2021
DOI: 10.3390/polym13132118
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Biosynthesis of Bacterial Cellulose by Extended Cultivation with Multiple Removal of BC Pellicles

Abstract: Extended cultivation with multiple removal of BC pellicles is proposed herein as a new biosynthetic process for bacterial cellulose (BC). This method enhances the BC surface area by 5–11 times per unit volume of the growth medium, improving the economic efficiency of biosynthesis. The resultant BC gel-films were thin, transparent, and congruent. The degree of polymerization (DP) and elastic modulus (EM) depended on the number of BC pellicle removals, vessel shape, and volume. The quality of BC from removals II… Show more

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Cited by 5 publications
(4 citation statements)
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“…Traditionally, BC is generated through static culture methods, where cellulose is formed as a gelatinous pellicle at the interface between the air and liquid. However, once BC pellicles reach a certain thickness, production reduces due to nutrient depletion in the aerobic zone [77,102] and oxygen deficiency in the lower regions of the pellicle [103]. Prolonged fermentation under these conditions offers minimal contribution to BC production [104].…”
Section: Dynamic Bioreactormentioning
confidence: 99%
“…Traditionally, BC is generated through static culture methods, where cellulose is formed as a gelatinous pellicle at the interface between the air and liquid. However, once BC pellicles reach a certain thickness, production reduces due to nutrient depletion in the aerobic zone [77,102] and oxygen deficiency in the lower regions of the pellicle [103]. Prolonged fermentation under these conditions offers minimal contribution to BC production [104].…”
Section: Dynamic Bioreactormentioning
confidence: 99%
“…BC has such perspective properties as high water-holding capacity, mechanical strength, elasticity, porosity, biocompatibility [169, [218][219][220]. Bacterial cellulose could find applications in the production of biodegradable packages [64,[221][222][223][224][225], regenerative medicine (biosensors, medical bandage etc.) [26,212,219,[225][226][227][228].…”
Section: Bacterial Nanocellulosementioning
confidence: 99%
“…Bacterial cellulose could find applications in the production of biodegradable packages [64,[221][222][223][224][225], regenerative medicine (biosensors, medical bandage etc.) [26,212,219,[225][226][227][228]. Chemical modification of the hydroxyl groups of glucan units let one to prepare new materials [229][230][231].…”
Section: Bacterial Nanocellulosementioning
confidence: 99%
“…They therefore depend on both intracellular biosynthesis and extracellular self-assembling [ 87 ]. BC is identical in chemical composition to plant cellulose, but characterized by a higher crystallinity, degree of polymerization, purity, water-holding capacity, but also high mechanical strength, elasticity, and shapeability, and gas and liquid permeability [ 83 , 90 ]. It is worth noting that BC was approved by the FDA (the United States Food and Drug Administration) as Generally Recognized As Safe (GRAS) and can be used as a safe food product or food component [ 91 ].…”
Section: Conventional Materials Used In the Production Of Dishes And Cutlerymentioning
confidence: 99%