甘油对粒毛盘菌DP5胞外多酚积累的影响

【目的】探明以甘油为碳源促进粒毛盘菌DP5积累多酚的可能原因。【方法】对碳源种类、甘油浓度、曲酸、抑制剂和前体等对多酚产量和生物量的影响进行分析。【结果】以甘油为碳源,能显著提高粒毛盘菌胞外多酚产量。甘油浓度为20 g/L时,胞外多酚产量最高,达到0.664 g GAE/L,并在发酵液中检测到曲酸,其含量为0.25 g/L。向以蔗糖为碳源的发酵液添加曲酸,胞外多酚含量从0.209 g GAE/L提高至0.376 g GAE/L。以甘油为碳源的发酵液中,酚氧化酶活性较低。粒毛盘菌DP5通过莽草酸途径和聚酮途径合成多酚,甘油有利于莽草酸途径和聚酮途径前体物质的合成。【结论】粒毛盘菌以甘油为碳源合成出曲酸,曲酸抑制多酚向黑色素的转化;甘油促进多酚前体的合成,从而提高了粒毛盘菌胞外多酚的积累量。     

耐铵型产琥珀酸放线杆菌的选育及铵离子对其生长代谢的影响

经硫酸二乙酯(DES)诱变,在含61～242mmol/LNH4+梯度平板中,筛选到一株耐铵型突变株YZ25,该菌株在含121mmol/LNH4+发酵培养基中,琥珀酸产量达32.68g/L,转化率为65.4%,比出发菌提高了180.5%。进一步考察了不同形态铵盐对YZ25生长的影响,结果表明添加少量铵盐能够提高突变菌的生长速率,但当超过一定量后菌株生长受到抑制,不同铵盐对菌株的抑制程度不同,硫酸铵、碳酸氢铵、氯化铵和硝酸铵对突变株YZ25的半抑制浓度分别为:215mmol/L、265mmol/L、235mmol/L、210mmol/L。为了考察铵离子对YZ25发酵产琥珀酸的影响过程,在3.0L发酵罐以氨水作为pH的调控剂发酵,结果表明在稳定期前菌株生长基本不受铵离子抑制,生物量能够达到正常水平,但是进入稳定期后铵离子抑制作用越来越明显,导致菌株生长提前结束,耗糖不完全,产酸受阻。最后结合产琥珀酸放线杆菌Actinobacillus succinogenes代谢途径分析了铵离子对菌株抑制作用的机理。     

Mn2+对必特螺旋霉素产生菌代谢和必特螺旋霉素合成的影响

通过在必特螺旋霉素产生菌WSJ 1 195发酵过程中添加金属离子Mn2 发现 :发酵前期 (2 4h左右 )添加Mn2 可以明显提高生物效价 ,加入的Mn2 浓度以 5mmol L为最佳。实验显示添加Mn2 后发酵液pH逐渐下降 ,整个产素期间pH一直低于对照 ;与对照相比添加Mn2 摇瓶菌体浓度也较低。通过研究必特螺旋霉素发酵过程有机酸的变化趋势发现 :2 4h添加 5mmol LMn2 后发酵过程中有机酸含量已经发生变化 ,其中丙酸浓度的增长最为显著 ,84h时其浓度为对照的 6倍。通过丙酸盐的添加实验证实了发酵前期添加Mn2 可以促进产物合成的原因之一是促进了丙酸等前体酸的合成 ,丰富了大环内酯合成的前体库     

绿色木霉菌合成金纳米颗粒的可能性及影响因素

【背景】金纳米颗粒(AuNPs)凭借其稳定性、抗氧化性能和生物相容性在许多领域有广泛应用。目前关于微生物合成金纳米颗粒的研究较少。【目的】对微生物合成金纳米颗粒的可能性以及影响因素进行探究,有利于揭示具体的合成机制,发现AuNPs的特性以及合成位置与菌丝和影响因素的关系。【方法】以绿色木霉菌(Trichoderma viride)菌株(GIM3.141)为菌种资源,通过目视检测法、紫外可见分光光度计、X射线衍射和透射电镜等手段分析合成AuNPs的特征。探讨细胞内生物合成金纳米颗粒(AuNPs)的可能性,研究生物量、初始金离子浓度、溶液pH等因素对细胞内合成AuNPs的影响。【结果】X射线衍射分析表明AuNPs以金纳米晶体形态存在。透射电镜分析表明AuNPs主要位于细胞壁膜间隙,一小部分附着在细胞壁上。紫外可见分光光度计分析表明,金纳米颗粒粒径随着生物量添加量和溶液pH的升高而变小,随着初始金离子浓度的升高而变大。【结论】非致病性真菌绿色木霉菌可以在细胞内合成AuNPs,其中包括伪球形、三角形、四边形和六边形等多种形状,粒径范围从几纳米到三百纳米,为大规模、低成本、无污染地生物合成纳米颗粒工艺提供了菌种资源。     

