Enzymatic degradation of carboxymethyl cellulose hydrolyzed by the endoglucanases Cel5A, Cel7B, and Cel45A from Humicola insolens and Cel7B, Cel12A and Cel45Acore from Trichoderma reesei

化学 里氏木霉 纤维素酶 羧甲基纤维素 水解 酶水解 纤维素 低聚糖 糖苷水解酶 大小排阻色谱法 水解物 色谱法 有机化学
作者
Johan Karlsson,Dane Momcilovic,Bengt Wittgren,Martin Schülein,Folke Tjerneld,Gunnar Brinkmalm
出处
期刊:Biopolymers [Wiley]
卷期号:63 (1): 32-40 被引量:87
标识
DOI:10.1002/bip.1060
摘要

Abstract Enzymatic hydrolysis of carboxymethyl cellulose (CMC) has been studied with purified endoglucanases Hi Cel5A (EG II), Hi Cel7B (EG I), and Hi Cel45A (EG V) from Humicola insolens , and Tr Cel7B (EG I), Tr Cel12A (EG III), and Tr Cel45Acore (EG V) from Trichoderma reesei . The CMC, with a degree of substitution (DS) of 0.7, was hydrolyzed with a single enzyme until no further hydrolysis was observed. The hydrolysates were analyzed for production of substituted and non‐substituted oligosaccharides with size exclusion chromatography (SEC) and with matrix‐assisted laser desorption/ionization mass spectrometry (MALDI‐TOF‐MS). Production of reducing ends and of nonsubstituted oligosaccharides was determined as well. The two most effective endoglucanases for CMC hydrolysis were Hi Cel5A and Tr Cel7B. These enzymes degraded CMC to lower molar mass fragments compared with the other endoglucanases. The products had the highest DS determined by MALDI‐TOF‐MS. Thus, Hi Cel5A and Tr Cel7B were less inhibited by the substituents than the other endoglucanases. The endoglucanase with clearly the lowest activity on CMC was Tr Cel45Acore. It produced less than half of the amount of reducing ends compared to Tr Cel7B; furthermore, the products had significantly lower DS. By MALDI‐TOF‐MS, oligosaccharides with different degree of polymerization (DP) and with different number of substituents could be separated and identified. The average oligosaccharide DS as function of DP could be measured for each enzyme after hydrolysis. The combination of techniques for analysis of product formation gave information on average length of unsubstituted blocks of CMC. © 2002 John Wiley & Sons, Inc. Biopolymers 63: 32–40, 2002
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