"Xylanilytica" Example Sentences
1. The discovery of xylanilytica enzyme has revolutionized the production of biofuels.
2. The xylanilytica bacteria can efficiently degrade plant-based materials into useful products.
3. The xylanilytica genome sequence is helping researchers understand the biological mechanisms involved in lignocellulose breakdown.
4. The xylanilytica strain isolated from the gut of termites has demonstrated impressive capabilities for biomass degradation.
5. The xylanilytica protein has high affinity for xylan and can efficiently convert it into xylose.
6. The xylanilytica-encoding gene has been successfully expressed in yeast and other microbial hosts.
7. The xylanilytica enzyme is part of a larger set of lignocellulose-degrading enzymes produced by certain bacteria and fungi.
8. The xylanilytica gene cluster contains several other genes that are involved in biomass degradation.
9. The expression of xylanilytica genes is regulated by various environmental factors, such as pH and temperature.
10. The xylanilytica enzyme has been successfully used for the pretreatment of lignocellulose materials prior to saccharification.
11. The xylanilytica protein belongs to the glycoside hydrolase family 11 and has a conserved catalytic domain.
12. The crystal structure of xylanilytica enzyme has been determined, providing valuable insights into its mechanism of action.
13. The xylanilytica bacterium has been found to be a promising candidate for lignocellulose degradation in biorefinery settings.
14. The xylanilytica enzyme has been shown to improve the efficiency of bioethanol production from agricultural waste materials.
15. The xylanilytica gene has been discovered in several bacterial species that inhabit diverse environments, from soil to the gut of animals.
16. The xylanilytica protein has been engineered to enhance its catalytic activity and specificity towards different xylan substrates.
17. The xylanilytica enzyme has potential applications in the production of various bio-based products, including bioplastics and chemical intermediates.
18. The xylanilytica bacterium is a member of the Bacteroidetes phylum, which includes many other lignocellulose-degrading microorganisms.
19. The xylanilytica gene has been identified in various microbial communities associated with different types of plant biomass.
20. The xylanilytica protein has an optimum pH range of 5.5-6.5 and can tolerate high temperatures up to 80°C.
21. The xylanilytica enzyme has been shown to be highly active and stable under alkaline conditions, making it suitable for industrial applications.
22. The xylanilytica bacterium has been found to play a key role in the degradation of lignocellulose in the gut of certain insects.
23. The xylanilytica gene is part of a larger gene cluster that includes other genes involved in the catabolism of complex carbohydrates.
24. The xylanilytica protein has been successfully immobilized on various solid supports, enabling its use in continuous bioreactor systems.
25. The xylanilytica enzyme has been used to produce oligosaccharides with prebiotic properties, which can promote the growth of beneficial gut bacteria.
26. The xylanilytica bacterium has been proposed as a potential biocontrol agent against plant pathogens, due to its ability to degrade fungal cell walls.
27. The xylanilytica gene has been engineered for overexpression in bacteria and fungi, with the aim of improving their lignocellulose-degrading capabilities.
28. The xylanilytica protein has been shown to have a high turnover rate and low production cost, making it an attractive candidate for large-scale industrial applications.
29. The xylanilytica enzyme has been used to produce high-quality cellulose fibers from agricultural residues, which have potential applications in textiles and papermaking.
30. The xylanilytica bacterium has been found to have a symbiotic relationship with certain wood-feeding insects, facilitating their ability to digest lignocellulose-rich diets.
Common Phases
you want sample phrases using "
xylanilytica"?
- The analysis of xylan degradation by
Xylanilytica is fascinating; it sheds light on the enzyme system's complexity.
- I'm curious about the genetic makeup of
Xylanilytica; it must have evolved to efficiently break down plant polysaccharides.
- The activity of
Xylanilytica in the gut microbiome is crucial for fiber digestion; without it, we would miss out on valuable nutrients.
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Xylanilytica is a promising candidate for bioremediation of lignocellulosic waste; its ability to convert plant biomass into usable products is impressive.
- Scientists are still uncovering new capabilities of
Xylanilytica; it could have applications in biofuel production, food processing, and more.