Celina Gwizdala scite author profile

Two generations of nitrobenzhydrol-based photocages for Zn(2+) have been prepared and characterized. The first series includes the tridentate ZinCast-1 utilizes a bis-pyridin-2-ylmethyl-aniline ligand that forms a 5,5-chelate ring upon metal binding. The related photocages ZinCast-2 with a N-[2-(pyridine-2-yl)ethyl]-N-(pyridine-2-ylmethyl)aniline (5,6-chelate ring) and ZinCast-3 with a N,N-bis[2-(pyridine-2-yl)ethyl]aniline (6,6-chelate ring) were synthesized for comparative studies. The complexes formed by the ions Cu(2+), Zn(2+) and Cd(2+) with three ZinCast and their photoproducts (ZinUnc) were interrogated by UV-Vis spectroscopy. The studies indicate that ZinCast-1 forms complexes of the highest stability and ZinCast-3 exhibits the most significant changes in metal affinity upon uncaging. These results suggest that the changes in nitrogen atom donor ability as well as the initial complex stability must be considered to design a photocage with the desired properties. The composite results were used to design ZinCast-4 and ZinCast-5, the second generation photocages that incorporate an additional adjacent ether ligand into the Zn(2+) chelator.

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Methods for Preparing Metal Ion Photocages: Application to the Synthesis of CrownCast

Kennedy

Gwizdala

Burdette

2009

Org. Lett.

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Following the Ca2+ roadmap to photocaged complexes for Zn2+ and beyond

Gwizdala

Burdette

2013

Current Opinion in Chemical Biology

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Increasing the Dynamic Range of Metal Ion Affinity Changes in Zn²⁺ Photocages Using Multiple Nitrobenzyl Groups

et al. 2013

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Two generations of DiCast photocages that exhibit light-induced decreases in metal ion affinity have been prepared and characterized. Expansion of the common Zn(2+) chelator of N,N-dipicolylaniline (DPA) to include additional aniline ligand provides N,N'-diphenyl-N,N'-bis(pyridin-2-ylmethyl)ethane-1,2-diamine, a tetradentate ligand that was functionalized with two photolabile groups to afford DiCast-1. Uncaging of the nitrobenzhydrol reduces the electron density on two metal-bound aniline ligands, which decreases the Zn(2+) affinity 190-fold. The analogous MonoCast photocage with a single nitrobenzhydrol group only undergoes a 14-fold reduction in affinity after an identical photochemical transformation. A second series of DiCast photocages based on a N,N'-(pyridine-2,6-diylbis(methylene))dianiline scaffold, which allows the introduction of two additional Zn(2+)-binding ligands into a preorganized chelator, expand on the multi-photolabile group strategy. DiCast-2 includes two pyridine ligands while DiCast-3 adds two carboxylate groups. Addition of bridging pyridine to the second generation photocages leads to more stable Zn(2+) complexes, and photolysis of two photolabile groups increases the Zn(2+) affinity changes to 480-fold. The Zn(2+), Cu(2+), and Cd(2+) binding properties were examined in all the DiCast photocages and the corresponding photoproducts using UV-vis spectroscopy. Further insight into the photocage Zn(2+)-binding motifs was obtained by X-ray analysis of DiCast-2 and DiCast-3 model ligands.

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Celina Gwizdala

ZinCast-1: a photochemically active chelator for Zn2+

Quantifying factors that influence metal ion release in photocaged complexes using ZinCast derivatives

Methods for Preparing Metal Ion Photocages: Application to the Synthesis of CrownCast

Following the Ca2+ roadmap to photocaged complexes for Zn2+ and beyond

Increasing the Dynamic Range of Metal Ion Affinity Changes in Zn²⁺ Photocages Using Multiple Nitrobenzyl Groups

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Celina Gwizdala

ZinCast-1: a photochemically active chelator for Zn2+

Quantifying factors that influence metal ion release in photocaged complexes using ZinCast derivatives

Methods for Preparing Metal Ion Photocages: Application to the Synthesis of CrownCast

Following the Ca2+ roadmap to photocaged complexes for Zn2+ and beyond

Increasing the Dynamic Range of Metal Ion Affinity Changes in Zn2+ Photocages Using Multiple Nitrobenzyl Groups

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Product

Resources

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Increasing the Dynamic Range of Metal Ion Affinity Changes in Zn²⁺ Photocages Using Multiple Nitrobenzyl Groups