Production and Characterization of Thermoalkaliphilic Xylanase from Bacillus halodurans CM1 on Degumming Process of Ramie (Boehmeria nivea L.Gaud)Fiber as Textile Raw Material

Microbiology Indonesia Pub Date : 2021-10-07 DOI:10.5454/mi.15.3.3

Dewi Nandyawati, D. I. Astuti, N. Nurhayati, A. Riswoko, I. Helianti

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引用次数: 1

Abstract

Ramie fiber is a potential raw material to substitute imported raw materials such as cotton. Due to its higher hemicellulose content, ramie fiber required hydrolysis in a process called degumming. Enzymatic degumming is environmentally friendly compared to traditional process which using chemicals. Alkalithermophilic xylanase have high ability in hemicellulose hydrolysis. The production of xylanase was conducted by submerged fermentation of Bacillus halodurans CM1 in 20L bioreactor using Mamo and corncob medium with optimum conditions at 50°C, pH 9, 150 RPM and 1 vvm. The optimum specific activity of xylanase measured by Bailey method at 70°C and pH 9 is 475.41 U/mg. Xylanase was stable at 50°C, pH 9 and relatively stable to K+, Na2+, Co2+ and Ca2+ metal ions and Triton-X, Saba dan Tween-80 surfactants. Degumming process was carried out by immersing ramie fibers in formulated degumming solution with vlot 1:20 at 50°C, 150 RPM and 180 minutes. The enzymatic degumming process may substitute or reduce the use of chemicals due to its significant effect on ramie fiber quality. Enzymatic and chemical degumming process reduce the weight of Ramie Fiber to 7.23 %, and 7.72 %, slightly higher than enzymatic degumming 7.15%. Enzymatic degumming maintains tensile strength at 27.51 %. Whiteness index enhanced to 2.99% enzymatically and 3.49% chemically. Keywords: Bacillus halodurans CM1, enzymatic degumming, ramie fiber, textile industry, thermoalkaliphilic xylanase

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以苎麻纤维为原料脱胶过程中嗜盐芽孢杆菌CM1产热碱木聚糖酶及其特性研究

苎麻纤维是替代棉花等进口原料的潜在原料。由于其较高的半纤维素含量，苎麻纤维需要在脱胶过程中水解。与使用化学药品的传统脱胶工艺相比，酶脱胶对环境更加友好。嗜碱热木聚糖酶具有较高的半纤维素水解能力。在20L生物反应器中，采用玉米玉米芯和Mamo培养基，在50°C、pH 9、150 RPM和1 vvm的条件下，对halodurans cm2进行了深层发酵生产木聚糖酶。贝利法测定木聚糖酶在70℃、pH 9条件下的最佳比活性为475.41 U/mg。木聚糖酶在50℃、pH 9条件下稳定，对K+、Na2+、Co2+、Ca2+金属离子和Triton-X、Saba - dan - Tween-80表面活性剂相对稳定。将苎麻纤维浸泡在vlot为1:20的配制脱胶液中，在50℃，150 RPM, 180 min的条件下进行脱胶。酶解脱胶工艺对苎麻纤维质量有显著影响，可替代或减少化学药品的使用。酶脱胶和化学脱胶可使苎麻纤维的重量分别降低7.23%和7.72%，略高于酶脱胶的7.15%。酶解脱胶使拉伸强度保持在27.51%。酶促白度提高到2.99%，化学白度提高到3.49%。关键词:嗜盐芽孢杆菌CM1，酶脱胶，苎麻纤维，纺织工业，亲热碱木聚糖酶

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Microbiology Indonesia

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