重金属胁迫对真菌生长及发酵液pH的影响

【背景】矿区废渣堆重金属污染严重,废渣堆分布着一些耐重金属的微生物。【目标】探究重金属胁迫对真菌生长及发酵液pH的影响。【方法】从金川矿区废渣堆采集土样,分离培养具有产酸能力的真菌,采用形态学与分子生物学技术鉴定这些菌株,并测定其产酸能力及其对Pb~(2+)、Cd~(2+)和Zn~(2+)的耐受性。【结果】形态学及18S rRNA基因序列分析获得黑曲霉ZJ-I (Aspergillus niger ZJ-I)和产黄青霉ZJ-V (Penicilium chrysogenum ZJ-V)两个产酸菌株。未加重金属培养时,与不接种真菌对照相比,上述2个菌株的发酵液pH分别下降0.58和0.69;添加重金属处理后,随着重金属浓度的增加,pH变化幅度变小,不同浓度Pb~(2+)使A.nigerZJ-I发酵液pH值分别下降0.53、0.39、0.34和0.39,使P. chrysogenum ZJ-V发酵液pH值分别下降0.21、0.23、0.14和0.09;不同浓度Cd~(2+)使A. niger ZJ-I发酵液pH值分别下降0.75、0.43、0.39和0.32,使P. chrysogenum ZJ-V发酵液pH值分别下降0.62、0.46、0.38和0.49;不同浓度Zn~(2+)可使A.nigerZJ-I发酵液pH分别下降0.87、0.61、0.57和0.43,使P. chrysogenum ZJ-V发酵液pH分别下降1.1、0.34、0.44和0.49;低浓度的Zn~(2+)对菌株A.niger ZJ-I和P. chrysogenum ZJ-V产酸都有促进作用,低浓度的Cd~(2+)对A. niger ZJ-I产酸有促进作用。当Cd~(2+)、Zn~(2+)与Pb~(2+)的浓度分别超过200、400、2 000 mg/L时,3种不同浓度的重金属对菌株A. niger ZJ-I的抑制率达到80%以上,抑制效果显著;当Cd~(2+)、Zn~(2+)与Pb~(2+)浓度分别超过200、1 000、2 000 mg/L时,3种不同浓度的重金属对菌株P.chrysogenumZJ-V抑制率达到80%以上,抑制效果显著。【结论】两株真菌均具有产酸能力和一定的重金属耐受性,菌株P. chrysogenum ZJ-V发酵液产酸性能与重金属耐受能力都要优于ZJ-I,菌株ZJ-V具备潜在的淋洗重金属污染土壤的能力。     

影响克拉维酸生物合成的氨基酸

发酵液的氨基酸分析显示,谷氨酸,精氨酸,天门冬氨酸,丙氨酸易被棒状链霉菌利用,发酵培养基中添加上述氨基酸后,谷氨酸,精氨酸有利于克拉维酸的生物合成,适时添加谷氨酸,精氨酸可分别提高克拉维酸的产量约25%和12%;而蛋氨酸,半胱氨酸含S氨基酸对克拉维酸生物合成不利,不同来源的黄豆粉作发酵培养基氮源,因其组成中某些氨基酸含量的差异。可使克拉维酸的产量相差百分之十几。     

利用响应面法优化α-糖苷酶抑制剂发酵培养基

【目的】采用响应面法对戈壁三素链霉菌PW409发酵合成α-糖苷酶抑制剂的培养基进行优化。【方法】采用Plackett-Burman法筛选影响α-糖苷酶抑制剂产生的关键因素,用最陡爬坡试验逼近关键因素的最大响应区域,采用Box-Behnken设计以及响应面分析法,得到各因素的最佳浓度,通过液相色谱-串联质谱法(LC-MS/MS)对发酵液中α-糖苷酶抑制剂进行定量分析。【结果】发酵培养基中可溶性淀粉、KNO3和K2HPO4的浓度对α-糖苷酶抑制剂的产量影响较大。优化后的培养基组成为:可溶性淀粉9.01 g/L,KNO3 11.0 g/L,K2HPO4 0.32 g/L,MgSO4.7H2O 0.50 g/L,FeSO4.7H2O 0.01 g/L,pH 7.5。【结论】在此优化条件下,链霉菌PW409发酵液对麦芽糖苷酶的半数抑制浓度IC50为22 mg/L,抑制活性较优化前提高了近10倍。发酵液中的1-脱氧野尻霉素含量可达7.84 mg/L,较优化前提高了668倍,米格列醇的含量可达0.94 mg/L,较优化前提高了10倍。     

