Monica Caselli scite author profile

An ad hoc bioconjugation/fluorescence resonance energy transfer (FRET) assay has been designed to spectroscopically monitor the quaternary state of human thymidylate synthase dimeric protein. The approach enables the chemoselective engineering of allosteric residues while preserving the native protein functions through reversible masking of residues within the catalytic site, and is therefore suitable for activity/oligomerization dual assay screenings. It is applied to tag the two subunits of human thymidylate synthase at cysteines 43 and 43 0 with an excitation energy donor/acceptor pair. The dimer-monomer equilibrium of the enzyme is then characterized through steady-state fluorescence determination of the intersubunit resonance energy transfer efficiency.

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Rotamerism in 2,2′-binaphthyl. A study based on fluorescence analysis and CS-INDO/CI calculations

Baraldi¹,

Bruni²,

Caselli³

et al. 1989

J. Chem. Soc., Faraday Trans. 2

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Consequences of H-dimerization on the photophysics and photochemistry of oxacarbocyanines

Caselli

Latterini

Ponterini

2004

Phys. Chem. Chem. Phys.

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Optical and photophysical properties of anisole- and cyanobenzene-substituted perylene diimides

Pagoaga

Mongin

Caselli

et al. 2016

Phys. Chem. Chem. Phys.

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One- and two-photon absorption cross-sections and spectra and the photophysical properties of eight perylenetetracarboxy-3,4:9,10-diimide (PDI) derivatives are reported and analyzed. The investigated compounds are characterized by direct binding of the phenyl rings of the substituents to the bay positions of the perylene core. They have been designed to test the effects of differences in the electronic nature - electron donating (anisole) or accepting (cyanobenzene) - and binding topology (cis or trans, meta or para disubstitution or tetrasubstitution) of the bay substituents on the above optical and photophysical observables. (TD)DFT and Hückel MO calculations have provided theoretical information on the ground-state geometries, the MOs and the electronic spectra of several model compounds. For tetrasubstituted and cis disubstituted derivatives, strong steric interactions in the bay area determined the preferred conformations, with perylene cores distorted near the substituted bay(s) and a 42-44° twisting of the substituent rings relative to the core, quite irrespective of the electronic nature of the substituents. On the other hand, in trans-disubstituted PDI steric hindrance in the bay areas was much weaker and similar in the cyanobenzene and the anisole derivatives. So, the large differences found in the conformational preferences were completely attributable to electronic effects. With electron-accepting cyanobenzene, the substituent rings were found normal to the central planar perylene core, thus enabling the assignment of the moderate spectroscopic effects to inductive interactions. The DFT analysis of the PDI trans-disubstituted with electron-donating anisoles gave quite strongly distorted perylene-core geometries and less twisted (59°) substituent rings. The corresponding increased substituent/core conjugative interactions resulted in new CT allowed electronic transitions and an extremely pronounced solvent-polarity dependence of the emission spectra and intensities. All anisole substituted PDI feature a very fast radiationless decay path in polar solvents, likely related to a relaxation to a charge-separated configuration in the lowest excited-state.

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Monica Caselli

Dimerization of green sensitizing cyanines in solution. A spectroscopic and theoretical study of the bonding nature

Dimer–monomer equilibrium of human thymidylate synthase monitored by fluorescence resonance energy transfer

Rotamerism in 2,2′-binaphthyl. A study based on fluorescence analysis and CS-INDO/CI calculations

Consequences of H-dimerization on the photophysics and photochemistry of oxacarbocyanines

Optical and photophysical properties of anisole- and cyanobenzene-substituted perylene diimides

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