Biodegradation of indole at high concentration by persolvent fermentation with the thermophilic fungus Sporotrichum thermophile

Indole and its derivatives form a class of toxic recalcitrant environmental pollulants. Sporotrichum thermophile was grown in a persolvent fermentation system containing a large amount of indole. The medium contained up to 20% by volume soybean oil and up to 2 g L⁻¹ indole. Most of the indole was partitioned in the organic solvent layer. When the organism was grown in the medium containing indole at 1 g L⁻¹, indole was totally consumed after 6 days. Under a fed–batch fermentation process where daily batches of indole (1 g L⁻¹) supplemented the microbial culture for 4 days, the biodegradation level was 3.0 g L⁻¹. These values make this process promising and worthy of further investigation for the microbial degradation of other toxic compounds.     

Recombinant streptokinase production by fed-batch cultivation of Escherichia coli

Streptokinase (SK) is a specific effective medicine for thrombolytic therapy of acute myocardial infarction. This study established a process for the pilot production of recombinant streptokinase (r-SK). Engineering bacteria were fermented in a 20-l fermentor to produce r-SK. After simple renaturation and purification, 12.9 g of r-SK with 97.8% of purity and about 10⁵ IU mg⁻¹ of specific activity was obtained, the yield of protein and the recovery of activity were 44.9% and 51%, respectively. Finally, the r-SK was made into about 700 doses of injections for clinical applications.     

Translational coupling in a penP-lacZ gene fusion in Bacillus subtilis and Escherichia coli: Use of AUA as a restart codon

Summary An out-of-frame fusion between the penicillinase gene (penP) of Bacillus licheniformis and the -galactosidase gene (lacZ) of Escherichia coli was shown to direct the synthesis of an active -galactosidase with the same electrophoretic mobility as the wild-type protein, both in B. subtilis and E. coli. This synthesis was dependent on translation of the truncated penP gene and appeared to result from translational coupling. The fusion point between penP and lacZ contained the sequence AUAG, in which the UAG and AUA codons were in-frame with the penP and lacZ reading units, respectively. N-terminal amino acid sequence analysis of the -galactosidase protein suggested that, both in B. subtilis and E. coli, reinitiation of translation occurred at the AUA codon present at the gene fusion point.     

Purification and characterization of a thermostable intracellular β-xylosidase from the thermophilic fungus Sporotrichum thermophile

An intracellular β-xylosidase from the thermophilic fungus Sporotricum thermophile strain ATCC 34628 was purified to homogeneity by Q-Sepharose and Mono-Q column chromatographies. The protein properties correspond to molecular mass and pI values of 45 kDa and 4.2, respectively. The enzyme is optimally active at pH 7.0 and 50 °C. The purified β-xylosidase is fully stable at pH 6.0–8.0 and temperatures up to 50 °C and retained over 58% of its activity after 1 h at 60 °C. The enzyme hydrolyzes β-1,4-linked xylo-oligosaccharides with chain lengths from 2 to 6, releasing xylose from the non-reducing end, but is inactive against xylan substrates. The apparent K_m and V_max values from p-nitrophenyl β-d-xylopyranoside are 1.1 mM and 114 μmol p-nitrophenol min⁻¹ mg⁻¹, respectively. Alcohols inactivate the enzyme, ethanol at 10% (v/v) yields a 30% decrease of its activity. The enzyme is irreversibly inhibited by 2,3-epoxypropyl β-d-xylobioside while alkyl epoxides derived from d-xylose were not inhibitors of the enzyme. The enzyme catalyses the condensation reaction using high donor concentration, up to 60% (w/v) xylose.     

