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木聚糖酶分子结构与重要酶学性质关系的研究进展 总被引:10,自引:0,他引:10
木聚糖是一种多聚五碳糖 ,是植物细胞中主要的半纤维素成分。木聚糖酶是可将木聚糖降解成低聚木糖和木糖的水解酶 ,它在饲料、造纸、食品、能源工业和环境科学上有着广阔的应用前景。随着分子生物学、结构生物学的发展及蛋白质工程的应用 ,对木聚糖酶结构和功能的研究不断深入。这里重点阐述与酶的活性、热稳定性、作用pH、等电点、底物亲和性及催化效率等重要性质相关的分子结构研究进展 ,讨论了其进一步的研究发展方向。研究木聚糖酶结构与功能的关系 ,对进一步加深木聚糖酶作用机制的了解、指导木聚糖酶的分子改良有重要意义。 相似文献
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微生物木聚糖降解酶研究进展及应用前景 总被引:32,自引:0,他引:32
木聚糖是植物半纤维素的主要成分,它是除纤维素外,自然界中最为丰富的多糖。木聚糖的基本结构单元是由β-1.4或β-1.3糖苷键连接的多聚木糖链,在D-木糖的第二位氧上连接有D-葡萄糖醛酸或4-O-甲基葡萄糖醛酸或在第三位氧上连接有L-阿拉伯呋喃糖。有些木聚糖还在第二或第三位氧上发生乙酰化。不同来源的木聚糖在结构上有一定差异。木聚糖酶是一类木聚糖降解酶系(表1),对降解自然界大量存在的半纤维素起着重要作用。它们不但可以降解木聚糖生成木糖,而且能以农作物残渣中的半纤维素为原料生产经济价值较高的产品。由… 相似文献
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微生物发酵产木聚糖酶研究进展 总被引:2,自引:0,他引:2
木聚糖是植物半纤维素的主要成分,是自然界中仅次于纤维素的可再生资源。木聚糖酶是一类重要的木糖苷键水解酶酶系,可将木聚糖逐次降解为低聚木糖及木糖,在饲料、造纸、食品和生物转化等行业应用广泛。目前利用微生物发酵生产木聚糖酶的研究很多,菌种涉及到细菌、真菌等,其发酵生产木聚糖酶的工艺、产量及特性也各有不同,对此进行了综述,并展望了木聚糖酶发酵生产的研究方向。 相似文献
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《生命科学》2021,(6)
将木质纤维素类生物质生物转化生产液体燃料,如纤维素乙醇和大宗化学品,对缓解当前人类社会面临的能源和资源危机以及保护环境具有重要意义。半纤维素是木质纤维素类生物质的主要组成成分之一,它的生物降解转化对实现木质纤维素生物炼制意义重大。由于半纤维素糖种类的多样性和半纤维素结构的复杂性,需要一个复杂的半纤维素酶系才能完成对半纤维素的有效降解。除了木聚糖酶等以外,β-木糖苷酶也是半纤维素酶系的主要组分。在半纤维素降解过程中,β-木糖苷酶将木聚糖酶的水解产物木寡糖和木二糖水解为木糖,不仅在木聚糖的彻底降解过程中起着重要作用,而且可以缓解木寡糖对木聚糖酶和纤维素酶的抑制作用。该文综述了目前在β-木糖苷酶方面的研究进展,包括β-木糖苷酶的分类、酶学性质、酶结构及其催化机制、基因的克隆与表达等,并对β-木糖苷酶在纤维素乙醇生产中的应用情况进行了简述。 相似文献
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微生物木聚糖降解酶系统 总被引:2,自引:0,他引:2
木聚糖类半纤维素是产量仅次于纤维素的植物多糖 ,其结构要比纤维素复杂得多 ,完全降解木聚糖 ,实现植物残体的生物转化需要多种水解酶 (即木聚糖降解酶系统 )的协同作用。木聚糖酶在食品、饲料、纺织、能源工业 ,特别是在纸浆和造纸工业中有着广阔的应用前景 ,如人们将极端嗜热和嗜碱菌的木聚糖酶基因克隆到现有工程菌中生产工业用酶 ,用于纸浆的生物漂白和饲料加工。但是木聚糖资源的开发利用要求完整的酶系统。人们通过对具有木聚糖降解酶系统微生物的研究 ,运用基因工程技术将其构建成发酵工程菌 ,直接利用半纤维素生产单细胞蛋白 ;或者… 相似文献
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木聚糖是植物细胞中含量最高的半纤维素,是一种重要的微生物资源,也是自然界中含量丰富的多糖之一。木聚糖酶是能够将复杂的木聚糖结构水解为木寡糖的一类酶系,按其结构域可分为不同的家族,其中大部分木聚糖酶属于糖苷水解酶的10和11家族,而11家族的木聚糖酶由于分子量较小,比酶活较高等诸多优点使其在饲料、造纸、食品、能源工业有着广阔的应用前景。但是商业化木聚糖酶必须易于生产,酶活较高,并且能够适应工业过程中的各种严格条件,例如饲料与造纸工业过程中有时需要瞬时提高反应温度,这就要求参与这一系列反应的木聚糖酶在高温下有着较高的比酶活和热稳定性。但是一般条件下,很多微生物分泌的木聚糖酶达不到此要求,因此,通过合理的分子生物学方法提高木聚糖酶的热稳定性使其在工业生产中发挥更大的作用是人们不断追求的目标。本文重点阐述二硫键、糖基化、疏水作用等蛋白的重要性质,结合作者自身实验结果,讨论了这些性质对11家族木聚糖酶热稳定性的影响。为进一步加深木聚糖酶作用机制的了解、指导木聚糖酶的分子改良有提供参考。 相似文献
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木聚糖是一种在自然界中含量仅次于纤维素的丰富的可再生资源,木聚糖酶是一类可以将木聚糖水解成单糖和寡糖的酶,利用木聚糖酶将木聚糖分解后的产物被广泛应用于食品、造纸以及纺织等行业。木聚糖酶按其对酸碱环境的耐受能力分为碱性木聚糖酶、中性木聚糖酶和酸性木聚糖酶,其中碱性木聚糖酶适合应用于造纸工业中,尤其在造纸的制浆、促进漂白及废纸脱墨等多种工艺中,可以显著提高纸张质量,有效降低氯气排放量,从而减少对环境的污染。随着生物技术的进步,利用基因工程技术可以对碱性木聚糖酶进行分子改造,以提高其耐碱、耐热能力,扩大其在工业应用中的条件范围。介绍碱性木聚糖酶在分子改造方面的研究进展以及其在造纸漂白和制浆、废纸脱墨中的应用。 相似文献
