细菌木聚糖酶高产菌的选育及产酶条件

木聚糖是一种在植物体内大量存在的半纤维素,是在自然界中含量仅次于纤维素的一种可再生植物纤维。木聚糖酶(ｘｙｌａｎａｓｅ,ＥＣ3.2.1.8)是一类能够特异降解木聚糖的酶类。近年来,人们将其广泛用于造纸工业的纸浆生物处理,与其他消化酶类一起用作饲料添加剂,以及应用于食品加工工业和纺织工业等。木聚糖酶可以由许多种微生物产生[1],我国多集中于霉菌木聚糖酶的研究。本文报告了一株细菌木聚糖酶产生菌的筛选及产酶条件的研究结果。1　材料和方法11　菌株本实验室分离、保存的木聚糖酶产生菌ＷＸＵＬＩ11及其突变株ＷＬＵＮ024。12　培养…     

碱性木聚糖酶产生菌的筛选与产酶条件

从某造纸厂分别采集排水沟及厂区附近的土样,用透明圈法筛选到了40株产木聚糖酶的细菌,经过复筛得到1株产酶稳定性及酶活性都较高的细菌HNX01。其产酶的最适条件为：6%玉米芯、1%麸皮、0.1%NH4Cl、0.1%NaNO3、1%K2HPO4、0.2%土温80、5mmol/LFeCl3、pH8.0、接种最为3%、250ml三角瓶装50ml。在上述培养基中37℃、220r/min培养24h,木聚糖酶酶活力可达198.4IU/ml。     

黑曲霉产木聚糖酶发酵条件的研究

正交设计试验结果表明,黑曲霉（Ａｓｐｅｒｇｉｌｌｕｓ ｎｉｇｅｒ ｍ１２）产木聚糖酶活力达７６．６０ｕ／ｍｌ,合适的产酶发酵条件如下,培养基（ｇ／Ｌ）：麸皮４０,尿素６．６７,ＫＨ２ＰＯ４ １．０,ＭｇＳＯ４．７Ｈ２Ｏ０．５,ＮａＣｌ０．３,Ｔｗｅｅｎ－８０ ３．０,ＣａＣＯ３ ２．０,２８℃,１２０ｒ／ｍｉｎ水浴振荡培养５．５ｄ。     

产木聚糖酶芽胞菌Y-12的筛选及产酶条件的研究

利用透明圈平板培养和木聚糖发酵试验,筛选出1株高产木聚糖酶的芽胞杆菌,并对该菌株的酶学特性和适宜发酵条件进行研究。结果表明,此菌对秸秆和麦麸的分解率分别为43.3%和63.4%。产酶较高的最适培养条件,即大豆蛋白胨2%、胰蛋白胨3%、酵母粉0.1%和葡萄糖2%。适宜反应温度和pH分别为37℃和7。采用10 L发酵罐发酵,培养48 h后,酶活达3024 U/m l,比三角瓶发酵(酶活达2185 U/m l)提高了38%。     

木聚糖酶产生菌的选育及发酵条件研究

采用富集培养、透明圈平板筛选,从长期在其上堆放秸秆的土壤中分离到-株木聚糖酶产生菌黑曲霉C2。对该菌株进行紫外线诱变处理,然后采用自然选育的方法筛选到-株木聚糖酶高产菌株C2—56,并对该菌株的适宜发酵条件和酶学特性进行了初步研究。结果表明,C2—56三角瓶发酵酶活达656．8U／g,比出发菌株C2提高了140％;发酵条件以80％麸皮和20％玉米芯为培养基,采用3％接种量,在曲盘上发酵72h为宜,酶活达1750U／g;该菌株产生的木聚糖酶具有较差的热稳定性和较好的pH稳定性,适宜反应温度和pH分别为50℃和pH4．2。     

木聚糖酶产生菌的筛选与酶学生化特性

从自然界中筛选出可分泌高产木聚糖酶的黑曲霉,并对其产酶条件和酶学特性进行优化和分析.结果表明:该菌株培养48 h后,所产的木聚糖酶比酶活最高,达到1645.66 U/g;通过培养基的优化,其比酶活达到了2 698.28 U/g.最优培养基组成(质量分数):麸皮75.0％、玉米12.5％、豆粕12.5％.该酶的最适温度为37℃,最适pH为4.5.     