Cloning and expression of the gene for neutral protease of Bacillus amyloliquefaciens in Bacillus subtilis

A Bacillus amyloliquefaciens neutral protease gene was cloned and expressed in Bacillus subtilis.The chromosomal DNA of B. amyloliquefaciens strain F was partially digested with restriction endonuclease Sau3AI, and 2 to 9 kb fragments isolated were ligated into the BamHI site of plasmid pUB110. Then, B. subtilis strain 1A289 was transformed with the hybrid plasmids by the method of protoplast transformation and kanamycin-resistant transformants were screened for the formation of large halo on a casein plate. A transformant that produced a large amount of an extracellular neutral protease harbored a plasmid, designated as pNP150, which contained a 1.7 kb insert.The secreted neutral protease of the transformant was found to be indistinguishable from that of DNA donor strain B. amyloliquefaciens by double immunodiffusion test and SDS-polyacrylamide gel electrophoresis.The amount of the neutral protease activity excreted into culture medium by the B. subtilis transformed with pNP150 was about 50-fold higher than that secreted by B. amyloliquefaciens. The production of the neutral protease in the transformant was partially repressed by addition of glucose to the medium.     

枯草芽胞杆菌降解毒死蜱特性研究

研究生物量、pH、毒死蜱浓度和温度对枯草芽胞杆菌3374菌株(编号为GU086422)在水溶液中降解毒死蜱特性,考察该菌株对白菜上毒死蜱残留的降解特性。结果表明,在毒死蜱质量浓度为240 mg/L、pH7.0、温度30℃的适宜条件下,枯草芽胞杆菌3374菌株对毒死蜱的降解率达到92.48%。该菌株能够有效提高白菜叶面上毒死蜱残留的降解速度,表明其在白菜上具有有效降解毒死蜱的能力,在无公害农产品生产中具有广阔的应用潜力。     

荧光标记噬菌体快速检测K1荚膜大肠杆菌方法的建立及应用

【背景】大肠杆菌(Escherichia coli,E.coli)是引发新生儿脑膜炎和禽类脑膜炎最常见的革兰氏阴性菌,其中含K1荚膜大肠杆菌是重要的病原菌。目前,K1荚膜大肠杆菌的检测方法存在一些弊端。【目的】利用PNJ1809-36噬菌体的宿主特异性建立快速检测K1荚膜大肠杆菌的方法。【方法】用荧光染料SYBR Gold标记PNJ1809-36噬菌体,侵染33株受试菌,在荧光显微镜下观察,测定该方法的特异性;倍比稀释宿主菌DE058,用荧光标记噬菌体侵染,测定该方法的灵敏度;用荧光标记噬菌体检测8份模拟粪样,测定该方法的临床应用效果;测定4℃避光保存4个月的荧光标记噬菌体的效价和检测效果。【结果】33株受试菌中的9株K1荚膜大肠杆菌有8株可见环状荧光,1株未能检出;20株非K1荚膜大肠杆菌以及4株非大肠杆菌属细菌均不能观察到荧光,检测灵敏度达100CFU/mL。8份模拟粪样的检测结果显示,3份含有K1荚膜大肠杆菌的粪样均可见环状荧光,5份不含K1荚膜大肠杆菌的粪样均无荧光。荧光标记噬菌体4℃避光保存4个月后效价无明显下降,检测效果无明显变化,表明该荧光标记噬菌体在4℃避光条件下较稳定...     

一株抑制产气荚膜梭菌的枯草芽孢杆菌BS-2特性

【背景】感染产气荚膜梭菌会引起动物坏死性肠炎,通常使用抗生素进行预防和治疗。随着我国饲料禁抗、养殖减抗的实施,寻找绿色微生态制剂及其代谢产物成为当前研究的热点。【目的】旨在研究前期筛选的一株抑制产气荚膜梭菌的枯草芽孢杆菌BS-2特性。【方法】检测了菌株生长曲线、代谢物质的抑菌特性及细菌素基因簇mRNA表达。【结果】枯草芽孢杆菌BS-2代谢物质对革兰氏阴性菌无抑制作用,而对革兰氏阳性菌具有较强的抑菌性能,并且对产气荚膜梭菌的抑菌性能在2-12 h内迅速增长,在12-24 h内抑菌性能较稳定;该抑菌性能不受胃蛋白酶、胰蛋白酶、蛋白酶K的影响,具有良好的热稳定性;进一步分析抑菌物质基因簇mRNA表达,发现枯草芽孢杆菌BS-2抑制产气荚膜梭菌的活性可能与表面活性素(surfactin)和美杀菌素(mersacidin)表达有关。【结论】枯草芽孢杆菌BS-2对产气荚膜梭菌具有较强的抑制作用,可能通过抑菌物质surfactin和mersacidin表达发挥作用。     