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Production of xylanase by the ruminal anaerobic fungus Neocallimastix frontalis. 总被引:1,自引:0,他引:1
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Xylanase (1,4-beta-D-xylan xylanohydrolase, EC 3.2.1.8) production was investigated in the ruminal anaerobic fungus Neocallimastix frontalis. The enzyme was released principally into the culture fluid and had pH and temperature optima of 5.5 and 55 degrees C, respectively. In the presence of low concentrations of substrate, the enzyme was stabilized at 50 degrees C. Xylobiose was the principal product of xylanase action, with lesser amounts of longer-chained xylooligosaccharides. No xylose was detected, indicating that xylobiase activity was absent. Activities of xylanase up to 27 U ml-1 (1 U represents 1 micromol of xylose equivalents released min-1) were obtained for cultures grown on xylan (from oat spelt) at 2.5 mg ml-1 in shaken cultures. No growth occurred in unshaken cultures. Xylanase production declined with elevated concentrations of xylan (less than 2.5 mg ml-1), and this was accompanied by an accumulation of xylose and, to a lesser extent, arabinose. Addition of either pentose to cultures grown on low levels of xylan in which neither sugar accumulated suppressed xylanase production, and in growth studies with the paired substrates xylan-xylose, active production of the enzyme occurred during growth on xylan only after xylose had been preferentially utilized. When cellobiose, glucose, and xylose were tested as growth substrates for the production of xylanase (each initially at 2.5 mg ml-1), they were found to be less effective than xylan, and use of xylan from different origins (birch wood or larch wood) as the growth substrate or in the assay system resulted in only marginal differences in enzyme activity. However, elevated production of xylanase occurred during growth on crude hemicellulose (barley straw leaf). The results are discussed in relation to the role of the anaerobic fungi in the ruminal ecosystem, and the possible application of the enzyme in bioconversion processes is also considered. 相似文献
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Xylanase (1,4-beta-D-xylan xylanohydrolase, EC 3.2.1.8) production was investigated in the ruminal anaerobic fungus Neocallimastix frontalis. The enzyme was released principally into the culture fluid and had pH and temperature optima of 5.5 and 55 degrees C, respectively. In the presence of low concentrations of substrate, the enzyme was stabilized at 50 degrees C. Xylobiose was the principal product of