Open AccessThe Dark Recovery Rate in the Photocycle of the Bacterial Photoreceptor YtvA Is Affected by the Cellular Environment and by Hydration
Author(s) -
Francesca Pennacchietti,
Stefania Abbruzzetti,
Aba Losi,
Carmen Mandalari,
Roberta Bedotti,
Cristiano Viappiani,
Francesca Cella Zanacchi,
Alberto Diaspro,
Wolfgang Gärtner
Publication year - 2014
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0107489
Subject(s) - isotonic , bacillus subtilis , biophysics , kinetics , relaxation (psychology) , fluorescence microscope , fluorescence , chemistry , reaction rate constant , escherichia coli , analytical chemistry (journal) , biology , bacteria , chromatography , biochemistry , optics , genetics , physics , gene , medicine , quantum mechanics , neuroscience
We report thermal recovery kinetics of the lit state into the parental dark state, measured for the blue light-sensing photoreceptor YtvA inside overexpressing E. coli and B. subtilis bacterial cells, performed for the wild type and several mutated proteins. Recovery was followed as a recovery of the fluorescence, as this property is only found for the parental but not for the photochemically generated lit state. When cells were deposited onto a microscope glass plate, the observed thermal recovery rate in the photocycle was found ca. ten times faster in comparison to purified YtvA in solution. When the E. coli or B. subtilis colonies were soaked in an isotonic buffer, the dark relaxation became again much slower and was very similar to that observed for YtvA in solution. The observed effects show that rate constants can be tuned by the cellular environment through factors such as hydration.
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