地衣芽孢杆菌E7氨肽酶的异源表达及其在高效蛋白水解中的应用

【目的】将地衣芽孢杆菌(Bacilluslicheniformis)E7氨肽酶基因pepN克隆到大肠杆菌(Escherichia coli) BL21中,实现氨肽酶Ec PepN的异源表达,研究重组酶的酶学性质及其与碱性蛋白酶协同作用,高效水解大豆蛋白和酪蛋白,产生小分子活性肽和游离氨基酸。【方法】以地衣芽孢杆菌E7基因组DNA为模板,将氨肽酶基因pepN克隆到载体pET28a中,构建重组表达载体pET28-pepN,转化到大肠杆菌BL21感受态细胞中,经DNA测序验证,获得重组菌E. coli BL21/pET28-pepN。利用镍离子亲和层析柱对重组酶进行分离纯化,研究纯酶的pH和温度稳定性、半衰期和NaCl的耐受性等酶学性质。以商品化氨肽酶与碱性蛋白酶协同作用为对照,重组酶Ec PepN与碱性蛋白酶协同水解大豆蛋白和酪蛋白,测定水解产物中小分子活性肽和游离氨基酸的组成。【结果】Ec PepN在大肠杆菌BL21中可溶性表达,SDS-PAGE分析表明纯化的重组酶在52kDa左右显示单一条带。在7种测定底物中,Ec PepN的最适底物为Ala-pNA。在最适条件(pH 9.0和50°C...     

和厚朴酚对大肠埃希氏菌生物被膜形成的抑制机制

【目的】研究不同浓度的和厚朴酚(honokiol)抑制大肠埃希菌(Escherichia coli)的供试菌株10389生物被膜(biofilm,BF)形成的作用机制。【方法】用氯化三苯基四氮唑比色法(TTC)和四唑盐减低法(XTT)测定honokiol抑制E.coli10389生物被膜形成的药物最低抑菌浓度(MIC)和最低杀菌浓度(MBC)及其抑制作用与时间的关系;通过qRT-PCR法检测不同浓度的honokiol对E. coli 10389生物被膜形成基因和群体感应系统相关基因表达量的影响;通过生物发光法和qRT-PCR法检测亚-MIC honokiol对E. coli 10389呋喃糖基硼酸二酯(AI-2)及其调控的与生物被膜形成相关的下游基因表达量的影响。【结果】Honokiol能抑制E.coli10389生物被膜的形成,但不同浓度的honokiol抑制E. coli 10389 BF形成的作用机制不同。其中,与对照组相比,MIC的honokiol能使E. coli 10389 BF形成相关基因编码毒素(hha)和细菌酸性调节因子(ari R) mRNA的表达量显著提高,抗毒素...     

碱性蛋白酶SubC在枯草芽孢杆菌中的高效异源表达

【背景】碱性蛋白酶是工业用酶中占比最大的酶类,广泛应用于清洁、食品、医疗等行业。近期研究发现碱性蛋白酶在生产生物活性肽方面有巨大潜力,这将进一步拓宽其在保健食品领域中的应用。【目的】利用枯草芽孢杆菌异源表达地衣芽孢杆菌来源的碱性蛋白酶SubC。【方法】通过筛选3种枯草芽孢杆菌宿主菌株(Bacillus subtilis 1A751、MA07、MA08)和6种信号肽(AmyE、AprE、NprE、Pel、YddT、YoqM),同时优化诱导剂浓度、发酵培养基和发酵时长,最终得到最优重组菌株MA08-AmyE-subCopt。【结果】重组菌株MA08-AmyE-subCopt的胞外酶活力为3.33×103 AU/mL,胞外蛋白分泌量为胞内可溶蛋白表达量的4倍,与携带野生型信号肽的对照组菌株WT相比,酶活提高了73.4%。【结论】异源碱性蛋白酶SubC在枯草芽孢杆菌中成功表达,为碱性蛋白酶SubC的表达和在保健食品领域的工业化应用提供了理论基础。     