报告基因法比较两种放线菌启动子的活性

摘要：【目的】比较启动子Psf与红霉素抗性基因启动子（PermE*）在链霉菌中的表达强度差异。【方法】本文利用卡那霉素抗性梯度以及邻苯二酚2,3-双加氧酶显色系统,比较了两个启动子的表达差异。【结果】两个启动子在棒状链霉菌(Streptomyces clavuligerus) NRRL3585、天蓝色链霉菌（Streptomyces coelicolor）M145,委内瑞拉链霉菌（Streptomyces venezuelae）ISP5230及变铅青链霉菌（Streptomyces lividans TK     

外源精氨酸对谷氨酸棒杆菌在高葡萄糖胁迫下生长和发酵特性的影响

【目的】探究外源添加不同氨基酸和相容性溶质对谷氨酸棒杆菌(Corynebacterium glutamicum)在高糖胁迫环境下生长的影响及可能的作用机理。【方法】通过在培养基中外源添加各种氨基酸和相容性溶质,研究其对谷氨酸棒杆菌在高葡萄糖和高蔗糖胁迫下生长的影响,并分析添加精氨酸对高葡萄糖胁迫下菌株糖转运和代谢途径中关键酶转录水平的影响,以及对菌株发酵产氨基酸的影响。进一步探究了碱性氨基酸在其它棒状杆菌属中抵御高葡萄糖胁迫的潜在作用。【结果】在高葡萄糖胁迫条件下,外源添加赖氨酸、精氨酸和组氨酸后谷氨酸棒杆菌的生物量分别提高54.7%、50.0%和37.6%;而在高蔗糖胁迫条件下,添加脯氨酸和四氢嘧啶后菌株生物量增加20%以上。进一步研究表明,在高葡萄糖胁迫下,外源添加精氨酸后谷氨酸棒杆菌的葡萄糖利用速率提高约2.5倍,谷氨酸的发酵产量也增加了127.5%。此外,碱性氨基酸对其它4种棒状杆菌也具有一定的渗透保护效应。【结论】精氨酸对谷氨酸棒杆菌在高葡萄糖胁迫下具有良好的渗透保护作用,可能归因于其能促进葡萄糖的转运和代谢能力,同时发现碱性氨基酸的渗透保护效应对棒状杆菌属具有一定的普遍性。     

一株链霉菌菌株NCPC-1020中棘白霉素B脱酰基酶基因的克隆与功能分析

【目的】从一株土壤放线菌来源的野生型链霉菌菌株NCPC-1020中克隆一个具有棘白霉素B脱酰基酶活性的新基因。【方法】采用Degenerate和TAIL PCR两种方法,从链霉菌菌株NCPC-1020基因组中快速克隆获得了该基因序列,然后将基因在变铅青链霉菌TK24中进行异源表达,并进行全细胞催化底物脱酰基反应,采用LC-MS检测反应产物。【结果】LC-MS检测证实,棘白霉素B结构中脂肪链被酶促水解,从而证实该基因具有脱酰基酶活性。【结论】采用Degenerate以及TAIL PCR的方法能够快速获得未知功能的新基因。此基因的克隆,奠定了进行半合成棘白霉素类药物的研发基础。     

Assay for soil urease activity

Summary A procedure is described that allows assay of soil urease activity. The method uses a phosphate buffer (pH 8.8) and a urea substrate concentration of 0.007 M. Incubation for 4 h at 37°C is recommended and urease activity is estimated by determining the amount of ammonium produced by urea hydrolysis in soil. The method is precise, and compares favourably with other procedures. re]19750710     

