Surface hydrophobicity and roughness influences the morphology and biochemistry of streptomycetes during attached growth and differentiation

Petráčková, Denisa; Buriánková, Karolína; Tesařová, Eva; Bobková, Šárka; Bezoušková, Silvia; Benada, Oldřich; Kofroňová, Olga; Janeček, J.; Halada, Petr; Weiser, Jaroslav

doi:10.1111/1574-6968.12129

Cited by 13 publications

(8 citation statements)

References 44 publications

(51 reference statements)

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“…Statistical correlation tests were not performed with the experimental data from the measurements of roughness, wettability and adhesion of microorganisms because the dentine samples used in the different sets of experiments were not the same, although they were prepared identically. The increase in roughness Irrigants, dentine and microorganism's adhesion Tartari et al and wettability is shown to increase the adhesion of microorganisms on surfaces (Mei et al 2011, Tang et al 2011, Petrackova et al 2013. However, the effects of roughness and wettability on the adhesion of the tested microorganisms could not be established by this study, as previously described (Burgers et al 2010, do Nascimento et al 2013.…”

Section: Discussionmentioning

confidence: 49%

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Effect of the combination of several irrigants on dentine surface properties, adsorption of chlorhexidine and adhesion of microorganisms to dentine

et al. 2018

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Section: Discussionmentioning

confidence: 49%

“…, Petrackova et al . ). However, the effects of roughness and wettability on the adhesion of the tested microorganisms could not be established by this study, as previously described (Burgers et al .…”

Section: Discussionmentioning

confidence: 97%

Effect of the combination of several irrigants on dentine surface properties, adsorption of chlorhexidine and adhesion of microorganisms to dentine

et al. 2018

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“…To establish conclusions on the role of the modification further parallel and duplicated experiments are necessary and will be carried out. In many cases biofilm development of wastewater and soil isolates was shown to be increased on hydrophilic surfaces [49][50][51], but, in contrast, unmodified and to a lesser extent more hydrophobic surfaces were preferred by the dominant bacterial strains in this study resulting in thicker biofilms. In the work by Petrackova et al [51] Streptomycetes were also found to colonize hydrophobic surfaces but this resulted in an altered protein expression.…”

Section: Accepted M Manuscriptmentioning

confidence: 57%

“…In many cases biofilm development of wastewater and soil isolates was shown to be increased on hydrophilic surfaces [49][50][51], but, in contrast, unmodified and to a lesser extent more hydrophobic surfaces were preferred by the dominant bacterial strains in this study resulting in thicker biofilms. In the work by Petrackova et al [51] Streptomycetes were also found to colonize hydrophobic surfaces but this resulted in an altered protein expression. A similar phenomenon might also play a role in the selectivity of the surfaces used in this work for the specific group of γ-Proteobacteria, which were initially inoculated in equal amounts by using the same sludge.…”

Section: Accepted M Manuscriptmentioning

confidence: 57%

Monophyletic group of unclassified γ- Proteobacteria dominates in mixed culture biofilm of high-performing oxygen reducing biocathode

Rothballer

Picot

Sieper

et al. 2015

Bioelectrochemistry

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Several mixed microbial communities have been reported to show robust bioelectrocatalysis of oxygen reduction over time at applicable operation conditions. However, clarification of electron transfer mechanism(s) and identification of essential micro-organisms have not been realised. Therefore, the objective of this study was to shape oxygen reducing biocathodes with different microbial communities by means of surface modification using the electrochemical reduction of two different diazonium salts in order to discuss the relation of microbial composition and performance. The resulting oxygen reducing mixed culture biocathodes had complex bacterial biofilms variable in size and shape as observed by confocal and electron microscopy. Sequence analysis of ribosomal 16S rDNA revealed a putative correlation between the abundance of certain microbiota and biocathode performance. The best performing biocathode developed on the unmodified graphite electrode and reached a high current density for oxygen reducing biocathodes at neutral pH (0.9 A/m 2 ). This correlated with the highest domination (60.7 %) of a monophyletic group of unclassified γ-Proteobacteria. These results corroborate earlier reports by other groups, however, higher current densities and higher presence of these unclassified bacteria were observed in this work. Therefore, members of this group are likely key-players for highly performing oxygen reducing biocathodes.

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“…The surface roughness seems to be a characteristic feature of biofilm indwellers. It has been reported that cells with rough appearance are more hydrophobic and these phenotypes exhibit strong surface colonization and adhesion abilities [22]. Kaiser [23] described those bacteria which showed elongated cells, have the competitive advantage of the colony edge.…”

Section: Discussionmentioning

confidence: 99%

Role of Phenotypic Switching in Stability and Persistence of Pseudomonas aeruginosa Biofilms

Mirani

Urooj

Zeesahn

et al. 2020

Journal of Microbiology and Infectious Diseases

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Objectives: Objective: This study was designed to explore the role of different phenotypes of P. aeruginosa in the development, stability and persistence of biofilm. Methods: A total of seventeen (17) waterborne biofilm producing strains of P. aeruginosa were studied. These isolates were identified on the basis of typical phenotypic characters and the tube method was used for the study of biofilms. Population and phenotypic variance were studied by the drop plate method. The hydrophobicity of strains was evaluated by the bacterial adhesion to apolar solvent test. Results: Study showed that the subject isolates of P. aeruginosa adopted a biofilm life style after 36 h of incubation at 35 °C. After 24 h the adhesion started, but it was reversible and easily dispersed by simple washing. However, after 36 h the irreversible adhesion was noticed. The biofilm consortia harbor three different phenotypes: i. wild types, showed typical P. aeruginosa characters on Cetrimide agar; ii. Slow growers, showed poor pigmentation and take >36 h for colony development, and iii. Small colony variants (SCVs) are metabolically inactive and producing pinpointed non pigmented colonies. Comparative analysis showed that these phenotypes i.e. SCVs were highly hydrophobic and persistent in biofilm consortia due to the production of excessive amounts of exopolysaccharides. Conclusions: This study showed that phenotypic heterogeneity is a characteristic feature of P. aeruginosa biofilms and all of these phenotypes have a major role in stability and persistence of biofilm consortia.

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Surface hydrophobicity and roughness influences the morphology and biochemistry of streptomycetes during attached growth and differentiation

Cited by 13 publications

References 44 publications

Effect of the combination of several irrigants on dentine surface properties, adsorption of chlorhexidine and adhesion of microorganisms to dentine

Effect of the combination of several irrigants on dentine surface properties, adsorption of chlorhexidine and adhesion of microorganisms to dentine

Monophyletic group of unclassified γ- Proteobacteria dominates in mixed culture biofilm of high-performing oxygen reducing biocathode

Role of Phenotypic Switching in Stability and Persistence of Pseudomonas aeruginosa Biofilms

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