xylanase action, with lesser amounts of longer-chained xylooligosaccharides. No xylose was detected, indicating that xylobiase activity was absent. Activities of xylanase up to 27 U ml-1 (1 U represents 1 micromol of xylose equivalents released min-1) were obtained for cultures grown on xylan (from oat spelt) at 2.5 mg ml-1 in shaken cultures. No growth occurred in unshaken cultures. Xylanase production declined with elevated concentrations of xylan (less than 2.5 mg ml-1), and this was accompanied by an accumulation of xylose and, to a lesser extent, arabinose. Addition of either pentose to cultures grown on low levels of xylan in which neither sugar accumulated suppressed xylanase production, and in growth studies with the paired substrates xylan-xylose, active production of the enzyme occurred during growth on xylan only after xylose had been preferentially utilized. When cellobiose, glucose, and xylose were tested as growth substrates for the production of xylanase (each initially at 2.5 mg ml-1), they were found to be less effective than xylan, and use of xylan from different origins (birch wood or larch wood) as the growth substrate or in the assay system resulted in only marginal differences in enzyme activity. However, elevated production of xylanase occurred during growth on crude hemicellulose (barley straw leaf). The results are discussed in relation to the role of the anaerobic fungi in the ruminal ecosystem, and the possible application of the enzyme in bioconversion processes is also considered. 相似文献
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M. Perttula M. Rättö M. Kondradsdottir J. K. Kristjansson L. Viikari 《Applied microbiology and biotechnology》1993,38(5):592-595
Thermophilic, aerobic bacteria isolated from Icelandic hot springs were screened for xylanase activity. Of 97 strains tested, 14 were found to be xylanase positive. Xylanase activities up to 12 nkat/ml were produced by these strains in shake flasks on xylan medium. The xylanases of the two strains producing the highest activities (ITI 36 and ITI 283) were similar with respect to temperature and pH optima (80°C and pH 8.0). Xylanase production of strain ITI 36 was found to be induced by xylan and xylose. Xylanase activity of 24 nkat/ml was obtained with this strain in a laboratory-scale-fermentor cultivation on xylose medium. -Xylosidase activity was also detected in the culture filtrate. The thermal half-life of ITI 36 xylanase was 24 h at 70°C. The highest production of sugars from hydrolysis of beech xylan was obtained at 70°C, although xylan depolymerization was detected even up to 90°C.
