 3'-dTMP with parallel kinetics, leaving a modified d(ApT), which was cleaved by snake venom phosphodiesterase to yield 5'-dTMP and a modified deoxyadenosine. These hydrolysis patterns are unlike those of any previously characterized base or phosphotriester DNA adduct but rather indicate an altered deoxyadenosine sugar. The formation of adducts containing a modified deoxyribose suggests that deoxyribose may be the site of covalent chromophore attachment. Alteration of this same site, possibly the 5'-carbon of the sugar moiety, may account for the extreme lability of the phosphodiester bond.

Published
1982
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33. Conformational characteristics of mixed sugar puckered deoxydinucleoside triphosphate units d-pCpGp and d-pGpCp from energy minimization studies.

Author

Ponnuswamy PK and Anukanth A

Subjects
Hydrogen Bonding, Thermodynamics, DNA, Deoxyribonucleotides, Deoxyribose, Dinucleoside Phosphates, Nucleic Acid Conformation
Abstract

The deoxydinucleoside triphosphate units d-pCpGp and d-pGpCp were subjected to a rigorous theoretical investigation with a view to describing their distinctive conformational characteristics. For each unit 216 probable three-dimensional forms defined by the backbone-base dihedral angles and sugar pucker modes were considered for conformational energy minimization process and scrutinized with reference to properties, such as base-stacking, hydrogen-bonding, internal flexibility and base sequence-phosphate influence. The P-O bond torsions and the phosphate groups were treated with special attention. The results reveal a number of preferred conformational states other than the known helical forms, such as, A-, B-, C-, Z-, and Watson-Crick conformation. Many interesting one-step (change in only one of the dihedral angles or sugar puckers) conformational transitions which involve just about a kcal/mol of energy came to light. The two base sequences CG and GC were noted to differ strikingly in many of their conformational characteristics.

Published
1989
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34. Radiomimetic radical production.

Subjects
Anions, Chemical Phenomena, Chemistry, Physical, Deoxyribose, Deuterium, Free Radicals, Hydrogen, Noble Gases, Nucleosides, Purines, Pyrimidines, Ribose, DNA
Published
1978
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35. Conformational flexibility of the furanose ring in DNA and its dipole moment.

Author

Pechenaya VI

Subjects
Electrochemistry, Nucleic Acid Conformation, DNA, Deoxyribose, Pentoses
Abstract

The influence of conformational rearrangement of the furanose ring in DNA on its dipole moment is studied. The dipole moment of the deoxyribose molecule as a function of its puckered state is calculated by the quantum-mechanical method using the MINDO/3 approximation. The values of the dipole moment and its components are obtained at various magnitudes of the pseudorotation phase angle. The C3'-endo in equilibrium C2'-endo conformational transition of deoxyribose is shown to be accompanied by the change in the dipole moment up to 3D. The results obtained are used to explain the structural properties of the DNA hydration shell.

Published
1989
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38. Competition between anaerobic covalent linkage of neocarzinostatin chromophore to deoxyribose in DNA and oxygen-dependent strand breakage and base release.

Author

Povirk LF and Goldberg IH

Subjects
Dithiothreitol, Oxygen, Poly dA-dT, Sulfhydryl Compounds, Antibiotics, Antineoplastic, DNA, Deoxyribose, Zinostatin
Abstract

Treatment of poly(dA-dT) X poly(dA-dT) with the nonprotein chromophore of neocarzinostatin in the presence of sulfhydryls resulted in both direct and alkali-dependent base release, indicative of DNA sugar oxidation. Covalent chromophore-DNA adducts were also formed. Under anaerobic conditions, base release was strongly inhibited; however, adduct formation was not inhibited and in some cases was markedly enhanced. In the presence of dithiothreitol, anoxia increased adduct formation by a factor of 2, and a particularly stable adduct species was formed, which was recovered from nuclease digests of the treated DNA as a highly fluorescent compound with structure chromophore-d(TpApT). Acid hydrolysis of chromophore-d(TpApT) released free adenine base and both 3'dTMP and 5'dTMP, leaving a compound that contained only chromophore and the deoxyadenosine sugar. These results conclusively confirm that the chromophore forms a covalent adduct with deoxyribose in DNA. Thus, even in the absence of oxygen, activation of the chromophore by sulfhydryls results in the formation of a species capable of reacting with deoxyribose. Several other adduct species were also formed, some of which were nonfluorescent and relatively hydrophilic, but all of which were produced in increased amounts under anoxia. This inverse relation between sugar oxidation and adduct formation suggests that the two lesions share a common precursor. In the presence of other thiols, the effects of anoxia were somewhat different. With glutathione, anoxia markedly enhanced adduct formation, but the total adduct formed was considerably less than with dithiothreitol. With 2-mercaptoethanol, anoxia had no effect on total adduct formation, but the distribution of adduct species was altered.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1984
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39. DNA stem-loop structures in oligopurine-oligopyrimidine triplexes.

