To investigate cytosine protonation and its influence on the sequence-dependent thermal stability of DNA triplexes in detail, we have employed homo- and heteronuclear NMR experiments on specifically (15)N-labeled oligodeoxynucleotides that were designed to fold into intramolecular triple helices of the pyrimidine motif under appropriate conditions. These experiments reveal that cytosines in central positions of the triplex are significantly protonated even at neutral pH. However, semiprotonation points for individual cytosine bases as determined from pH-dependent measurements show considerable differences depending on their position. Thus, protonation is disfavored for adjacent cytosines or for cytosines at the triplex termini, resulting in a smaller contribution to the overall free energy of the triple helical system. In contrast, protonation of the base upon substitution of 5-methylcytosine for cytosine in the triplex third strand is only affected to a minor extent, and triplex stabilization by the methyl substituent is shown to primarily arise from stacking energies and/or hydrophobic effects.
Background: A reliable prediction of the Xaa-Pro peptide bond conformation would be a useful tool for many protein structure calculation methods. We have analyzed the Protein Data Bank and show that the combined use of sequential and structural information has a predictive value for the assessment of the cis versus trans peptide bond conformation of Xaa-Pro within proteins. For the analysis of the data sets different statistical methods such as the calculation of the Chou-Fasman parameters and occurrence matrices were used. Furthermore we analyzed the relationship between the relative solvent accessibility and the relative occurrence of prolines in the cis and in the trans conformation.
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