Effects of heterologous expression and N-glycosylation on the hyperthermostable endoglucanase of Pyrococcus furiosus

IF 2.3 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of bioscience and bioengineering Pub Date : 2024-03-08 DOI:10.1016/j.jbiosc.2024.02.006
Hironori Semba , Haruka Kado Horiguchi , Hirokazu Tsuboi , Kazuhiko Ishikawa , Akio Koda
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Abstract

Hyperthermostable endoglucanases of glycoside hydrolase family 12 from the archaeon Pyrococcus furiosus (EGPf) catalyze the hydrolysis of β-1,4-glucosidic linkages in cellulose and β-glucan structures that contain β-1,3- and β-1,4-mixed linkages. In this study, EGPf was heterologously expressed with Aspergillus niger and the recombinant enzyme was characterized. The successful expression of EGPf resulted as N-glycosylated protein in its secretion into the culture medium. The glycosylation of the recombinant EGPf positively impacted the kinetic characterization of EGPf, thereby enhancing its catalytic efficiency. Moreover, glycosylation significantly boosted the thermostability of EGPf, allowing it to retain over 80% of its activity even after exposure to 100 °C for 5 h, with the optimal temperature being above 120 °C. Glycosylation did not affect the pH stability or salt tolerance of EGPf, although the glycosylated compound exhibited a high tolerance to ionic liquids. EGPf displayed the highest specific activity in the presence of 20% (v/v) 1-butyl-3-methylimidazolium chloride ([Bmim]Cl), reaching approximately 2.4 times greater activity than that in the absence of [Bmim]Cl. The specific activity was comparable to that without the ionic liquid even in the presence of 40% (v/v) [Bmim]Cl. Glycosylated EGPf has potential as an enzyme for saccharifying cellulose under high-temperature conditions or with ionic liquid treatment due to its exceptional thermostability and ionic liquid tolerance. These results underscore the potential of N-glycosylation as an effective strategy to further enhance both the thermostability of highly thermostable archaeal enzymes and the hydrolysis of barley cellulose in the presence of [Bmim]Cl.

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异源表达和 N-糖基化对暴热球菌超温内切葡聚糖酶的影响。
来自古菌 Pyrococcus furiosus(EGPf)的糖苷水解酶家族 12 的超稳定内切葡聚糖酶可催化纤维素和含有 β-1,3- 和 β-1,4- 混合连接的β-葡聚糖结构中的β-1,4-葡糖苷连接的水解。本研究用黑曲霉异源表达了 EGPf,并对重组酶进行了鉴定。成功表达的 EGPf 在分泌到培养基中时形成了 N-糖基化蛋白。重组 EGPf 的糖基化对 EGPf 的动力学特性产生了积极影响,从而提高了其催化效率。此外,糖基化还大大提高了EGPf的恒温性,使其在100 °C下暴露5小时后仍能保持80%以上的活性,最佳温度为120 °C以上。糖基化不会影响 EGPf 的 pH 稳定性或耐盐性,尽管糖基化化合物对离子液体具有很高的耐受性。在 20%(v/v)的 1-丁基-3-甲基氯化咪唑([Bmim]Cl)存在下,EGPf 的比活度最高,约为无[Bmim]Cl 时的 2.4 倍。即使在含有 40% (v/v)[Bmim]Cl 的情况下,其比活度也与不含离子液体时相当。糖基化的 EGPf 具有优异的热稳定性和离子液体耐受性,因此有潜力在高温条件下或经离子液体处理后用作纤维素糖化酶。这些结果凸显了 N-糖基化作为一种有效策略的潜力,可进一步提高高耐热性古细菌酶的耐热性以及在[Bmim]Cl 存在下水解大麦纤维素的能力。
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来源期刊
Journal of bioscience and bioengineering
Journal of bioscience and bioengineering 生物-生物工程与应用微生物
CiteScore
5.90
自引率
3.60%
发文量
144
审稿时长
51 days
期刊介绍: The Journal of Bioscience and Bioengineering is a research journal publishing original full-length research papers, reviews, and Letters to the Editor. The Journal is devoted to the advancement and dissemination of knowledge concerning fermentation technology, biochemical engineering, food technology and microbiology.
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