Laccase/caffeic acid-catalyzed crosslinking coupled with galactomannan alters the conformational structure of ovalbumin and alleviates Th2-mediated allergic asthma

Ovalbumin(OVA)is the major allergenic protein that can induce T helper 2(Th2)-allergic reactions,for which current treatment options are inadequate.In this study,we developed a polymerized hypoallergenic OVA product via laccase/caffeic acid(Lac/CA)-catalyzed crosslinking in conjunction with galactomannan(Man).The formation of high molecular weight crosslinked polymers and the Ig G-binding were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis(SDS-PAGE)and Western blotting.The study indicated that Lac/CA-catalyzed crosslinking plus Man conjugation substantially altered secondary and tertiary structures of OVA along with the variation in surface hydrophobicity.Gastrointestinal digestion stability assay indicated that crosslinked OVA exhibited less resistance in simulated gastric fluid(SGF)and simulated intestinal fluid(SIF).Mouse model study indicated that Lac-Man/OVA ameliorated eosinophilic airway inflammatory response and efficiently downregulated the expression of Th2-related cytokines(interleukin(IL)-4,IL-5,and IL-13),and upregulated IFN-γand IL-10 expression.Stimulation of bone marrow-derived dendritic cells with Lac-Man/OVA suppressed the expression of phenotypic maturation markers(CD80 and CD86)and MHC class II molecules,and suppressed the expression levels of proinflammatory cytokines.The knowledge obtained in the present study offers an effective way to acquire a hypoallergenic OVA product that can have a therapeutic effect in alleviating OVA-induced allergic asthma.

Analysis of the electron transfer pathway in small laccase by EPR and UV-vis spectroscopy coupled with redox titration

Bacterial small laccases(SLAC) are promising industrial biocatalysts due to their ability to oxidize a broad range of substrates with exceptional thermostability and tolerance for alkaline p H. Electron transfer between substrate, copper centers, and O2is one of the key steps in the catalytic turnover of SLAC. However, limited research has been conducted on the electron transfer pathway of SLAC and SLAC-catalyzed reactions, hindering further engineering of SLAC to produce tunable biocatalysts for novel applications. Herein, the combinational use of electron paramagnetic resonance(EPR) and ultraviolet-visible(UV-vis) spectroscopic methods coupled with redox titration were employed to monitor the electron transfer processes and obtain further insights into the electron transfer pathway in SLAC. The reduction potentials for type 1 copper(T1Cu), type 2 copper(T2Cu) and type 3copper(T3Cu) were determined to be 367 ± 2 mV, 378 ± 5 m V and 403 ± 2 mV,respectively. Moreover, the reduction potential of a selected substrate of SLAC, hydroquinone(HQ), was determined to be 288 mV using cyclic voltammetry(CV). In this way, an electron transfer pathway was identified based on the reduction potentials. Specifically,electrons are transferred from HQ to T1Cu, then to T2Cu and T3Cu, and finally to O2.Furthermore, superhyperfine splitting observed via EPR during redox titration indicated a modification in the covalency of T2Cu upon electron uptake, suggesting a conformational alteration in the protein environment surrounding the copper sites, which could potentially influence the reduction potential of the copper sites during catalytic processes. The results presented here not only provide a comprehensive method for analyzing the electron transfer pathway in metalloenzymes through reduction potential measurements, but also offer valuable insights for further engineering and directed evolution studies of SLAC in the aim for biotechnological and industrial applications.

