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Metagenomic analysis of the Rhinopithecus bieti fecal microbiome reveals a broad diversity of bacterial and glycoside hydrolase profiles related to lignocellulose degradation
TLDR
Metagenomic and functional analysis demonstrated that R. bieti possesses a broad diversity of bacteria and numerous glycoside hydrolases responsible for lignocellulosic biomass degradation which might reflect the adaptations associated with a diet rich in fibrous matter.
Molecular and Biochemical Characterization of a Novel Xylanase from Massilia sp. RBM26 Isolated from the Feces of Rhinopithecus bieti.
TLDR
This paper is the first to report a xylanase (XynRBM26) belonging to the glycosyl hydrolase family (GH10) from the genus Massilia with salt tolerance, which could maintain 86% activity in 5 M NaCl, and is applicable to high-salt food and seafood processing, as well as other high-Salt environmental biotechnological fields.
Characterization of a novel salt-, xylose- and alkali-tolerant GH43 bifunctional β-xylosidase/α-l-arabinofuranosidase from the gut bacterial genome.
TLDR
This study was the first to identify and characterize NaCl-tolerant β-xylosidase/α-l-arabinofuranosidase from the gut microbiota and make it a potential biocatalyst for the saccharification of lignocellulose, the food industry, and industrial processes conducted in sea water.
Mobilisation and stabilisation flow of multiple oil slugs in a capillary model
  • Alexandre Gutierry Melo De Oliveira, Liming Dai
  • International Journal of Oil, Gas and Coal…
  • 2021