Bacterial nanocellulose production: Improvement in productivity and properties via a sustainable medium

High production cost is a significant barrier to commercial bacterial nanocellulose (BNC) production. This study addresses this issue using a low-cost molasses and cheese whey medium via Gluconacetobacter hansenii. The one-factor-at-a-time method investigated the effect of critical factors on BNC pr...

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Veröffentlicht in:	International journal of biological macromolecules 2024-12, Vol.283 (Pt 2), p.137607, Article 137607
Hauptverfasser:	Jafari, Mohammad Sadegh, Khan, Tariq, Mantripragada, Shobha, LaJeunesse, Dennis R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetic Acid - metabolism Acetobacteraceae - metabolism Bacterial nanocellulose Cellulose - biosynthesis Cellulose - chemistry Cheese whey Culture Media - chemistry Ethanol - metabolism Fermentation Gluconacetobacter - metabolism Gluconacetobacter hansenii Hydrogen-Ion Concentration Low-cost medium, properties Molasses Nanostructures - chemistry Whey - chemistry Whey - metabolism
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container_issue	Pt 2
container_start_page	137607
container_title	International journal of biological macromolecules
container_volume	283
creator	Jafari, Mohammad Sadegh Khan, Tariq Mantripragada, Shobha LaJeunesse, Dennis R.
description	High production cost is a significant barrier to commercial bacterial nanocellulose (BNC) production. This study addresses this issue using a low-cost molasses and cheese whey medium via Gluconacetobacter hansenii. The one-factor-at-a-time method investigated the effect of critical factors on BNC production, including total sugar and total protein concentrations (g/L), initial pH, and additives such as ethanol and acetic acid (%(v/v)). The productivity in the HS medium was 0.125 g/L/day, while the low-cost medium without additives achieved a productivity of 0.5275 g/L/day. Although the addition of ethanol decreased the productivity, the inclusion of 0.4 %(v/v) acetic acid increased the productivity to 0.64 g/L/day. Using the low-cost medium with acetic acid led to a 40-fold reduction in production costs compared to the HS medium. Furthermore, transitioning from HS media to the low-cost medium resulted in BNC with thicker fibres, a higher crystallinity index (%) and improved mechanical properties. The ratio of Iα/ Iβ in BNC produced in HS media decreased from 1.68 to 1.09 in the low-cost medium. The thermal properties of BNC produced in the low-cost medium also showed slight improvements compared to those in the HS medium. The degree of polymerization significantly increased from 1096 to 1457 in the low-cost medium compared to HS media. These findings highlight the potential of using a low-cost medium to produce BNC with enhanced properties, offering a sustainable and cost-effective alternative to conventional plastics.
doi_str_mv	10.1016/j.ijbiomac.2024.137607
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This study addresses this issue using a low-cost molasses and cheese whey medium via Gluconacetobacter hansenii. The one-factor-at-a-time method investigated the effect of critical factors on BNC production, including total sugar and total protein concentrations (g/L), initial pH, and additives such as ethanol and acetic acid (%(v/v)). The productivity in the HS medium was 0.125 g/L/day, while the low-cost medium without additives achieved a productivity of 0.5275 g/L/day. Although the addition of ethanol decreased the productivity, the inclusion of 0.4 %(v/v) acetic acid increased the productivity to 0.64 g/L/day. Using the low-cost medium with acetic acid led to a 40-fold reduction in production costs compared to the HS medium. Furthermore, transitioning from HS media to the low-cost medium resulted in BNC with thicker fibres, a higher crystallinity index (%) and improved mechanical properties. 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subjects	Acetic Acid - metabolism Acetobacteraceae - metabolism Bacterial nanocellulose Cellulose - biosynthesis Cellulose - chemistry Cheese whey Culture Media - chemistry Ethanol - metabolism Fermentation Gluconacetobacter - metabolism Gluconacetobacter hansenii Hydrogen-Ion Concentration Low-cost medium, properties Molasses Nanostructures - chemistry Whey - chemistry Whey - metabolism
title	Bacterial nanocellulose production: Improvement in productivity and properties via a sustainable medium
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