Characteristics of Cellulases from Anoplophora glabripennis Motsch (Coleoptera: Cerambycidae)

The property of major cellulases from the guts of Anoplophora glabripennis larvae have been characterized. The optimal temperatures of both β 1,4 glucosidase (β glucosidase) and endo β 1,4 endoglucanase (endoglucanase, Cx) are 40℃. The β glucosidase was optimally active at pH 4\^8, while the optimal activity of the endoglucanase occurred at pH 4 4 5 6 The endoglucanase was active with a wide range of pH and temperature, the levels of activity from 25℃ to 50℃ were more than 80%, and the activity remained 60% between pH 3 2 and pH 7 2. The endoglucanase exhibited higher thermal stability than β glucosidase. Both enzymes lose their activities by heat treatment at 60℃. Two isozymes of endoglucanase were detected in sodium carboxymethylcellulose polyacrymide gels (CMC gel) by chemical colorization, and purified by elution from the gel slices. The molecular weights of the two isozymes were estimated as 26kD and 39kD respectively. Moreover molecular characteristics of the two isozymes are currently underway.

Screening for a Novel Trichoderma vride Strain Highly Producing Cellulase via Ultraviolet Mutagenesis

[Objective] The aim of this study was to find out a new Trichoderma vride K strain highly producing cellulase.[Method] Ultraviolet（UV） was used to induce mutagenesis on T.vride K and to select out a new Trichoderma vride strain highly producing cellulase from the first round and further selection.[Result] A new T.vride strain K6 with high yield of cellulase was obtained with the enzyme production amount of 1.39 times over that of starting strain K.This strain showed highest cellulase yield under the culture condition of 28 ℃ for 96 h.[Conclusion] The strain K6 selected out from induced mutation is endowed with better capacity of producing cellulase,which provides a new method for the utilization of straw.

Improvement of Cellulase Producing Capacity of Aspergillus niger by Ultraviolet Mutation

[Objective] The research aimed to breed the high-yield production strain of cellulase.[Method] Aspergillus niger was used as the starting strain,and a high-yield production strain of cellulase was selected after UV mutation treatment.[Result] Under the suitable condition,the strain 2（15） with the highest CMC production capacity was selected,which nearly increased 50% than that of the starting strain.[Conclusion] The research provided the foundation for its appliation in the feed production in the future.

植物细胞脱壁酶Cellulase ZA-P的制备和应用效果

Cellulase ZA-P的产生菌为李氏木霉(Trichoderma reesei ZA-1)。研究出适于此菌产酶的液体发酵培养基配方和最佳发酵条件。其发酵液的滤纸酶活力达1.0～2.5IU/ml。发酵液经调节pH值,硫酸铵低浓度盐析和聚苯胺酚树脂脱色等处理后酶液得到纯化,最后经一种简便经济的脱盐干燥方法获得精制酶粉。Cellulase ZA-P可用于蚕豆、大小麦、番茄、烟草和青菜等多种科属植物的原生质体制备。在水稻和番茄上进行的测定试验表明,Cellulase ZA-P能分离产生大量的原生质体,其中番茄原生质体的成活率大于90％,经培养后能正常分裂形成细胞团,并进一步发育成植株。对细胞脱壁效果,原生质体成活率及原生质体分裂频率等方面与Onozuka R-10及RS的效果相当,而对原生质体无毒害。

植物细胞脱壁酶Cellulase ZA-P的性质分析

植物细胞脱壁酶 Cellulase ZA-P 是一种灰白色粉末,酶溶液的颜色极淡,透明,无沉淀,在45℃以下、pH4～7范围内其纤维素酶活力有较好的稳定性,粉剂贮藏1年以上其滤纸酶活力不变。Cellulase ZA-P 的滤纸酶活力为176.7IU/g,CMC 酶活力为1192.9IU/g,棉花酶活力为22.2IU/g,半纤维素酶活力为322IU/g,几丁质酶活力为4.0IU/g。果胶酶、蛋白酶、RNA 酶和过氧化氢酶的含量均很低,未测出α一淀粉酶酶活。制备原生质体的效果、物理性状以及酶系分析结果相似于日本 Yakult Honsha Co 的 Cellulase Onozuka R-10。CellulaseZA-P 对植物原生质体无毒害,适于制备各种植物的原生质体。

Optimization of Some Culture Conditions for Biosynthesis of Cellulase by Trichoderma vivide

