1006591-06-5Relevant academic research and scientific papers
Optically switchable chelates: Optical control and sensing of metal ions
Sakata, Tomoyo,Jackson, David K.,Mao, Shu,Marriott, Gerard
, p. 227 - 233 (2008/09/18)
(Chemical Equation Presented) This study introduces new concepts in the design, synthesis, and in vitro and in vivo characterization, manipulation, and imaging of organic chelates whose association with metal ions is rapidly and reversibly controlled by using light. Di- and tricarboxylic group bearing photochromes, nitrobenzospiropyran (nitroBIPS), undergo rapid and reversible, optically driven transitions between their spiro (SP) and fluorescent merocyanine (MC) states. The MC state of nitroBIPS-8-DA binds tightly to various metal ions resulting in specific shifts in absorption and fluorescence, and the dissociation constant for its Gadolinium complex in water is measured at ~5 μM. The metal-bound MC state is converted to the weaker-binding SP state with use of 543 nm light, while the SP to MC transition is complete with use of 365 or 720 nm (2-photon) light within several microseconds. Fluorescence imaging of the MC state of nitroBIPS-8-TriA was used to quantify the rate and efficiency of optical switching and to provide a real-time readout of the state of the optically switchable chelate within living cells.
PHOTOCHROMIC PROBES
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Page/Page column 60; 61, (2008/06/13)
The present invention provides photochromic compounds and derivatives thereof as shown in claim 1 and methods of use of these compounds and derivatives. The present invention also provides photochromic optical probes capable of undergoing light directed r
