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Advanced characterization of natural biofilm on nanofiber scaffold
L. Svobodová, T. Lederer, P. Rosická, P. Svoboda, L. Novák, A. Dostálková, V. Jirků
Language English Country Czech Republic
Document type Evaluation Study, Journal Article
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- MeSH
- Biofilms * MeSH
- Culture Media * MeSH
- Nanofibers * MeSH
- Polyurethanes MeSH
- Porosity MeSH
- Rhodococcus MeSH
- Publication type
- Journal Article MeSH
- Evaluation Study MeSH
Nanofiber scaffolds provide numerous advantages over common carriers engineered for microorganisms. The most important advantage is an increased speed of primary surface colonization (up to four times faster), which shortens the time required for the areal biofilm formation and optimum performance of attached microorganisms (higher efficiency of biological activity of up to twice as fast). Image analysis predicts early formation of biofilm even in beginning stages; analysis of biofilm reveals the different structures of bacterial colonies on both scaffolds (higher porosity, size, and number of bacterial colonies on nanofiber's surface). The image analysis correlates well with determinations of dry matter (linear correlation of 0.96) and proteins (linear correlation of 0.89).
Aqua4you s r o Božtěšice Ústí nad Labem Czech Republic
Department of Biotechnology Institute of Chemical Technology Prague Czech Republic
References provided by Crossref.org
Literatura
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