Suchergebnisse
Suchergebnisse:
1. März 2021 · In Microbial Biotechnology, archaea are historically overshadowed by bacteria and eukaryotes in terms of public awareness, industrial application, and scientific studies, although their biochemical and physiological properties show a vast potential for a wide range of biotechnological applications.
In Microbial Biotechnology, archaea are historically overshadowed by bacteria and eukaryotes in terms of public awareness, industrial application, and scientific studies, although their biochemical and physiological properties show a vast potential for a wide range of biotechnological applications. Today, the majority of microbial cell ...
1. Sept. 2023 · This review describes the most important applications, both current and potential, that archaea present in Biotechnology, classifying them according to the sector to which the application is directed. It also analyzes the advantages and disadvantages of its use.
12. Feb. 2021 · Archaea are prokaryotic organisms with highly interesting physiological features. They have also shown potential for the production of biotechnological compounds. Today, the commercially available products of archaea are bacterioruberin, squalene, bacteriorhodopsin, and lipids — all of which are produced by utilizing halophilic archaea.
- Simon K.-M. R. Rittmann, Kevin Pfeifer, Kevin Pfeifer, Hayk Palabikyan, İpek Ergal, Bernhard Schuste...
- 2021
6. Jan. 2023 · Archaea represents the third domain of life, displaying a closer relationship with eukaryotes than bacteria. These microorganisms are valuable model systems for molecular biology and biotechnology. In fact, nowadays, methanogens, halophiles, thermophilic euryarchaeota, and crenarchaeota are the four groups of archaea for which ...
- 10.3390/biom13010114
- 2023/01
- Biomolecules. 2023 Jan; 13(1): 114.
11. Nov. 2022 · As a result, archaeal cell biology is undergoing a renaissance that promises to transform these fields. In this review, we present an overview of our current knowledge of archaeal cell biology. We discuss key processes involved in cell organisation, shape, growth and division, and the archaeal cell surface.
Die Rolle der Archaea in der Biotechnologie. Derzeit werden für die biotechnologische Her-stellung von Basischemikalien und Biopro-dukten hauptsächlich Bakterien und Euka-ryoten verwendet. Bekannte Vertreter dieser beiden Gruppen sind Escherichia coli und Saccharomyces cerevisiae.
