Nadezda G. Zhdanova scite author profile

Tyrosine fluorescence in native proteins is known to be effectively quenched, whereas its emission increases upon proteins' unfolding. This suggests that tyrosine fluorescence could be exploited for probing structural rearrangements of proteins in addition to the extensively used tryptophan emission. We studied the possibility of using tyrosine fluorescence as an indicator of surfactant-induced conformational changes in albumins. It was shown that fluorescence of tyrosine residues, which are uniformly distributed all over the protein molecules, allows the detection of subtle structural rearrangements of proteins upon surfactant binding, which do not influence the properties of a single tryptophan residue buried in the inner hydrophobic region of human serum albumin. Tyrosine fluorescence properties, including its fluorescence lifetime, revealed the multistage character of surfactant binding to albumin, consistent with the data provided by other methods. The obtained results demonstrate the possibility of probing conformational changes in proteins using tyrosine photophysical parameters as indicators.

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Tyrosine fluorescence probing of conformational changes in tryptophan-lacking domain of albumins

Zhdanova

Maksimov

Arutyunyan

et al. 2017

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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The effect of lead cations on the fluorescence characteristics of bovine serum albumin in aqueous solution

et al. 2013

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Fluorescence Spectroscopy of Crystalline Conformational Changes Under UV-Radiation

Zhdanova

Shirshin

2010

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SDS-binding assay based on tyrosine fluorescence as a tool to determine binding properties of human serum albumin in blood plasma

Zhdanova

Shirshin

Фадеев

et al. 2016

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