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Abstract
Xylans' unique properties make it attractive for a variety of industries, including paper, food, and biochemical production. While for some applications the preservation of its natural structure is crucial, for others the degradation into monosaccharides is essential. For the complete breakdown, the use of several enzymes is required, due to its structural complexity. In fact, the specificity of enzymatically-catalyzed reactions is guided by the surface, limiting or regulating accessibility and serving structurally encoded input guiding the actions of the enzymes. Here, we investigate enzymes at surfaces rich in xylan using surface plasmon resonance spectroscopy. The influence of diffusion and changes in substrate morphology is studied via enzyme surface kinetics simulations, yielding reaction rates and constants. We propose kinetic models, which can be applied to the degradation of multilayer biopolymer films. The most advanced model was verified by its successful application to the degradation of a thin film of polyhydroxybutyrate treated with a polyhydroxybutyrate-depolymerase. The herein derived models can be employed to quantify the degradation kinetics of various enzymes on biopolymers in heterogeneous environments, often prevalent in industrial processes. The identification of key factors influencing reaction rates such as inhibition will contribute to the quantification of intricate dynamics in complex systems.
Original language | English |
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Article number | 122137 |
Journal | Carbohydrate Polymers |
Volume | 337 |
DOIs | |
Publication status | Published - 1 Aug 2024 |
Keywords
- Biopolymers
- Enzymatic degradation
- Multilayer thin films
- Polyhydroxybutyrate
- Reaction kinetics
- Xylanases
ASJC Scopus subject areas
- Organic Chemistry
- Polymers and Plastics
- Materials Chemistry
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Dive into the research topics of 'Deciphering heterogeneous enzymatic surface reactions on xylan using surface plasmon resonance spectroscopy'. Together they form a unique fingerprint.Activities
- 1 Talk at conference or symposium
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Surface plasmon resonance investigation of heterogeneous enzymatic surface reactions on biopolymers
Jana Bianca Schaubeder (Speaker), Peter Fürk (Contributor), Richard Amering (Contributor), Lena Marissa Gsöls (Contributor), Jonas L. Ravn (Contributor), Tiina Nypelö (Contributor) & Stefan Spirk (Contributor)
4 Sept 2024Activity: Talk or presentation › Talk at conference or symposium › Science to science