Author

Harvey SC, Luo J, and Lavery R

Subjects
Deoxyribose, Models, Molecular, Structure-Activity Relationship, Thermodynamics, DNA, Nucleic Acid Conformation, Purine Nucleotides, Pyrimidine Nucleotides
Abstract

Closed circular DNA containing polypurine-polypyrimidine sequences can adopt a triple helical stem-loop structure under supercoiling pressure. We describe an automated procedure for building model loops and its application to the investigation of the polypyrimidine loop at the end of such a triple helical stem. All possible combinations of 3'-stacked and 5'-stacked structures have been examined for loops containing three, four, five, and six nucleotides. The lowest energy conformation is a four-membered loop with all bases stacked on the strand at the 3' end of the loop. The model predicts that sequences (GA)n, (GGGA)n and (GAAA)n should form the stem-loop structure more easily than (GGA)n and (GAA)n. It is also predicted that when a polypurine-polypyrimidine sequence converts from a double stranded structure to a triple stranded stem-loop, the most favorable conditions are those where an even number of basepairs makes the transition. Experimental tests of these predictions are also described.

Published
1988
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40. Determination of the DNA sugar pucker using 13C NMR spectroscopy.

Author

Santos RA, Tang P, and Harbison GS

Subjects
Animals, Cattle, Deoxyadenosines, Deoxycytidine, Magnetic Resonance Spectroscopy, Nucleic Acid Conformation, DNA, Deoxyribose
Abstract

Solid-state 13C NMR spectroscopy of a series of crystalline nucleosides and nucleotides allows direct measurement of the effect of the deoxyribose ring conformation on the carbon chemical shift. It is found that 3'-endo conformers have 3' and 5' chemical shifts significantly (5-10 ppm) upfield of comparable 3'-exo and 2'-endo conformers. The latter two conformers may be distinguished by smaller but still significant differences in the carbon chemical shifts at the C-2' and C-4' positions. High-resolution solid-state NMR of three modifications of fibrous calf thymus DNA shows that these trends are maintained in high-molecular-weight DNA and confirms that the major ring pucker in A-DNA is 3'-endo, while both B-DNA and C-DNA are largely 2'-endo. The data show that 13C NMR spectroscopy is a straightforward and useful probe of DNA ring pucker in both solution and the solid state.

Published
1989
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42. Internal motions in DNA.

Author

Hogan ME and Jardetzky O

Subjects
Deoxyribose, Magnetic Resonance Spectroscopy, Models, Theoretical, Molecular Weight, Motion, Phosphates, Temperature, DNA physiology, Nucleic Acid Conformation
Abstract

We have measured the 31P and 1H NMR parameters of fractionated double-stranded DNA fragments 600, 300, and 150 base pairs long. The results indicate that, inside an intact double helix, both the deoxyribose and the sugar-phosphate backbone of the helix fluctuate substantially from their equilibrium geometry. The time constant for those coupled motions is of the order of 1 nsec.

Published
1979
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43. Coherence transfer in deoxyribose sugars produced by isotropic mixing: an improved intraresidue assignment strategy for the two-dimensional NMR spectra of DNA.

Author

Flynn PF, Kintanar A, Reid BR, and Drobny G

Subjects
Base Sequence, Hydrogen, Kinetics, Magnetic Resonance Spectroscopy methods, Nucleic Acid Conformation, DNA, Deoxyribose, Oligodeoxyribonucleotides
Abstract

Two-dimensional isotropic mixing spectroscopy has been used to confirm assignments of the deoxyribose sugar protons in the H NMR spectrum of the DNA oligonucleotides d(CGCGTTTTCGCG) and [d(GCCGTGGCCACGGC)]2. The broad-band decoupling sequence MLEV-16 was applied during the mixing period to induce isotropic coupling within the spin systems, resulting in net transfer of coherence throughout the coupled spin networks. Nearly all 1', 2', 2'', 3', and 4' protons of a given nucleotide could be identified on the basis of through-bond scalar connectivities. In addition, in the hairpin, a number of connectivities to 5'/5'' protons were found. The dependence of cross-peak intensity on the length of radio-frequency irradiation for several different coherence transfer orders is presented, and implications for optimization are discussed.

Published
1988
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