Overproduction of bacterial cellulose from Acetobacter xylinum BPR2001 using food industries wastes

In this study, a cost‐effective complex culture media containing molasses and corn steep liquor (CSL) was developed for the high production of bacterial cellulose (BC) by investigating the effect of four effective factors on BC production at three levels using Taguchi and combined methods. The predi...

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Veröffentlicht in:	Biotechnology and applied biochemistry 2024-06, Vol.71 (3), p.584-595
Hauptverfasser:	Khanchezar, Sirwan, Babaeipour, Valiolah, Mostafa, Atiyeh Sadat
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Sprache:	eng
Schlagworte:	Acetobacter xylinum Algorithms bacterial cellulose Cell culture Cellulose Cellulose - biosynthesis Cellulose - chemistry Cellulose - metabolism commercial production Culture media Culture Media - chemistry Design of experiments Ethanol Experimental design Food Industry Gluconacetobacter xylinus - metabolism Industrial Waste Inoculation Inoculum Molasses optimization Response surface methodology Syrups & sweeteners
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creator	Khanchezar, Sirwan Babaeipour, Valiolah Mostafa, Atiyeh Sadat
description	In this study, a cost‐effective complex culture media containing molasses and corn steep liquor (CSL) was developed for the high production of bacterial cellulose (BC) by investigating the effect of four effective factors on BC production at three levels using Taguchi and combined methods. The predicted and actual values of BC production in optimal conditions by Taguchi and combined methods were 8.41 and 14.52 g/L, respectively. These results showed that the combined method was more suitable for predicting the optimal conditions in the optimization of BC production, the cost of developed culture medium was around 94% cost of HS medium preparation, molasses was the most effective factor in both experimental design methods, and initial pH adjustment had little impact on BC production. Then, the effect of inoculation conditions containing three factors of inoculation age, ethanol addition time, and agitation rate on the increase of BC production at three levels was investigated using the response surface methodology with the Box–Behnken design algorithm. Under the optimal conditions including inoculum age of 3 days, ethanol addition time of 10 days, and stirring speed of 100 rpm, the predicted and experimental results of BC production were 21.61 and 20.21 g/L, respectively. This is among the highest ever reported for BC production, which was achieved with a more cost‐effective culture medium containing molasses and CSL.
doi_str_mv	10.1002/bab.2560
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Under the optimal conditions including inoculum age of 3 days, ethanol addition time of 10 days, and stirring speed of 100 rpm, the predicted and experimental results of BC production were 21.61 and 20.21 g/L, respectively. 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The predicted and actual values of BC production in optimal conditions by Taguchi and combined methods were 8.41 and 14.52 g/L, respectively. These results showed that the combined method was more suitable for predicting the optimal conditions in the optimization of BC production, the cost of developed culture medium was around 94% cost of HS medium preparation, molasses was the most effective factor in both experimental design methods, and initial pH adjustment had little impact on BC production. Then, the effect of inoculation conditions containing three factors of inoculation age, ethanol addition time, and agitation rate on the increase of BC production at three levels was investigated using the response surface methodology with the Box–Behnken design algorithm. 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subjects	Acetobacter xylinum Algorithms bacterial cellulose Cell culture Cellulose Cellulose - biosynthesis Cellulose - chemistry Cellulose - metabolism commercial production Culture media Culture Media - chemistry Design of experiments Ethanol Experimental design Food Industry Gluconacetobacter xylinus - metabolism Industrial Waste Inoculation Inoculum Molasses optimization Response surface methodology Syrups & sweeteners
title	Overproduction of bacterial cellulose from Acetobacter xylinum BPR2001 using food industries wastes
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