Optimization of chitin extraction from shrimp waste with Bacillus pumilus A1 using response surface methodology

Chitin extraction from shrimp shells by biological treatment, using the Bacilli Bacillus pumilus A1, is a non-polluting method and offers the opportunity to preserve the exceptional qualities of chitin and its derivatives. However, the major disadvantage of the fermentative way is the low efficiency...

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Veröffentlicht in:	International journal of biological macromolecules 2013-10, Vol.61, p.243-250
Hauptverfasser:	Ghorbel-Bellaaj, Olfa, Hajji, Sawssen, Younes, Islem, Chaabouni, Moncef, Nasri, Moncef, Jellouli, Kemel
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Sprache:	eng
Schlagworte:	Animal Shells - chemistry Animals Bacillus - metabolism Bacillus pumilus Bacillus pumilus A1 Biodegradation, Environmental biological treatment carbon chitin Chitin - chemistry Decapoda (Crustacea) - chemistry Fermentation glucose inoculum Models, Theoretical nuclear magnetic resonance spectroscopy Response surface methodology shrimp Shrimp waste spectral analysis stable isotopes wastes
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container_title	International journal of biological macromolecules
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creator	Ghorbel-Bellaaj, Olfa Hajji, Sawssen Younes, Islem Chaabouni, Moncef Nasri, Moncef Jellouli, Kemel
description	Chitin extraction from shrimp shells by biological treatment, using the Bacilli Bacillus pumilus A1, is a non-polluting method and offers the opportunity to preserve the exceptional qualities of chitin and its derivatives. However, the major disadvantage of the fermentative way is the low efficiency of demineralization and deproteinization. The aim of this study is to improve the yield of extraction which depends on many factors, such as the medium composition and the physical parameters. In order to look for the optimal conditions, a Plackett and Burman design was carried out to screen eight factors influencing the deproteinization and demineralization efficiencies. The four most influencing variables were then examined to achieve the optimization using a central composite design. The results obtained showed that the optimal conditions were: shrimp shell concentration of 70g/l, glucose concentration of 50g/l, pH of 5.0 incubated with 0.225 OD of B. pumilus A1 inoculum, at 35°C and 150rpm for 6 days in 500ml flask containing 100ml of working volume. These conditions led to 88% of demineralization and 94% of deproteinization. 13C CP/MAS NMR spectral analysis of the chitin prepared was carried out and was found to be similar to that of the commercial α-chitin.
doi_str_mv	10.1016/j.ijbiomac.2013.07.001
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However, the major disadvantage of the fermentative way is the low efficiency of demineralization and deproteinization. The aim of this study is to improve the yield of extraction which depends on many factors, such as the medium composition and the physical parameters. In order to look for the optimal conditions, a Plackett and Burman design was carried out to screen eight factors influencing the deproteinization and demineralization efficiencies. The four most influencing variables were then examined to achieve the optimization using a central composite design. The results obtained showed that the optimal conditions were: shrimp shell concentration of 70g/l, glucose concentration of 50g/l, pH of 5.0 incubated with 0.225 OD of B. pumilus A1 inoculum, at 35°C and 150rpm for 6 days in 500ml flask containing 100ml of working volume. 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subjects	Animal Shells - chemistry Animals Bacillus - metabolism Bacillus pumilus Bacillus pumilus A1 Biodegradation, Environmental biological treatment carbon chitin Chitin - chemistry Decapoda (Crustacea) - chemistry Fermentation glucose inoculum Models, Theoretical nuclear magnetic resonance spectroscopy Response surface methodology shrimp Shrimp waste spectral analysis stable isotopes wastes
title	Optimization of chitin extraction from shrimp waste with Bacillus pumilus A1 using response surface methodology
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