大肠杆菌细胞壁肽聚糖的化学修饰及荧光标记

【目的】发展一种活细菌细胞壁荧光标记方法,为后期研究细菌肽聚糖的生物合成和代谢规律以及其与细菌感染致病的关系提供新的工具。【方法】对细菌肽聚糖的生物合成前体N-乙酰葡萄糖胺-1-磷酸(GlcNAc-1-P)进行化学修饰,设计并合成含有叠氮基的GlcNAc-1-P类似物(化合物5:Ac3GlcNAz-1-P)。将该类似物与细菌共同孵育,使其作为探针进入细菌肽聚糖天然合成途径。之后提取并酶解肽聚糖组分,用红外光谱(FTIR)和液质联用(LC/MS)检测探针是否通过代谢进入细菌肽聚糖结构中。同时用外源荧光素对代谢掺入细菌肽聚糖中的探针进行染色。在激光共聚焦显微镜下观察对活细菌的荧光标记效果。【结果】通过四步有机合成反应,以79%的总收率成功获得了化合物5。将大肠杆菌(Escherichia coli BL21)作为模式菌株与化合物5共孵育后,其肽聚糖组分的LC/MS和FTIR分析结果均显示探针可以被细菌利用并被代谢掺入到肽聚糖结构中。激光共聚焦显微镜观察结果显示,荧光素可以高效标记表面携带有生物正交探针的大肠杆菌。【结论】设计合成了一种新型探针,可用于活细菌成像,为深入研究细菌肽聚糖的生物学功能及其与细菌感染致病的关系提供了一种简便的方法。     

枯草芽孢杆菌L-脯氨酸合成途径中glnA、proB、proA基因功能探究

【目的】从基因水平探究枯草芽孢杆菌渗透压调节因子L-脯氨酸合成途径中glnA、proB、proA基因的功能,通过分子改造实现对代谢途径的人工扰动。【方法】从枯草芽孢杆菌WB600出发,通过向胞内引入一系列基因敲除或过表达,分别构建了proB和proA基因过表达的重组菌WB601和WB602、glnA基因缺失的重组菌WB603以及在此基础之上过表达proB基因的重组菌WB604。借助菌株胞外和胞内游离脯氨酸积累的表型分析影响途径的关键节点。【结果】在非胁迫条件下,重组菌WB601和WB602胞外脯氨酸含量分别是原始菌的2.21倍和2.82倍,单位细胞胞外脯氨酸得率分别是原始菌的4.09倍和9.80倍,胞内游离脯氨酸含量分别是原始菌的1.91倍和3.34倍;重组菌WB603胞外脯氨酸含量上升至1221.43 mg/L,是原始菌的6.28倍,单位细胞胞外和胞内游离脯氨酸得率分别为原始菌的9.13倍和3.66倍;而重组菌WB604胞外脯氨酸含量最高达1391.65 mg/L,相比菌株WB603,其胞外脯氨酸含量及单位细胞得率分别提高了13.94%和14.10%,且胞内游离脯氨酸含量提高了32.60%。在5%Na Cl胁迫条件下,重组菌WB601和WB602的胞外脯氨酸含量分别是原始菌的1.94倍和1.54倍,单位细胞胞外脯氨酸得率分别是原始菌的2.15倍和2.19倍;重组菌WB603胞外脯氨酸含量及其单位细胞得率分别是原始菌的4.16倍和7.29倍;相同条件下,相比于重组菌WB603,重组菌WB604的胞外脯氨酸含量及其单位细胞得率分别提高了32.61%和5.54%。此外,实验组菌株的胞内游离脯氨酸含量均高于非胁迫时,并达到相对平衡状态。【结论】proB和proA基因的过表达均能显著提升细胞合成脯氨酸的能力,并且能增强细胞的耐盐性;glnA基因的缺失能增强脯氨酸合成途径,提高脯氨酸的积累;两种效应的正向叠加可进一步提升细胞脯氨酸合成能力。     

