Frances-Camille S. Padlan scite author profile

Frances-Camille S. Padlan

2Publications

1Citation Statement Received

12Citation Statements Given

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Affiliations

Albert Einstein College of Medicine

Publications

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Structural Insight into Protein Recognition by RNA Aptamers

Padlan

Girvin

Brenowitz

et al. 2013

Biophysical Journal

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We conclude that the two strands are effectively stapled together through a large number of weak bonds involving T4 ligase. The absence of a similarly strong transformation of DNA in free solution points towards the necessity of parallel pre-alignment through the nanotube. We point to the fact that the formation of hairpins and the 1-d scanning of strands past each other solves the kinetic problem of forming a loop in a maze-like environment.

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Monitoring Equilibrium Changes in RNA Structure by 'Peroxidative' and 'Oxidative' Hydroxyl Radical Footprinting

Bachu

Padlan

Rouhanifard

et al. 2011

JoVE

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RNA molecules play an essential role in biology. In addition to transmitting genetic information, RNA can fold into unique tertiary structures fulfilling a specific biologic role as regulator, binder or catalyst. Information about tertiary contact formation is essential to understand the function of RNA molecules. Hydroxyl radicals (•OH) are unique probes of the structure of nucleic acids due to their high reactivity and small size. 1 When used as a footprinting probe, hydroxyl radicals map the solvent accessible surface of the phosphodiester backbone of DNA 1 and RNA 2 with as fine as single nucleotide resolution. Hydroxyl radical footprinting can be used to identify the nucleotides within an intermolecular contact surface, e.g. in DNA-protein 1 and RNA-protein complexes. Equilibrium 3 and kinetic 4 transitions can be determined by conducting hydroxyl radical footprinting as a function of a solution variable or time, respectively. A key feature of footprinting is that limited exposure to the probe (e.g., 'single-hit kinetics') results in the uniform sampling of each nucleotide of the polymer. 5 In this video article, we use the P4-P6 domain of the Tetrahymena ribozyme to illustrate RNA sample preparation and the determination of a Mg(II)-mediated folding isotherms. We describe the use of the well known hydroxyl radical footprinting protocol that requires H2O2 (we call this the 'peroxidative' protocol) and a valuable, but not widely known, alternative that uses naturally dissolved O2 (we call this the 'oxidative' protocol). An overview of the data reduction, transformation and analysis procedures is presented.

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