一株产木聚糖酶的黑曲霉固态发酵产酶性质的研究

目的：选育产木聚糖酶活力高的黑曲霉菌株,对其产酶条件进行优化,并研究其酶学性质。方法：通过木聚糖酶解木聚糖产生透明圈的方法,筛选产木聚糖酶菌株,测定固体发酵培养基中玉米芯与麸皮的比例、培养温度、培养时间、添加氮源对产酶的影响。进行了作用温度、pH值、金属离子对酶活力的影响试验,以及酶不同温度下的热稳定性的试验。结果：从自然界筛选得到一株产木聚糖酶的黑曲霉菌株,通过对固态发酵培养条件优化,最终产酶水平达到了5500u／g固体干曲。酶的最适作用温度是45℃、最适作用pH值4．8,是一种偏酸性酶。该酶在45℃以上的温度保存会使酶活力迅速丧失,Mg^2＋、Zn^2＋对该酶有激活作用,而Mn^2＋、Cu^2＋、Hg^2＋则完全抑制酶的活性。结论：选育的黑曲霉菌株产木聚糖酶活力较高,培养条件简单。     

木聚糖酶生产菌株的筛选及产酶条件的优化

以甘蔗渣半纤维素为碳源,从垃圾场土壤中分离到6株分解半纤维素的菌株。通过固态发酵的木聚糖酶活力比较筛选到1株木聚糖酶活力较高的菌株。该菌株18S rDNA序列与曲霉（Aspergillus sp.）的同源性达97%,根据对菌株形态学分析和18S rDNA序列分析的结果,将该菌株鉴定为曲霉HQ3。HQ3的最佳产酶条件为：甘蔗渣:麸皮为7:3（W/W）,固液比为1:4（W/W）,尿素0.4 %,pH7.0,温度30℃,发酵产酶时间4 d。在最佳产酶条件下,其木聚糖酶活最高可达3421U/g干曲。     

黑曲霉产木聚糖酶固态发酵条件及部分酶学性质的研究

实验以棉粕和玉米秆为主要原料,采用单因素和正交实验方法对黑曲霉固态发酵产木聚糖酶的培养条件进行了优化,为了获得高酶活产品的发酵条件。结果表明,最适培养基组分为棉粕和玉米秆的比例为3∶2,固水比为1∶1.2,尿素的最适添加量为2%(以干重计),KH2PO4的最适添加量为0.2%。在此条件下,菌株产酶活性可达6 529U/g干曲。该酶的最适反应温度为55℃,最适pH为5.0,pH稳定范围较宽,在30℃、pH 3.5~6.0范围内处理100min,酶活保持在85%以上,但耐热性不是很理想,在60℃保温30min残余酶活只有17%。     

黑曲霉木聚糖酶的底物特异性和低聚木糖生产

对黑曲霉（Ａｓｐｅｒｇｉｌｌｕｓ ｎｉｇｅｒ）木聚糖酶进行了纯化研究,结果表明,经Ｓｅｐｈａｄｅｘ Ｇ－１００和ＤＥＡＥ－ＳｅｐｈａｄｅｘＡ－５０分离后,获得三个组分,称为Ｘ１、Ｘ２、Ｘ３。它们经ＰＡＧＥ电泳分析均为单一组分。对Ｘ１、Ｘ２、Ｘ３的相关性质,特别是底物特异性也作了研究,纯酶Ｘ３组分或部分纯化的酶可用于生产低聚木糖,产品得率为１０％。     

Rapid production of thermostable cellulase-free xylanase by a strain of Bacillus subtilis and its properties