大肠杆菌胞内半胱氨酸响应型启动子的筛选表征

【目的】半胱氨酸是一种重要的含硫氨基酸,广泛应用于化妆品、药品、食品等行业,微生物发酵法合成半胱氨酸已成为当前研究的热点。基于比较转录组学分析等技术,筛选并表征大肠杆菌(Escherichia coli)胞内对半胱氨酸浓度变化显著响应的启动子。【方法】在Escherichia coli W3110培养基中外源添加不同终浓度的半胱氨酸,通过比较转录组学分析筛选转录水平显著响应半胱氨酸浓度变化的基因,融合目标基因的启动子片段与荧光报告基因egfp构建启动子文库,进一步测定不同半胱氨酸浓度条件下,含有不同启动子重组菌的绿色荧光蛋白(greenfluorescent protein, GFP)荧光强度。【结果】筛选并挖掘了随着半胱氨酸浓度提高而转录水平显著提升的27个基因,并将基因的潜在启动子片段与荧光报告基因egfp融合构建启动子文库,筛选获得对半胱氨酸变化具备特异性响应的启动子P_E2。最后,对P_E2启动子-35区间隔区域AAAT进行随机突变,最终获得在1-7g/L半胱氨酸浓度范围内特异性响应性能显著提高的启动子P_E2-33。...     

硫酸镁对枯草芽胞杆菌发酵的影响

为明确工业配方中不同MgSO₄添加量对枯草芽胞杆菌B201发酵过程及菌液保存的影响,采用单因素法设置5个MgSO₄添加量梯度(质量分数,下同)( 0.13%、0.24%、 0.46%、0.87%、1.70%)。分别记录不同梯度MgSO₄处理的发酵液灭菌前后pH值,以及发酵过程中的菌体形态的变化,统计发酵结束后细菌的发酵周期、活菌数和芽肥率,测量发酵结束后发酵液pH以及残糖和残氮含量。实验表明,MgSO₄的不同添加量对菌株B201发酵及菌液保存均有显著影响。添加量为0.87%和1.70%处理组灭菌后培养基的pH较灭菌前升高,培养基由中性变为弱碱性。接种后12 h取样观察,菌体明显变形,视野内菌数较少,且随着MgSO₄添加量的增加发酵液活菌数下降,残糖和残氮升高,不利于保存。MgSO₄相对合适的添加量为0.13%、0.24%和0.46%,三种MgSO₄添加量的发酵液活菌数、残氮含量无显著差异;MgSO₄添加量为0.24%时菌株B201芽肥率最高为89.33%,而MgSO₄添加量为0.13%和0.46%时,芽肥率分别为80%和82.67%;0.46%MgSO₄添加量可加速菌株B201发酵进程,发酵周期较其他两个处理缩短45.8%。为提高菌株B201的发酵水平,降低其生产成本,综合考虑MgSO₄的添加量以0.46%为宜。研究结果不仅为实验室菌株B201的发酵优化提供参考,还为培养基的优化拓宽了思路。     

