2007
DOI: 10.1002/cbic.200700030
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Monovalent Ion Dependence of Neomycin B Binding to an RNA Aptamer Characterized by Spectroscopic Methods

Abstract: Understanding the interactions of small molecules like antibiotics with RNA is a prerequisite for the development of novel drugs. In this study we address structural and thermodynamic features of such interactions by using a simple model system: the binding of the highly charged antibiotic neomycin B to a short hairpin RNA molecule. Nucleotide A16, which acts as a flap over the neomycin B binding pocket, was substituted by the fluorescent adenine analogue 2-aminopurine (2-AP). Steady-state and time-resolved fl… Show more

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Cited by 26 publications
(38 citation statements)
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“…1). Applying polyelectrolyte theory by the following linear relationship: logK a = logK 0 − mψlog [I], where K a is the measured association constant, K 0 is the limiting equilibrium constant, m is the number of ion pairs formed between drug and host RNA, and ψ is the thermodynamic counter-ion binding parameter for the host RNA (Stampfl et al 2007), resulted in the prediction of up to two ionic contacts involved in the binding of ribostamycin by NEO1A and up to three ionic contacts in the paromomycin-NEO1A interaction. For neomycin-B binding the nonlinear relation suggests that the aptamer shifts in its interaction mode with [I] of the buffer.…”
Section: Resultsmentioning
confidence: 99%
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“…1). Applying polyelectrolyte theory by the following linear relationship: logK a = logK 0 − mψlog [I], where K a is the measured association constant, K 0 is the limiting equilibrium constant, m is the number of ion pairs formed between drug and host RNA, and ψ is the thermodynamic counter-ion binding parameter for the host RNA (Stampfl et al 2007), resulted in the prediction of up to two ionic contacts involved in the binding of ribostamycin by NEO1A and up to three ionic contacts in the paromomycin-NEO1A interaction. For neomycin-B binding the nonlinear relation suggests that the aptamer shifts in its interaction mode with [I] of the buffer.…”
Section: Resultsmentioning
confidence: 99%
“…RNA aptamers that specifically bound to neomycin-B over paromomycin were identified by in vitro selection (Wallis et al 1995) and this aptamer-ligand interaction has been studied intensively (Wallis and Schroeder 1997;Cowan et al 2000;de-los-Santos-Alvarez et al 2007Stampfl et al 2007). With the intent to use NEO1A in synthetic biology applications that would require that the aptamer be functional in the cell cytoplasm, we examined the interaction of NEO1A with its ligands in Buffer A that emulates the free ion concentrations of the mammalian cell cytoplasm.…”
Section: Discussionmentioning
confidence: 99%
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“…4,5 In their most recent work, Herrmann and co-workers relied on an RNA structure that was generated by another molecular biology tool, namely a SELEX experiment (Systematic Evolu tion of Ligands by EXponential Enrichment). 6 This RNA aptamer binds the aminoglycoside antibiotic neomycin B (1) that contains six amino and seven hydroxyl groups (Figure 1). Andreas Bastian, the PhD student working on the aptameric protective group project, mentions: "After searching the literature for suitable aptamers for our new approach, I immediately realized that this was the right one.…”
mentioning
confidence: 99%