Your search keyword '"Schmidt, Olivia P"' showing total 2 results

1. Concerted dynamics of metallo-base pairs in an A/B-form helical transition

Author

Schmidt, Olivia P, Jurt, Simon, Johannsen, Silke, Karimi, Ashkan, Sigel, Roland K O, Luedtke, Nathan W, University of Zurich, and Luedtke, Nathan W

Subjects

Models, Molecular, 10120 Department of Chemistry, Proton Magnetic Resonance Spectroscopy, Science, General Physics and Astronomy, 1600 General Chemistry, Genetics and Molecular Biology, DNA, A-Form, Article, Cytosine, 1300 General Biochemistry, Genetics and Molecular Biology, Biophysical chemistry, 540 Chemistry, lcsh:Science, Base Pairing, DNA, Mercury, General Chemistry, 3100 General Physics and Astronomy, Solutions, Metals, General Biochemistry, Nucleic Acid Conformation, lcsh:Q, DNA, B-Form, Solution-state NMR, Thymine

Abstract

Metal-mediated base pairs expand the repertoire of nucleic acid structures and dynamics. Here we report solution structures and dynamics of duplex DNA containing two all-natural C-HgII-T metallo base pairs separated by six canonical base pairs. NMR experiments reveal a 3:1 ratio of well-resolved structures in dynamic equilibrium. The major species contains two (N3)T-HgII-(N3)C base pairs in a predominantly B-form helix. The minor species contains (N3)T-HgII-(N4)C base pairs and greater A-form characteristics. Ten-fold different 1J coupling constants (15N,199Hg) are observed for (N3)C-HgII (114 Hz) versus (N4)C-HgII (1052 Hz) connectivities, reflecting differences in cytosine ionization and metal-bonding strengths. Dynamic interconversion between the two types of C-HgII-T base pairs are coupled to a global conformational exchange between the helices. These observations inspired the design of a repetitive DNA sequence capable of undergoing a global B-to-A-form helical transition upon adding HgII, demonstrating that C-HgII-T has unique switching potential in DNA-based materials and devices., Metal-mediated base pairs expand the repertoire of nucleic acid structures and dynamics. Here, the authors prepared a metallo-DNA duplex including two C-Hg(II)-T base pairs separated by six normal Watson-Crick base pairs and investigated its solution structure and dynamics using NMR spectroscopy.

Published

2019

2. Fluorescent Base Analogue Reveals T-HgII-T Base Pairs Have High Kinetic Stabilities That Perturb DNA Metabolism

Author

Schmidt, Olivia P, Mata, Guillaume, Luedtke, Nathan W, University of Zurich, and Luedtke, Nathan W

Subjects

10120 Department of Chemistry, 1303 Biochemistry, 1503 Catalysis, 540 Chemistry, 1600 General Chemistry, 1505 Colloid and Surface Chemistry

Published

2016