Bozidar Jerkovic scite author profile

Oligodeoxynucleotides modified site-specifically with cis-thymine glycol or urea residue, two ionizing radiation/oxidation damages, were used as templates in primer extension reactions catalyzed by 3' --> 5' exonuclease-deficient Klenow fragment, human DNA polymerase beta, AMV reverse transcriptase, and a modified T7 DNA polymerase (Sequenase). Both lesions blocked DNA replication one nucleotide before and opposite the lesion site, but a significant fraction of full-length product was obtained after prolonged incubation. Hill plot analysis of the results on both thymine glycol- and urea- containing templates by 3' --> 5' exonuclease-deficient Klenow fragment for incorporation of either dATP or dGTP gave linear plots with Hill coefficients much less than 1. This suggests that the dNTP concentration influences the termination of DNA synthesis at multiple steps of the catalytic process. The specificity of nucleotide incorporation opposite these lesions and chain extension by the same polymerase was determined by a steady-state kinetic analysis. The kinetic studies established that the rate of nucleotide incorporation and chain extension was highest with deoxyadenosine opposite both these lesions. However, the efficiency of forming a G.T pair relative to an A.T pair for the control at a level of 1/10(9) was enhanced to approximately 1/160 for thymine glycol and 1/20 for urea, although the former lesion was more bypassable than the latter lesion. On the basis of these in vitro results, we conclude that both these DNA damages are impediments of DNA synthesis and that a urea residue, in particular, has the potential to miscode.

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Damage increases the flexibility of duplex DNA

Marathias¹,

Jerkovic²,

Bolton³

1999

Nucleic Acids Research

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It is proposed that much of the recognition of specific types of damaged DNAs is based on accessible structural features, while much of the recognition of damaged DNAs, as a class, is based on flexibility. The more flexible a DNA the faster its diffusion rate. The diffusion rates of each member of a series of damaged duplex DNAs has been found to be significantly faster than that of the corresponding undamaged duplex DNA. The damaged sites studied include apurinic and apyrimidinic a basic sites, thymine glycol and urea. The presence of mismatched sites also increases the diffusion. Thus, damaged DNAs appear to have sufficient flexibility for recognition and the flexibility may allow damaged sites to act as a universal joint or hinge that allows distant sites on the DNA to come together.

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Magnesium Increases the Curvature of Duplex DNA That Contains dA Tracts

Jerkovic

Bolton

2001

Biochemistry

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Distinct structural features of DNA, such as the curvature of dA tracts, are important in the recognition, packaging, and regulation of DNA. Physiologically relevant concentrations of magnesium have been found to enhance the curvature of dA tract DNAs, as monitored by solution-state NMR, indicating that the structure of DNA depends on the cations present in solution. A model is presented which accounts for the sequence-dependent effects of magnesium on DNA curvature as well as for the previously known sequence-independent effect on DNA flexibility.

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Flexibility and Curvature of Duplex DNA Containing Mismatched Sites as a Function of Temperature

et al. 1999

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The flexibility and curvature of duplex DNAs containing mismatched sites have been monitored as a function of temperature. The diffusion coefficients are dependent on the flexibility and the curvature of the DNA, and these have been determined by NMR-based methods. The diffusion coefficients, D, depend on a Boltzmann term and the viscosity of the solvent, eta, which is also temperature dependent. To analyze the temperature dependence of the diffusion results, the shape function, S(f) = etaD/T, is used. The shape functions do not have the viscosity and temperature dependence of the diffusion coefficients. The presence of mismatched sites significantly enhances the shape function of duplex DNA at all temperatures examined. The observed increases in the shape functions are attributed to the mismatched sites acting as localized flexible joints. The results on the temperature dependence of the shape functions, the optical absorbance, and the proton chemical shifts indicate that local melting at, and adjacent to, mismatched site occurs at a lower temperature than the overall melting of the duplexes. The localized melting gives rise to a considerable increase in the shape function. The contribution of the curvature of the mismatched sites to the enhanced diffusion has been examined. A DNA with mismatches that are in phase with respect to the helical repeat and a DNA which has the mismatches out of phase with respect to the helical repeat have been examined. The results indicate that mismatched sites have modest curvature.

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