[ Objective] To determine the best culture time and inducer for the biosynthesis of cellulase by Trichoderma vivide and thus provide the conditions for its practical application. [ Method] Within the 7 d after the inoculation of Trichoderma vivide ZJ strain, the cultures were collected once every day, and the enzyme yield was respectively determined by 3,5-dinitresalicylic acid assay. The Trichodernm vivide ZJ strain was inoculated into basal medium added by different types of carbon sources or nitrogen sources, and the growth of Trichoderma viride was observed. And the mycalium weight as well as the yield of CMCase enzyme after different culture time was determined. [Result] The optimal culture time for Trichoderma viride ZJ strain was 72-96 h; it grew rapidly in the medium added by monosaccharide or disaccharide as carbon sources, and the production of CMCase enzyme reached a peak after 3 -4 d post inoculation. Cellulose powder was the best carbon inducer. The compound nitrogen source composed of 1 g/L ammonium sulfate and 2 g/L yeast extract was the most suitable for the growth of ZJ strain and produced the highest enzyme activity. [ Condusion] The largest enzyme yield should be obtained after 3-4 d post the inoculation of Trichoderma viride ZJ strain. With cellulose powder as a carbon source and the complex substance composed of ammonium sulfate and yeast extract as a nitrogen source, Trichoderma viride has the highest enzyme activity.

Cellulase Extraction and Gas Chromatography Detection Technology of Swainsonine from Astragalus strictusin in Tibet

Locoweed is a poisonous plant wildly distributed in most areas of the world,which causes livestock poisoning or death with serious economic loss.The Astragalus strictus belongs to a species of Iocoweed.It is mainly distributed in Tibet of China and is a serious hazard to the local livestock industry.The objective of this study is extracting and purifying condition of Swainsonine from Astragalus strictus with the cellulase extraction method.An optimum extracting technology of SW from Astragalus strictus was investigated through the orthogonal experiment under the cellulose assistance conditions,and then the content of swainsonine was analyzed with gas chromatography （GC） method.The optimized extraction conditions were as follow：The crushed mesh is 40; solid-liquid ratio is 1∶40 （g/ml）; enzyme dosage is 3.5％; enzymatic time is 3 h.Under the above conditions,the extraction percentage of the swainsonine was 0.003 941％.The conditions for extracting swainsonine with cellulase extraction method are mild,it is easy to utilize industrial production.It is benefit for producing swainsonine from Astragalus strictus.

DNA去甲基化酶对拟南芥Laccase家族基因甲基化及转录模式的影响

植物Laccase家族蛋白,是铜蓝氧化酶超家族的重要成员,具有包括抗病性在内的多种生物学功能。利用拟南芥野生型及ros1、rdd和dme突变体的全基因组甲基化测序(BS-SEQ)数据,分析了拟南芥Laccase蛋白家族基因(AtLACs)的DNA甲基化模式。结果表明:在野生型和不同DNA去甲基化酶突变体中,该家族少数成员在基因上游区和转录区存在较高水平的甲基化修饰现象。转录组测序(RNA-SEQ)数据分析结果显示,在野生型和不同突变体中,ALAC家族基因的转录水平普遍较低。而AT5G48100基因在拟南芥胚乳细胞中剧烈表达,DME突变后,其表达水平进一步剧烈增强。综合而言,在野生型和不同DNA去甲基化酶突变体中,ALAC基因家族大部分成员的DNA甲基化修饰与转录调控关联不强,但有些基因的DNA甲基化程度与转录水平之间有密切联系。

Decolorization of reactive dyes by laccase immobilized in alginate/gelatin blent with PEG

To achieve effective decolorization of reactive dyes,laccase immobilization was investigated.Laccase 0.2%(m/V)(Denilite IIS) was trapped in beads of alginate/gelatin blent with polyethylene glycol(PEG),and then the supporters were activated by cross-linking with glutaraldehyde.The results of repeated batch decolorization showed that gelatin and appropriate concentration of glutaraldehyde accelerated the decolorization of Reactive Red B-3BF(RRB);PEG had a positive effect on enzyme stability and led to an inc...

