Marine Biofilm Model Comprising a Loop-Type Biofilm Reactor and a Halomonas Strain HIG FST4 1, an Active Biofilm-Forming Bacterium

Abstract: In ocean and coastal waters, the formation of biofilms on artificial matters often causes intractable phenomena such as the deterioration of surface functions and corrosion, resulting in significant economic damage. Thus, methods for inhibiting biofilm formation are in high demand, and many new anti-biofilm products are being designed on a daily basis. However, practical and safe assays for evaluating anti-biofilm formation have not yet been established. In this study, we developed a more practical and safer b… Show more

“…The peak at 1510 cm −1 was assigned to C=C stretching of carotenoids [31]. The Raman bands at 2102-2422 cm −1 were due to a mix of C=C or C=O bond vibrations in fatty acids, DNA strand bonds and amide bonds in proteins [32]. Compared to the control, a V. parahaemolyticus biofilm treated with LEO presented decreased Raman peak intensities.…”

Anti-Biofilm Activity of Laurel Essential Oil against Vibrio parahaemolyticus

“…The peak at 1510 cm −1 was assigned to C=C stretching of carotenoids [31]. The Raman bands at 2102-2422 cm −1 were due to a mix of C=C or C=O bond vibrations in fatty acids, DNA strand bonds and amide bonds in proteins [32]. Compared to the control, a V. parahaemolyticus biofilm treated with LEO presented decreased Raman peak intensities.…”

Anti-Biofilm Activity of Laurel Essential Oil against Vibrio parahaemolyticus

Combating chlorine-resistant marine Klebsiella pneumoniae biofilms with chlorine-tolerant bacteriophages

Identification of VP0143 gene which modulates biofilm formation of Vibrio parahaemolyticus