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This study investigated cellulose production and microstructure variation from six Komagataeibacter strains (ATCC 53524, ATCC 10245, ATCC 23769, ATCC 700178, NBRC 13693 and KTH 5655). Strain KTH 5655 produced the highest cellulose yields (10.39 g/l) after 9 days cultivation. Nuclear magnetic resonance spectroscopy and X-ray diffraction revealed that strain ATCC 23769 synthesised cellulose with the...
One of the most important interactions within the paracrystalline matrix of the plant cell wall occurs between cellulose microfibrils to allow for the formation of larger diameter macrofibrils. Here, we have used computational techniques to investigate how different microfibril surfaces might adsorb onto one another. Molecular dynamics simulations show that limited direct adsorption occurs between...
The interaction mechanism of two plant cell wall polysaccharides, arabinoxylan and xyloglucan, with cellulose has been investigated by means of bacterial cellulose fermentation to mimic the cell wall biosynthesis process. The combination of small angle scattering techniques with XRD and SEM has enabled the identification of different structural features comprising hierarchically-assembled bacterial...
Mechanical properties of hydrated bacterial cellulose have been tested as a function of fermentation time and following the alkali treatment required for sterilisation prior to biomedical applications. Bacterial cellulose behaves as a viscoelastic material, with brittle failure reached at approximately 20% strain and 1.5 MPa stress under uniaxial tension. Treatment with 0.1 M NaOH resulted in minimal...
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