Influence of lactic acid bacteria, cellulase, cellulase-producing Bacillus pumilus and their combinations on alfalfa silage quality

This study assessed the effects of lactic acid bacteria(LAB), cellulase, cellulase-producing Bacillus pumilus and their combinations on the fermentation characteristics, chemical composition, bacterial community and in vitro digestibility of alfalfa silage. A completely randomized design involving a 8(silage additives)×3 or 2(silage days) factorial arrangement of treatments was adopted in the present study. The 8 silage additive treatments were: untreated alfalfa(control); two commercial additives(GFJ and Chikuso-1); an originally selected LAB(Lactobacillus plantarum a214) isolated from alfalfa silage; a cellulase-producing Bacillus(CB) isolated from fresh alfalfa; cellulase(C); and the combined additives(a214+C and a214+CB). Silage fermentation characteristics, chemical composition and microorganism populations were analysed after 30, 60 and 65 days(60 days followed by exposure to air for five additional days). In vitro digestibility was analysed for 30 and 60 days. Compared with the other treatments, selected LAB a214, a214 combined with either C or CB, and Chikuso-1 had the decreased(P<0.001) pH and increased(P<0.001) lactic acid concentrations during the ensiling process, and there were no differences(P>0.05) among them. Fiber degradation was not significant(P≥0.054) in any C or CB treatments. The a214 treatment showed the highest(P=0.009) in vitro digestibility of dry matter(595.0 g kg–1DM) after ensiling and the highest abundance of Lactobacillus(69.42 and 79.81%, respectively) on days 60 and 65, compared to all of other treatments. Overall, the silage quality of alfalfa was improved with the addition of a214, which indicates its potential as an alfalfa silage inoculant.

Effects of nonionic surfactant Triton X-100 on the laccase-catalyzed conversion of bisphenol A

The laccase-catalyzed conversion of bisphenol A （BPA） in aqueous solutions was studied in the absence and presence of nonionic surfactant Triton X-100. It was found that the addition of Triton X-100 into the reaction system increased the conversion of BPA, especially near the critical micelle concentration of Triton X-100. Also it was found that the stability of laccase was greatly improved in the presence of TritonX-100. Studies on the endogenous fluorescence emission of laccase indicated that there existed an interaction between Triton X-100 and laccase, which was beneficial to folding and stabilizating of laccase. The binding of Triton X-100 to the laccase surface also mitigated the inactivation effect caused by the free radicals and polymerization products. Under otherwise identical conditions, a lower dosage of laccase was needed for the higher conversion of BPA in the presence of Triton X-100.

Production of laccase by Coriolus versicolor and its application in decolorization of dyestuffs: (Ⅱ) Decolorization of dyes by laccase containing fermentation broth with or without self-immobilized mycelia

The capability of decolorization for commercial dyes by Coriolus versicolor fermentation broth containing laccase with or without immobilized mycelium was evaluated. With cell free fermentation broth containing laccase, high decolorization ratio was achieved for acid orange 7, but not for the other dyes concerned. The immobilized mycelium was proved to be more efficient than the cell free system. All the four dyestuffs studied were found being decolourized with certain extent by immobilized mycelium. The repeated batch decolorization was carried out with satisfactory results. The experimental data showed that the continuous decolorization of wastewater from a printing and dyeing industry was possible by using the self immobilized C. Versicolor.

