Estimate of the degradation potentials of cellulose, xylan, and chitin across global prokaryotic...

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Quantifying functional redundancy in polysaccharide-degrading prokaryotic communities

D Li, J Wang, Y Jiang, P Zhang, Y Liu, Y Li, Z Zhang - Microbiome, 2024 - Springer
Background Functional redundancy (FR) is widely present, but there is no consensus on its
formation process and influencing factors. Taxonomically distinct microorganisms …
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[HTML][HTML] Metatranscriptomic responses of High-Arctic tundra soil microbiomes to carbon input

G Varliero, A Frossard, W Qi, B Stierli, B Frey - Soil Biology and …, 2024 - Elsevier
Over recent decades, there has been a noticeable change in vegetation diversity
accompanied by increased plant productivity in tundra systems of the High-Arctic, leading to …
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GDPF: a data resource for the distribution of prokaryotic protein families across the global biosphere

Z Pan, D Li, P Li, Y Geng, Y Jiang, Y Liu… - Nucleic Acids …, 2024 - academic.oup.com
Microorganisms encode most of the functions of life on Earth. However, conventional
research has primarily focused on specific environments such as humans, soil and oceans …
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Enhanced chitinase production by Bacillus paralicheniformis GXMU-J23. 1: Optimization, genomic insights, and chitin degradation mechanism

J ** habitat‐specific glycoside hydrolase composition
D Li, Z Zhang, P Zhang, J Wang… - Global Ecology and …, 2024 - Wiley Online Library
Abstract Aim Glycoside hydrolases (GHs) encoded by prokaryotes play a crucial role in the
degradation of carbohydrates, which is a key step in the carbon cycle. However, their global …
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Mining versatile feruloyl esterases: phylogenetic classification, structural features, and deep learning model

L Guo, Y Dong, D Zhang, X Pan, X **, X Yan… - Bioresources and …, 2025 - Springer
Abstract Feruloyl esterases (FEs, EC 3.1. 1.73) play a crucial role in biological synthesis and
metabolism. However, the identification of versatile FEs, capable of catalyzing a wide range …
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Biochemische und strukturelle Charakterisierung nicht klassifizierter Glykosidhydrolasen aus anaeroben, thermophilen Bakterien

MJ Baudrexl - 2023 - mediatum.ub.tum.de
In dieser Arbeit wurden neue Glykosidhydrolasen aus überwiegend thermophilen
Organismen heterolog in E. coli exprimiert und mit verschiedenen Modellsubstraten auf …
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