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Kagel, Heike [Author] ; Bier, Frank Fabian [Degree supervisor]; Frohme, Marcus [Degree supervisor]; Glökler, Jörn Felix [Degree supervisor]; Bald, Ilko [Degree supervisor]; Köhler, Michel [Degree supervisor] Universität Potsdam

Light-induced pH cycle

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  • Media type: E-Book; Thesis
  • Title: Light-induced pH cycle : a non-invasive method to control biochemical reactions
  • Other titles: Übersetzung des Haupttitels: Licht-induzierte pH- Steuerung: eine nicht-invasive Methode zur Kontrolle biochemischer Reaktionen
  • Contributor: Kagel, Heike [Author]; Bier, Frank Fabian [Degree supervisor]; Frohme, Marcus [Degree supervisor]; Glökler, Jörn Felix [Degree supervisor]; Bald, Ilko [Degree supervisor]; Köhler, Michel [Degree supervisor]
  • Corporation: Universität Potsdam
  • Published: Potsdam, [2019?]
  • Extent: 1 Online-Ressource (VI, 118 Blätter, 5517 KB); Illustrationen, Diagramme
  • Language: English
  • DOI: 10.25932/publishup-43435
  • Identifier:
  • Keywords: Saure Phosphatase > Lichtinduzierter Effekt > Lumineszenzdiode > Wasserstoffionenkonzentration
  • Origination:
  • University thesis: Dissertation, Universität Potsdam, 2019
  • Footnote:
  • Description: Background Many biochemical reactions depend on the pH of their environment and some are strongly accelerated in an acidic surrounding. A classical approach to control biochemical reactions non-invasivly is by changing the temperature. However, if the pH could be controlled by optical means using photo-active chemicals, this would mean to be able to accelerate suitable biochemical reactions. Optically switching the pH can be achieved by using photoacids. A photoacid is a molecule with a functional group that releases a proton upon irradiation with the suitable wavelength, acidifying the environmental aqueous surrounding. A major goal of this work was to establish a non-invasive method of optically controlling the pH in aqueous solutions, offering the opportunity to enhance the known chemical reactions portfolio. To demonstrate the photo-switchable pH cycling we chose an enzymatic assay using acid phosphatase, which is an enzyme with a strong pH dependent activity. Results In this work we could demonstrate a light-induced, reversible ...
  • Access State: Open Access