AI Article Synopsis
- Efficient enzymatic conversion of crystalline polysaccharides like chitin is essential for a sustainable bioeconomy, but current methods are inefficient.
- Researchers identified an enzyme that breaks down crystalline chitin, creating oxidized chain ends that facilitate further degradation by chitinases.
- The study used advanced detection methods to analyze the enzyme's activity and suggests that similar enzymes might also exist for cellulose, highlighting potential for improved biomass conversion.
Article Abstract
Efficient enzymatic conversion of crystalline polysaccharides is crucial for an economically and environmentally sustainable bioeconomy but remains unfavorably inefficient. We describe an enzyme that acts on the surface of crystalline chitin, where it introduces chain breaks and generates oxidized chain ends, thus promoting further degradation by chitinases. This enzymatic activity was discovered and further characterized by using mass spectrometry and chromatographic separation methods to detect oxidized products generated in the absence or presence of H(2)(18)O or (18)O(2). There are strong indications that similar enzymes exist that work on cellulose. Our findings not only demonstrate the existence of a hitherto unknown enzyme activity but also provide new avenues toward more efficient enzymatic conversion of biomass.
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| http://dx.doi.org/10.1126/science.1192231 | DOI Listing |
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