Publications by authors named "C F Fuqua"
Red-light absorbing photoredox catalysts offer potential advantages for large-scale reactions, expanding the range of usable substrates and facilitating bio-orthogonal applications. While many red-light absorbing/emitting fluorophores have been developed recently, functional red-light absorbing photoredox catalysts are scarce. Many photoredox catalysts rely on long-lived triplet excited states (triplets), which can efficiently engage in single electron transfer (SET) reactions with substrates.
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- π-Extended BODIPY compounds are effective fluorophores emitting in the red or near-infrared range, making them useful for various scientific applications like materials science and biomedical imaging.
- The study investigates dibenzo-fused BODIPY as a red photoredox catalyst by adding an electron donor group, focusing on the synthesis and photophysical properties of different donor-acceptor configurations.
- Research reveals how structural changes, specifically methyl groups and bridge length, influence the rates of photoinduced electron transfer, ultimately impacting their effectiveness in reactions like atom transfer radical addition.
We describe the syntheses of monapterin, dihydromonapterin and tetrahydromonapterin in optically active forms. The syntheses involved the condensation of l-xylose with phenylhydrazine, providing a hydrazone derivative. The reaction of the resulting hydrazone with triamino-pyrimidinone followed by oxidation of the resulting pteridinone with molecular oxygen furnished pterin containing a hydroxylated side chain.
View Article and Find Full Text PDFBiofilm formation and surface attachment in multiple Alphaproteobacteria is driven by unipolar polysaccharide (UPP) adhesins. The pathogen produces a UPP adhesin, which is regulated by the intracellular second messenger cyclic diguanylate monophosphate (c-di-GMP). Prior studies revealed that DcpA, a diguanylate cyclase-phosphodiesterase, is crucial in control of UPP production and surface attachment.
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