Cloning,expression in Escherichia coli,and enzymatic properties of laccase from Aeromonas hydrophila WL-11

A strain WL-11 with high laccase activity was isolated from activated sludge collected from the effluent treatment plant of a textile and dyeing industry. It was identified as Aeromonas hydrophila by physiological test and 16S rDNA sequence analysis. A gene encoding of laccase from a newly isolated Aeromonas hydrophila WL-11 was cloned and characterized. Nucleotide sequence analysis showed an open reading frame of 1605 bp encoding a polypeptide comprised of 534 amino acids. The primary structure of the enzyme predicted the structural features characteristic of other laccases, including the conserved regions of four histidine-rich copper-binding sites. The predicted amino acid sequence showed a high homology （more than 60%） with bacterial laccases in the genome and protein databases and the highest degree of similarity （61% identity） was observed with the multicopper oxidase of KlebsieUa sp. 601. When expressed in Escherichia coli, the recombinant enzyme was overproduced in the cytoplasm as soluble and active form. The purified enzyme had an optimum pH of 2.6 and 8.0 for ABTS （2,2＇-azino-bis（3-ethylbenzthiazolinesulfonic acid） and DMP （2,6-dimethoxyphenol）, respectively. The kinetic study on ABTS revealed a higher affinity of this enzyme to this substrate than DMP.

Decolorization on Indigo Dyeing Wastewater by Laccase from Coriolus versicolor

[ Object] The study aimed to discuss the decolorization on indigo dyeing wastewater by laccase from Coriolus versicolor. [ Method ] Firstly, the effects of temperature, pH, indigo concentration, HBT concentration, laccase dosage on the decolorization of indigo dyeing wastewater by laccase/HBT, and then the synergism of laccase and acid cellulase was analyzed. [Result] Using ABTS as the substrate, the kinetic parame- ters, K,, and Vmax, were 0.318 mmol/L and 0.035 5 mmol/（ L . min） respectively. The decolorization rate of indigo reached 96.5% when the lacca- se acted on indigo for 40 min with HBT as an introducer at temperature 50 ℃, pH =4.5, indigo concentration 100 mg/L, HBT concentration 0.1% and laccase dosage 100 lU/L. Due to the synergism of laccase and acid cellulase during the bio-finishing of blue jeans, the backstaining degree of blue jeans reduced by 85% when the amount of laccase added was 15 000 IU/kg. Menawhile, the synergism of the laccase and acid cellulase de- creased indigo concentration in wastewater by 83.8%. [ Conclusion ] The laccase from Coriolus versicolor had a good prospect in the bio-finishing of blue jeans and the decolorization of indigo dyeing wastewater.

Preparation of Magnetic Chitosan Nanoparticles and Immobilization of Laccase

The magnetic chitosan nanoparticles were prepared by reversed-phase suspension method using Span-80 as an emulsifier, glutaraldehyde as cross-linking reagent. And the nanoparticles were characterized by TEM, FT-IR and hysteresis loop. The results show that the nanoparticles are spherical and almost superparamagnetic. The laccase was immobilized on nanoparticles by adsorption and subsequently by cross-linking with glutaraldehyde. The immobilization conditions and charac-terizations of the immobilized laccase were investigated. The optimal immobilization conditions were as follows： 10 mL of phosphate buffer （0.1 M, pH 7.0） containing 50 mg of magnetic chitosan nanoparticles, 1.0 mg·mL-1 of laccase and 1% （v/v） glutaraldehyde, immobilization temperature of 4 ℃ and immobilization time of 4 h. The immobilized laccase exhibited an appreciable catalytic capability （480 units·g-1 support） and had good storage stability and operation stability. The Km of immobilized and free laccase for ABTS were 140.6 and 31.1 μM in phosphate buffer （0.1 M, pH 3.0） at 37 ℃, respectively. The immobilized laccase is a good candidate for the research and development of biosensors based on laccase catalysis.

Effect of Cellulase and Lactic Acid Bacteria on Fermentation Quality and Chemical Composition of Wheat Straw Silage