Correspondence to: M. Rättö 相似文献
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Purification and some properties of an alkaline xylanase from alkaliphilic Bacillus sp. strain 41M-1. 总被引:6,自引:2,他引:4
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An alkaliphilic Bacillus sp. strain, 41M-1, isolated from soil produced multiple xylanases extracellularly. One of these xylanases was purified to homogeneity by ammonium sulfate fractionation and anion-exchange chromatography. The moleculr mass of this enzyme (xylanase J) was 36 kDa, and the isoelectric point was pH 5.3. Xylanase J was most active at pH 9.0. The optimum temperature for the activity at pH 9.0 was around 50 degrees C. The enzyme was stable up to 55 degrees C at pH 9.0 for 30 min. Xylanase J was completely inhibited by the Hg2+ion and N-bromosuccinimide. The predominant products of xylan hydrolysate were xylobiose, xylotriose, and higher oligosaccharides, indicating that the enzyme was an endoxylanase. The apparent Km and Vmax values on xylan were 3.3 mg/ml and 1,100 micromol-1 mg-1, respectively. Xylanase J showed high sequence homology with the xylanases from Bacillus pumilus and Clostridium acetobutylicum in the N-terminal region. Xylanase J acted on neither crystalline cellulose nor carboxymethyl cellulose, indicating a possible application of the enzyme in biobleaching processes. 相似文献
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Introduction of the Bacteroides ruminicola xylanase gene into the Bacteroides thetaiotaomicron chromosome for production of xylanase activity. 总被引:1,自引:1,他引:0
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The xylanase gene from the ruminal bacterium Bacteroides ruminicola 23 is highly expressed in colonic Bacteroides species when carried on plasmid pVAL-RX. In order to stabilize xylanase expression in the absence of antibiotic selection, the xylanase gene was introduced into the chromosome of Bacteroides thetaiotaomicron 5482 by using suicide vector pVAL-7. Xylanase activity in the resulting strain, B. thetaiotaomicron BTX, was about 30% of that observed in B. thetaiotaomicron 5482 containing the xylanase gene on pVAL-RX. The data obtained from continuous culture experiments using antibiotic-free medium showed that expression of xylanase activity in strain BTX was extremely stable, with no demonstrated loss of the inserted xylanase gene over 60 generations, with dilution rates from 0.42 to 0.03 h-1. In contrast, the plasmid-borne xylanase gene was almost completely lost by 60 generations in the absence of antibiotic selection. Incubation of strain BTX with oatspelt xylan resulted in the degradation of more than 40% of the xylan to soluble xylooligomers. The stability of xylanase expression in B. thetaiotaomicron BTX suggests that this microorganism might be suitable for introduction into the rumen and increased xylan degradation. 相似文献
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Xylanase IV, an Exoxylanase of Aeromonas caviae ME-1 Which Produces Xylotetraose as the Only Low-Molecular-Weight Oligosaccharide from Xylan
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A novel xylanase (xylanase IV) which produces xylotetraose as the only low-molecular-weight oligosaccharide from oat spelt xylan was isolated from the culture medium of Aeromonas caviae ME-1. By sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the xylanase IV molecular weight was 41,000. Xylanase IV catalyzed the hydrolysis of oat spelt xylan, producing exclusively xylotetraose. The acid hydrolysate of the product gave d-xylose. The enzyme did not hydrolyze either p-nitrophenyl-(beta)-d-xyloside, small oligosaccharides (xylobiose and xylotetraose), or polysaccharides, such as starch, cellulose, carboxymethyl cellulose, laminarin, and (beta)-1,3-xylan. 相似文献
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The xylanase gene from the ruminal bacterium Bacteroides ruminicola 23 is highly expressed in colonic Bacteroides species when carried on plasmid pVAL-RX. In order to stabilize xylanase expression in the absence of antibiotic selection, the xylanase gene was introduced into the chromosome of Bacteroides thetaiotaomicron 5482 by using suicide vector pVAL-7. Xylanase activity in the resulting strain, B. thetaiotaomicron BTX, was about 30% of that observed in B. thetaiotaomicron 5482 containing the xylanase gene on pVAL-RX. The data obtained from continuous culture experiments using antibiotic-free medium showed that expression of xylanase activity in strain BTX was extremely stable, with no demonstrated loss of the inserted xylanase gene over 60 generations, with dilution rates from 0.42 to 0.03 h-1. In contrast, the plasmid-borne xylanase gene was almost completely lost by 60 generations in the absence of antibiotic selection. Incubation of strain BTX with oatspelt xylan resulted in the degradation of more than 40% of the xylan to soluble xylooligomers. The stability of xylanase expression in B. thetaiotaomicron BTX suggests that this microorganism might be suitable for introduction into the rumen and increased xylan degradation. 相似文献
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研究了里氏木霉GXC产木聚糖酶的条件和酶学性质。结果表明,适宜产酶碳源为乳糖、甘露糖、棉子糖、木聚糖和麸皮,氮源为牛肉膏和酵母膏;产酶的最适初始pH为4.0,30℃培养60h。对以麸皮为碳源的培养液进行纯化的酶特性研究表明,木聚糖酶的最适反应温度为50℃,pH为5.5,该酶在pH5.0(7.0和40℃以下相对稳定。Fe3+和Mn2+对木聚糖酶有较大的促进作用,Cu~2+、Fe~2+和Ca~2+ 具有抑制作用。 相似文献