A Bacillus subtilis strain isolated from a hot-spring was shown to produce xylanolytic enzymes. Their associative/synergistic effect was studied using a culture medium with oat spelts xylan as xylanase inducer. Optimal xylanase production of about 12 U ml⁻¹ was achieved at pH 6.0 and 50°C, within 18 h fermentation. At 50°C, xylanase productivity obtained after 11 h in shake-flasks, 96,000 U l⁻¹ h⁻¹, and in reactor, 104,000 U l⁻¹ h⁻¹ was similar. Increasing temperature to 55°C a higher productivity was obtained in the batch reactor 45,000 U l⁻¹ h⁻¹, compared to shake-flask fermentations, 12,000 U l⁻¹ h⁻¹. Optimal xylanolytic activity was reached at 60°C on phosphate buffer, at pH 6.0. The xylanase is thermostable, presenting full stability at 60°C during 3 h. Further increase in the temperature caused a correspondent decrease in the residual activity. At 90°C, 20% relative activity remains after 14 min. Under optimised fermentation conditions, no cellulolytic activity was detected on the extract. Protein disulphide reducing agents, such as DTT, enhanced xylanolytic activity about 2.5-fold. When is used xylan as substrate, xylanase production decreased as function of time in contrast, with trehalose as carbon source, xylanase production in maintained constant for at least 80 h fermentation.     

Improved xylanase production using apple pomace waste by Aspergillus niger in koji fermentation

Xylanase production by Aspergillus niger NRRL‐567 in solid‐state fermentation (koji fermentation) was optimized using 2⁴ factorial design and response surface methodology. The evaluated variables were the initial moisture level and concentration of inducers [veratryl alcohol (VA), copper sulphate (CS), and lactose (LAC)], leading to the response of xylanase production. Initial moisture level and LAC were found to be the most significant variable for xylanase production (p<0.05). The highest xylanase production was observed with 3578.8 ± 65.3 IU/gds (gram dry substrate) under optimal conditions using initial moisture of 85% (v/w), pH 5.0 and inducers VA (2 mM/kg), LAC 2% (w/w), and CS (1.5 mM/kg) after 48 h of incubation time. Higher xylanase activity of 3952 ± 78.3 IU/gds was attained during scale‐up of the process in solid‐state tray fermentation under optimum conditions after 72 h of incubation time. The present study demonstrates that A. niger NRRL‐567 can efficiently be used to achieve xylanase production with an economical and environmental benefit in solid‐state tray fermentation. The developed process can be used to develop an effective process for commercially feasible bioproduction of xylanases for speciality applications, such as conversion of lignocellulosic biomass to biofuels and other value‐added products.     

木聚糖酶高产菌株选育

以黑曲霉为出发菌,经紫外线和亚硝基胍（NTG）交替诱变处理,获得一株木聚糖酶高产菌,并初步研究了其固体发酵条件,在该条件下最高酶活力可达3181IU／min.gdw。     

高产几丁质酶巴伦葛兹类芽孢杆菌的筛选和发酵条件优化

【目的】鉴定一株来源于中国南海海水样能够分泌多种胞外几丁质酶的类芽孢杆菌CAU904,并优化其产几丁质酶的发酵条件。【方法】采用形态学观察、16S r DNA序列比对及生理生化实验鉴定;通过碳源、氮源、温度、初始p H、表面活性剂种类以及发酵时间的单因素优化实验获得最佳发酵条件。【结果】菌株CAU904被鉴定为巴伦葛兹类芽孢杆菌(Paenibacillus barengoltzii),其最优发酵产酶条件为:0.5%胶体几丁质,0.2%酵母浸提物,0.1%吐温-80,培养基初始p H 7.0,45°C培养72 h。在最优发酵条件下,该菌株最大产酶水平达到8.2 U/m L,比优化前提高了5.4倍。几丁质酶的酶谱分析表明该菌株能够产生多达11种具有几丁质水解活性的同工酶,其中主要酶谱带对应分子量分别为54、47和38 k D。【结论】实验结果为巴伦葛兹类芽孢杆菌几丁质酶的分离纯化和酶的应用提供了基础。     

