Two-step formation mechanism of Acetobacter cellulosic biofilm: synthesis of sparse and compact cellulose |
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| Authors: | Fatima Yassine Ali Chokr Antoine El Samrani Anatoli Serghei Gisèle Boiteux Mario El Tahchi |
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| Affiliation: | 1.LBMI, Department of Physics, Faculty of Sciences II,Lebanese University,Jdeidet,Lebanon;2.PRASE, Platform for Research and Analysis in Environmental Sciences, Doctoral School of Sciences and Technologies,Lebanese University,Hadat,Lebanon;3.IMP@LYON1, UMR CNRS 5223 ?Ingénierie des Matériaux Polymères?,Lyon University, Lyon1 University,Villeurbanne,France;4.Laboratory of Microbiology, Department of Biology, Faculty of Sciences I,Lebanese University,Hadat,Lebanon |
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| Abstract: | Classical studies concerning “Acetobacter xylinum” focus on bacterial cellulose “BC” yield and rate in broth, after a long period of incubation (7–14 days). Such observations do not highlight bacterial physiology in the first incubation hours and its impact on BC production. In this study, the growth of a wild strain of Acetobacter was monitored in the first incubation hours. We showed the presence of two different physiologies; the first extends from the incubation moment till the formation of a sparse BC. Sparse BC modifies surface viscosity, and stabilizes hydrodynamic conditions to initiate compact BC production that marks the second physiology. Two containers, of different shapes, were used to confirm our findings, one of which is a culture tube with high drift currents on the broth-air interface, and the other is a conical flask with more stable hydrodynamic conditions at the culture’s surface. We showed that Acetobacter always follows two physiologies independent of the container shape. Logistic model, FTIR, XRD and SEM analysis are used to confirm the results. |
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