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Allosteric Regulation in Carbon Monoxide (CO) Release: Anion Responsive CO-Releasing Molecule (CORM) Derived from (Terpyridine)phenol Manganese Tricarbonyl Complex with Colorimetric and Fluorescence Monitoring.

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A new CO-releasing terpyridine based manganese(I) tricarbonyl complex, [MnBr(CO)3(terpy-C6H4OH)] (1·Mn-OH) functioning via light has been reported. For the first time, we have demonstrated the allosteric regulation concept to control the… Click to show full abstract

A new CO-releasing terpyridine based manganese(I) tricarbonyl complex, [MnBr(CO)3(terpy-C6H4OH)] (1·Mn-OH) functioning via light has been reported. For the first time, we have demonstrated the allosteric regulation concept to control the CO-releasing properties of a CO-releasing molecule (CORM). Fluoride ion is reported to function as an allosteric activator to control the rate of CO release in the CORM. Complex 1·Mn-OH represents an interesting new class of CO-releasing system that releases CO upon irradiation with blue light (410 nm) over a period of 40 min with the half-time of 9.8 min. Fluoride ion selectively binds to the phenol moiety of the complex through hydrogen bonding and deprotonates to phenolate with a color change. Interestingly in the presence of fluoride ion, the rate of CO release is fast with the half-time of less than a minute. The rate of CO release is allosterically regulated by fluoride anion and can be monitored through a color change, fluorescence, and absorption based spectral changes along with IR studies and myoglobin assay.

Keywords: allosteric regulation; manganese tricarbonyl; releasing molecule; tricarbonyl complex; corm; release

Journal Title: Inorganic chemistry
Year Published: 2019

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