V. Okafor, C. M. Umenne, B. I. Tabugbo, C. P. Okonkwo, J. N. Obiefuna, U. W. Okafor, R. I. Anyalebechi
{"title":"二乙胺在Scylla serrata壳聚糖提取中的脱蛋白和脱乙酰作用研究","authors":"V. Okafor, C. M. Umenne, B. I. Tabugbo, C. P. Okonkwo, J. N. Obiefuna, U. W. Okafor, R. I. Anyalebechi","doi":"10.7176/cmr/12-7-07","DOIUrl":null,"url":null,"abstract":"The potentiality of diethylamine as deproteination and deacetylation agent in the extraction of chitosan from Scylla serrata (giant mud crab) shell was investigated. The aim was to find an alternative agent to inorganic alkalis as possible replacement for use in the production of high quality chitosan with the right stability. Pretreatment of the shell was carried out and followed by demineralization using hydrochloric acid. Diethylamine was used for deproteination and deacetylation by modifying some published protocols. Moisture, ash, fat and protein contents of the extracts were determined using their respective standard methods. Fourier Transform Infrared (FTIR) technique was used for spectroscopic analysis. Scylla serrata shell was composed of 14.25% protein, 32.84% mineral (CaCO 3 ), 31.52% chitin and 21.39% chitosan. Moisture, ash, fat and protein contents of chitin extracted from Scylla serrata shell were 2.35%, 3.03%, 1.79% and 3.85% respectively while those of chitosan were 1.65%, 3.84%, 0.53% and 2.80% respectively. Degree of deacetylation (DDA) and carbon to nitrogen ratio were 69.24% and 5.67 respectively. FTIR spectra of the extracted chitin and chitosan from Scylla serrata showed the presence of some active compounds of carbonyl, amide, amine and hydroxyl groups. However, CH 3 waging along chain (952 cm -1 ), CO stretching at 1026 cm -1 and 1073 cm -1 , and amide II band (1563 cm -1 ) were not found in the extracted chitin while HPO 4 2- and amide III were also not found in the extracted chitosan. These moieties were present in the standard chitin and chitosan respectively. 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Scylla serrata shell was composed of 14.25% protein, 32.84% mineral (CaCO 3 ), 31.52% chitin and 21.39% chitosan. Moisture, ash, fat and protein contents of chitin extracted from Scylla serrata shell were 2.35%, 3.03%, 1.79% and 3.85% respectively while those of chitosan were 1.65%, 3.84%, 0.53% and 2.80% respectively. Degree of deacetylation (DDA) and carbon to nitrogen ratio were 69.24% and 5.67 respectively. FTIR spectra of the extracted chitin and chitosan from Scylla serrata showed the presence of some active compounds of carbonyl, amide, amine and hydroxyl groups. However, CH 3 waging along chain (952 cm -1 ), CO stretching at 1026 cm -1 and 1073 cm -1 , and amide II band (1563 cm -1 ) were not found in the extracted chitin while HPO 4 2- and amide III were also not found in the extracted chitosan. These moieties were present in the standard chitin and chitosan respectively. This study has shown that diethylamine (organic base) has great potential as agent of deproteination and deacetylation in the extraction of chitosan from Scylla serrata . Consequently, academic activity in the area of investigation of the stability of the extracted chitosan from Scylla serrata using diethylamine as deproteination and deacetylation agent is strongly recommended. Keywords : Diethylamine, deproteination, deacetylation, chitin and chitosan, Scylla serrata shell. 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引用次数: 0
摘要
研究了二乙胺作为脱蛋白和脱乙酰剂从大泥蟹壳中提取壳聚糖的可能性。目的是寻找一种无机碱的替代品,作为生产高质量壳聚糖的可能替代品,并具有适当的稳定性。对壳进行预处理,然后用盐酸脱矿。通过修改一些已发表的方案,使用二乙胺进行脱蛋白和去乙酰化。采用各自的标准方法测定提取物的水分、灰分、脂肪和蛋白质含量。采用傅里叶变换红外(FTIR)技术进行光谱分析。Scylla serrata外壳由14.25%的蛋白质、32.84%的矿物(caco3)、31.52%的甲壳素和21.39%的壳聚糖组成。壳聚糖的水分、灰分、脂肪和蛋白质含量分别为1.65%、3.84%、0.53%和2.80%,壳聚糖的水分、灰分、脂肪和蛋白质含量分别为2.35%、3.03%、1.79%和3.85%。脱乙酰度(DDA)和碳氮比分别为69.24%和5.67。经红外光谱分析,锡拉壳聚糖和几丁质均含有羰基、酰胺、胺和羟基等活性化合物。壳聚糖中不存在ch3沿链延伸(952 cm -1), CO在1026 cm -1和1073 cm -1处伸展,以及酰胺II带(1563 cm -1),壳聚糖中不存在HPO 42 -和酰胺III。这些部分分别存在于标准甲壳素和壳聚糖中。本研究表明,二乙胺(有机碱)作为脱蛋白和脱乙酰剂在锡拉壳聚糖的提取中具有很大的潜力。因此,强烈建议开展以二乙胺为脱蛋白和脱乙酰剂对锡拉壳聚糖提取液稳定性的研究。关键词:二乙胺,脱蛋白,脱乙酰,几丁质和壳聚糖,锯齿锡拉壳DOI: 10.7176/CMR/12-7-07出版日期:2020年10月31日
Potentiality of Diethylamine as Agent of Deproteination and Deacetylation in the Extraction of Chitosan from Scylla serrata Shell
The potentiality of diethylamine as deproteination and deacetylation agent in the extraction of chitosan from Scylla serrata (giant mud crab) shell was investigated. The aim was to find an alternative agent to inorganic alkalis as possible replacement for use in the production of high quality chitosan with the right stability. Pretreatment of the shell was carried out and followed by demineralization using hydrochloric acid. Diethylamine was used for deproteination and deacetylation by modifying some published protocols. Moisture, ash, fat and protein contents of the extracts were determined using their respective standard methods. Fourier Transform Infrared (FTIR) technique was used for spectroscopic analysis. Scylla serrata shell was composed of 14.25% protein, 32.84% mineral (CaCO 3 ), 31.52% chitin and 21.39% chitosan. Moisture, ash, fat and protein contents of chitin extracted from Scylla serrata shell were 2.35%, 3.03%, 1.79% and 3.85% respectively while those of chitosan were 1.65%, 3.84%, 0.53% and 2.80% respectively. Degree of deacetylation (DDA) and carbon to nitrogen ratio were 69.24% and 5.67 respectively. FTIR spectra of the extracted chitin and chitosan from Scylla serrata showed the presence of some active compounds of carbonyl, amide, amine and hydroxyl groups. However, CH 3 waging along chain (952 cm -1 ), CO stretching at 1026 cm -1 and 1073 cm -1 , and amide II band (1563 cm -1 ) were not found in the extracted chitin while HPO 4 2- and amide III were also not found in the extracted chitosan. These moieties were present in the standard chitin and chitosan respectively. This study has shown that diethylamine (organic base) has great potential as agent of deproteination and deacetylation in the extraction of chitosan from Scylla serrata . Consequently, academic activity in the area of investigation of the stability of the extracted chitosan from Scylla serrata using diethylamine as deproteination and deacetylation agent is strongly recommended. Keywords : Diethylamine, deproteination, deacetylation, chitin and chitosan, Scylla serrata shell. DOI: 10.7176/CMR/12-7-07 Publication date: October 31st 2020
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