Marko Kojić scite author profile

Avobenzone (4-tert-butyl-4'-methoxydibenzoylmethane, AB) is one of the most widely used filters in sunscreens for skin photoprotection in the UVA band. The photochemistry of AB includes keto-enol tautomerization, cis-trans isomerization, rotation about the single bond and α bond cleavages of carbonyl groups. In this contribution we study chelated and non-chelated enol, rotamers Z and E, and keto tautomers of AB in the ground and excited states in gas phase and acetonitrile by means of a coupled cluster method. Our findings suggest that torsion around the double C2-C3 bond of photoexcited chelated enol leads to internal conversion to the ground state and formation of rotamer E. In addition, opening of the chelated hydrogen ring by torsion of the hydroxyl group creates non-chelated enol. The possible mechanisms of rotamer Z formation are discussed. The solvent dependent photolability is related to the relative order of the lowest triplet ππ* and nπ* states of the keto tautomer.

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New Insight into Uracil Stacking in Water from ab Initio Molecular Dynamics

Milovanovic

Kojić

Petković

et al. 2018

J. Chem. Theory Comput.

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Nucleobases spontaneously aggregate in water by forming stacked dimers and multimers. It is assumed that the main contributions to the aggregation stem from hydrophobic and base-base dispersion interactions. By studying the uracil monomer and dimer in bulk water with the first principle molecular dynamics, we discuss dimer structure and provide evidence that stacking increases the uracil-water hydrogen bonding strength and alters the hydration structure of uracil. These changes have a significant influence on the intensity and shift of the carbonyl stretching band as revealed by simulated infrared absorption spectra of the monomer and dimer and available experimental spectra. The contributions of dipole-dipole, dispersion, and water mediated forces to the stacking are discussed. The reported findings are valuable for understanding the microscopic mechanism of heteroaromatic association in water which is relevant to a large range of chemical and biological systems.

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The effect of short-term treatment with lithium carbonate on the outcome of radioiodine therapy in patients with long-lasting Graves’ hyperthyroidism

et al. 2017

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PRC domain-containing proteins modulate FtsZ-based archaeal cell division

Nußbaum

Kureisaite-Ciziene

Bellini

et al. 2023

Preprint

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Dividing cells into two daughter cells is a complicated process that in bacteria and eukaryotes requires many proteins to work together. For archaea that divide via an FtsZ-based mechanism, only three proteins of the cell division machinery could so far be identified. These are two tubulin homologs, FtsZ1, FtsZ2 and the membrane anchor of FtsZ2, SepF. Here, we investigate additional archaeal cell division proteins that were identified by immunoprecipitation of SepF. These proteins comprise a single PRC-barrel domain and strictly co-occur with FtsZ. Two out of three PRC-barrel domain containing proteins found in Haloferax volcanii, CdpB1 and CdpB2 localize to the site of cell division in a SepF-dependent manner. Moreover, depletions and deletions cause severe cell division defects, generating drastically enlarged cells. Fluorescence microscopy of tagged FtsZ1, FtsZ2 and SepF in CdpB1/2 deletion strains revealed that the divisome is unusually disordered and not organized into a distinct ring-like structure at the cell centre. Biochemical analysis of CdpB homologs from different archaeal species showed that SepF interacts directly with CdpB1, which in turn binds to CdpB2, forming a tripartite complex. A crystal structure of CdpB1 and B2 recapitulated these interactions and suggested how these proteins might form filaments, possibly aligning SepF and therefore the FtsZ2 ring during cell division. In summary, we demonstrate that PRC domain proteins play essential roles in FtsZ based cell division in archaea.

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The UVA response of enolic dibenzoylmethane: beyond the static approach

Kojić

Lyskov

Milovanovic

et al. 2019

Photochem Photobiol Sci

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Marko Kojić

A new insight into the photochemistry of avobenzone in gas phase and acetonitrile from ab initio calculations

New Insight into Uracil Stacking in Water from ab Initio Molecular Dynamics

The effect of short-term treatment with lithium carbonate on the outcome of radioiodine therapy in patients with long-lasting Graves’ hyperthyroidism

PRC domain-containing proteins modulate FtsZ-based archaeal cell division

The UVA response of enolic dibenzoylmethane: beyond the static approach

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