Comprehensive studies on optimization of cellulase and xylanase production by a local indigenous fungus strain via solid state fermentation using oil palm frond as substrate

The high cost of cellulases remains the most significant barrier to the economical production of bio-ethanol from lignocellulosic biomass. The goal of this study was to optimize cellulases and xylanase production by a local indigenous fungus strain (Aspergillus niger DWA8) using agricultural waste (oil palm frond [OPF]) as substrate. The enzyme production profile before optimization indicated that the highest carboxymethyl cellulose (CMCase), filter paper (FPase), and xylanase activities of 1.06 U/g, 2.55 U/g, and 2.93 U/g were obtained on day 5, day 4, and day 5 of fermentation, respectively. Response surface methodology was used to study the effects of several key process parameters in order to optimize cellulase production. Of the five physical and two chemical factors tested, only moisture content of 75% (w/w) and substrate amount of 2.5 g had statistically significant effect on enzymes production. Under optimized conditions of 2.5 g of substrate, 75% (w/w) moisture content, initial medium of pH 4.5, 1 × 10⁶ spores/mL of inoculum, and incubation at ambient temperature (±30°C) without additional carbon and nitrogen, the highest CMCase, FPase, and xylanase activities obtained were 2.38 U/g, 2.47 U/g, and 5.23 U/g, respectively. Thus, the optimization process increased CMCase and xylanase production by 124.5 and 78.5%, respectively. Moreover, A. niger DWA8 produced reasonably good cellulase and xylanase titers using OPF as the substrate when compared with previous researcher finding. The enzymes produced by this process could be further use to hydrolyze biomass to generate reducing sugars, which are the feedstock for bioethanol production.     

常压室温等离子体快速诱变绿色糖单孢菌筛选 木聚糖酶高产菌株及其酶学性质研究

[目的]利用常压室温等离子体快速诱变绿色糖单孢菌,筛选耐热耐碱木聚糖酶高产菌株,并对其进行酶学性质分析,确保其适用于生物制浆漂白工艺.[方法]采用刚果红平板水解圈法结合摇瓶发酵胞外酶测定法进行菌株筛选,并通过DNS木聚糖酶活性测定等方法对来源于不同突变株的木聚糖酶进行酶学性质分析对比.[结果]筛选出遗传稳定性良好的两株木聚糖酶高产菌株AT24和AT22-2,以麦草浆为诱导底物的粗酶液中,突变株AT24及AT22-2所产的木聚糖酶活性分别为512.74、552.70U/mL,分别为原始菌株S.v的16和17倍的.来源于突变株AT22-2的木聚糖酶的最适反应pH为9.5,最适反应温度为90℃,在50℃-90℃温度范围内具有良好的热稳定性,在100℃条件下处理30 min剩余酶活仍为68％;突变株AT24所产木聚糖酶的最适反应温度为60℃,最适pH为10.0,在60℃-80℃的高温环境下,突变株AT24所产的木聚糖酶具有良好的热稳定性.[结论]突变株AT22-2所产具有耐碱耐高温性质的木聚糖酶,在应用领域尤其在纸浆造纸行业具有较大的潜在应用价值.     

产海因酶的菌种筛选和产酶条件的研究

利用5-苄海因作为唯一氮源法筛选高产海因酶的菌种,从本实验室保存的221株菌种中筛选出12株具有不对称水解5-苄海因生成N-氨甲酰基-苯丙氨酸的菌株,其中假单胞菌（Pseudomonassp.)X4-49具有较高的产酶活力,对此菌的产酶条件的研究表明,产酶的最佳碳源为甘油,最佳氮源为蛋白胨,最佳诱导物为苄海因,尿嘧啶,苄海因作为诱导物的有效浓度为0.2%,产酶的最适培养基的初始pH为7.0。培养条件为33℃,13h。