yeaI基因对奶牛源大肠杆菌NJ17生物学特性的影响

c-di-GMP是细菌中广泛存在的第二信使,可通过效应蛋白参与调控细菌的生物被膜形成、运动性和毒力等生物学特性。YeaI因含有能结合c-di-GMP分子的EGEVF基序,可能作为c-di-GMP效应蛋白发挥作用。[目的] 研究yeaI基因缺失对奶牛源大肠杆菌临床分离株NJ17生物学特性的影响。[方法] 构建NJ17的yeaI缺失株（NJ17ΔyeaI）及回复株cNJ17ΔyeaI,分析yeaI对NJ17生物学特性（如生长特性、生物被膜形成能力和对小鼠乳腺上皮细胞（EpH₄-Ev）的黏附）的影响。[结果] 成功构建NJ17的yeaI缺失株（NJ17ΔyeaI）及其回复株（cNJ17ΔyeaI）;与野生株NJ17相比,缺失株NJ17ΔyeaI生长特性及耐药性无显著变化,生物被膜形成能力显著下降,运动性显著升高（P<0.05）;透射电镜检测结果表明,yeaI缺失影响NJ17菌毛和鞭毛的形成;实时定量PCR（qPCR）结果显示,yeaI基因显著抑制NJ17鞭毛基因filG和motB的转录水平（P<0.05）;血清杀菌实验表明,yeaI缺失能显著增强其抵抗血清杀菌作用（P<0.05）;对EpH₄-Ev细胞黏附实验表明,yeaI缺失对NJ17黏附性无显著影响（P>0.05）。[结论] yeaI对奶牛源大肠杆菌NJ17的生物学特性具有重要的调控作用。     

Characterization of the Bacillus subtilis WL-3 mannanase from a recombinant Escherichia coli

A mannanase was purified from a cell-free extract of the recombinant Escherichia coli carrying a Bacillus subtilis WL-3 mannanase gene. The molecular mass of the purified mannanase was 38 kDa as estimated by SDS-PAGE. Optimal conditions for the purified enzyme occurred at pH 6.0 and 60 degrees C. The specific activity of the purified mannanase was 5,900 U/mg on locust bean gum (LBG) galactomannan at pH 6.0 and 50 degrees C. The activity of the enzyme was slightly inhibited by Mg(2+), Ca(2+), EDTA and SDS, and noticeably enhanced by Fe(2+). When the enzyme was incubated at 4 degrees C for one day in the presence of 3 mM Fe(2+), no residual activity of the mannanase was observed. The enzyme showed higher activity on LBG and konjac glucomannan than on guar gum galactomannan. Furthermore, it could hydrolyze xylans such as arabinoxylan, birchwood xylan and oat spelt xylan, while it did not exhibit any activities towards carboxymethylcellulose and para-nitrophenyl-beta-mannopyranoside. The predominant products resulting from the mannanase hydrolysis were mannose, mannobiose and mannotriose for LBG or mannooligosaccharides including mannotriose, mannotetraose, mannopentaose and mannohexaose. The enzyme could hydrolyze mannooligosaccharides larger than mannobiose.     

Purification and characterization of carboxymethylcellulase isolated from a marine bacterium, Bacillus subtilis subsp. subtilis A-53

The microorganism hydrolyzing carboxymethylcellulose (CMC) was isolated from seawater, identified as Bacillus subtilis subsp. subtilis by analyses of 16S rDNA and partial sequences of the gyrA gene, and named as B. subtilis subsp. subtilis A-53. The molecular weight of the purified carboxymethylcellulase (CMCase) was estimated to be about 56 kDa with the analysis of SDS-PAGE. The purified CMCase hydrolyzed carboxymethylcellulose (CMC), cellobiose, filter paper, and xylan, but not avicel, cellulose, and p-nitrophenyl-β-d-glucospyranoside (PNPG). Optimal temperature and pH for the CMCase activity were determined to be 50 °C and 6.5, respectively. More than 70% of original CMCase activity was maintained at relative low temperatures ranging from 20 to 40 °C after 24 h incubation at 50 °C. The CMCase activity was enhanced by EDTA and some metal ions in order of EDTA, K⁺, Ni²⁺, Sr²⁺, Pb²⁺, and Mn²⁺, but inhibited by Co²⁺ and Hg²⁺.