The object of this study was to determine the effect of cellulase and lactic acid bacteria (LAB) on fermentation quality and chemical composition of wheat straw silage. Silages were prepared using a small-scale fermentation system and the moisture level was adjusted to 60% of fresh matter (FM) with deionized water. Treatments were designed as: control silage without additives, LAB inoculant Lactobacillus casei Z3-1 (1.0 × 106 cfu·g-1 of FM), commercial inoculant L. plantarum FG 1 (1.0 × 106 cfu·g-1 of FM), Z3-1 + cellulase and FG 1 + cellulase. The neutral detergent fiber (NDF), acid detergent fiber (ADF) and crude protein (CP) contents of the wheat straw prior to ensiling were 76.93%, 48.52% and 4.63% of dry matter (DM), respectively. After 30 days of fermentation, the silages treated with LAB and LAB + cellulase had a lower (P < 0.05) pH and higher (P < 0.05) lactic acid content than the control, and the coliform bacteria, yeast and mold were inhibited at the early stage of fermentation. Besides, silages treated with cellulase had lower (P < 0.05) values of ADF and NDF than the control. The results confirmed that the addition of cellulase and LAB contributed to improving the fermentation quality of wheat straw silage.

Effects of cellulase and xylanase enzymes mixed with increasing doses of Salix babylonica extract on in vitro rumen gas production kinetics of a mixture of corn silage with concentrate

An in vitro gas production （GP） technique was used to investigate the effects of combining different doses of Salix babylonica extract （SB） with exogenous fibrolytic enzymes （EZ） based on xylanase （X） and cellulase （C）, or their mixture （XC; 1：1 v/v） on in vitro fermentation characteristics of a total mixed ration of corn silage and concentrate mixture （50：50, w/w） as substrate. Four levels of SB （0, 0.6, 1.2 and 1.8 mL g-1 dry matter （DM）） and four supplemental styles of EZ （1 μL g-1 DM; control （no enzymes）, X, C and XC （1：1, v/v） were used in a 4×4 factorial arrangement. In vitro GP （mL g-1 DM） were recorded at 2, 4, 6, 8, 10, 12, 24, 36, 48 and 72 h of incubation. After 72 h, the incubation process was stopped and supernatant pH was determined, and then filtered to determine dry matter degradability （DMD）. Fermentation parameters, such as the 24 h gas yield （GY24）, in vitro organic matter digestibility （OMD）, metabolizable energy （ME）, short chain fatty acid concentrations （SCFA）, and microbial crude protein production （MCP） were also estimated. Results indicated that there was a SBxEZ interaction （P〈0.0001） for the asymptotic gas production （b）, the rate of gas production （c）, GP from 6 to 72 h, GP2 （P=0.0095）, and GP4 （P=0.02）. The SB and different combination of enzymes supplementation influenced （P〈0.001） in vitro GP parameters after 12 h of incubation; the highest doses of SB （i.e., 1.8 mL g-1 DM）, in the absence of any EZ, quadratically increased （P〈0.05） the initial delay before GP begins （L） and GP at different incubation times, with lowering b （quadratic effect, P〈0.0001 ） and c （quadratic effect, P〈0.0001 ; linear effect, P=0.0018）. The GP was the lowest （P〈0.05） when the highest SB level was combined with cellulose. There were SBxEZ interactions （P〈0.001） for OMD, ME, the partitioning factor at 72 h of incubation （PF72）, GY24, SCFA, MCP （P=0.0143）, and pH （P=0.0008）. The OMD, ME, GY24 and SCFA with supplementation of SB extract at 1.8 mL g-1 DM were higher （P〈0.001） than the other treatments, however,PF72 was lower （quadratic effect, P=0.0194） than the other levels. Both C and X had no effect （P〉0.05） on OMD, pH, ME, GY24, SCFA and MP. The combination of SB with EZ increased （P〈0.001） OMD, ME, SCFA, PFz2 and GP24, whereas there was no impact on pH. It could be concluded that addition of SB extract, C, and X effectively improved the in vitro rumen fermentation, and the combination of enzyme with SB extract at the level of 1.2 mL g-1 was more effective than the other treatments.

Research Progress of Cellulase

Cellulase is a complex enzyme that can decompose cellulose into glucose,and it could effectively treat cellulose waste. In this paper,it aims to explore development status and research progress of cellulase,and introduce concept and action mechanism of cellulase,research situation of cellulase in molecular aspect,application of cellulase,and development of cellulase is also prospected.