Properties of urease immobilized on the functional organic silica surface

The paper deals with kinetics of the urea hydrolysis by microbial-origin urease dissolved and immobilized on the organic silica surface. It is shown that hydrolysis kinetics for soluble urease is described by the Michaelis-Menten equation until the concentration of urea reaches 1 M. Two fractions differing in the Michaelis constant are revealed for silochrome immobilized urease. The rate of urea hydrolysis by native and immobilized urease was studied depending on the pH value in presence of the substrate in the 1 M and 5 mM concentration. The hydrolysis rate of 1 M urea in the buffer-free solution by silochrome-immobilized urease is practically independent of pH within 4.5-6.5. Application of a 2.5 mM phosphate-citrate buffer as a solvent causes an increase in the hydrolysis rate within this pH range. For a soluble urease the 1 M urea hydrolysis rate dependence on pH is ordinary at pH 5.8-6.0. If the substrate concentration is 5 mM, the pH-dependences for the rate of the urea hydrolysis by silochrome- and aerosil-immobilized urease are close and at pH above 6.0 coincide with those for a soluble enzyme. The found differences in the properties of soluble and immobilized ureases are explained by the substrate and reaction products diffusion.     

A Determination and Comparison of Urease Activity in Feces and Fresh Manure from Pig and Cattle in Relation to Ammonia Production and pH Changes

Ammonia emission from animal production is a major environmental problem and has impacts on the animal health and working environment inside production houses. Ammonia is formed in manure by the enzymatic degradation of urinary urea and catalyzed by urease that is present in feces. We have determined and compared the urease activity in feces and manure (a urine and feces mixture) from pigs and cattle at 25°C by using Michaelis-Menten kinetics. To obtain accurate estimates of kinetic parameters V_max and K''_m, we used a 5 min reaction time to determine the initial reaction velocities based on total ammoniacal nitrogen (TAN) concentrations. The resulting V_max value (mmol urea hydrolyzed per kg wet feces per min) was 2.06±0.08 mmol urea/kg/min and 0.80±0.04 mmol urea/kg/min for pig feces and cattle feces, respectively. The K''_m values were 32.59±5.65 mmol urea/l and 15.43±2.94 mmol urea/l for pig feces and cattle feces, respectively. Thus, our results reveal that both the V_max and K''_m values of the urease activity for pig feces are more than 2-fold higher than those for cattle feces. The difference in urea hydrolysis rates between animal species is even more significant in fresh manure. The initial velocities of TAN formation are 1.53 mM/min and 0.33 mM/min for pig and cattle manure, respectively. Furthermore, our investigation shows that the maximum urease activity for pig feces occurs at approximately pH 7, and in cattle feces it is closer to pH 8, indicating that the predominant fecal ureolytic bacteria species differ between animal species. We believe that our study contributes to a better understanding of the urea hydrolysis process in manure and provides a basis for more accurate and animal-specific prediction models for urea hydrolysis rates and ammonia concentration in manures and thus can be used to predict ammonia volatilization rates from animal production.     

Ammonium/urea-dependent generation of a proton electrochemical potential and synthesis of ATP in Bacillus pasteurii.

The influence of ammonium and urea on the components of the proton electrochemical potential (delta p) and de novo synthesis of ATP was studied with Bacillus pasteurii ATCC 11859. In washed cells grown at high urea concentrations, a delta p of -56 +/- 29 mV, consisting of a membrane potential (delta psi) of -228 +/- 19 mV and of a transmembrane pH gradient (delta pH) equivalent to 172 +/- 38 mV, was measured. These cells contained only low amounts of potassium, and the addition of ammonium caused an immediate net decrease of both delta psi and delta pH, resulting in a net increase of delta p of about 49 mV and de novo synthesis of ATP. Addition of urea and its subsequent hydrolysis to ammonium by the cytosolic urease also caused an increase of delta p and ATP synthesis; a net initial increase of delta psi, accompanied by a slower decrease of delta pH in this case, was observed. Cells grown at low concentrations of urea contained high amounts of potassium and maintained a delta p of -113 +/- 26 mV, with a delta psi of -228 +/- 22 mV and a delta pH equivalent to 115 +/- 20 mV. Addition of ammonium to such cells resulted in the net decrease of delta psi and delta pH without a net increase in delta p or synthesis of ATP, whereas urea caused an increase of delta p and de novo synthesis of ATP, mainly because of a net increase of delta psi. The data reported in this work suggest that the ATP-generating system is coupled to urea hydrolysis via both an alkalinization of the cytoplasm by the ammonium generated in the urease reaction and a net increase of delta psi that is probably due to an efflux of ammonium ions. Furthermore, the findings of this study show that potassium ions are involved in the regulation of the intracellular pH and that ammonium ions may functionally replace potassium to a certain extent in reducing the membrane potential and alkalinizing the cytoplasm.     

猪圆环病毒2型病毒样颗粒的高效组装技术研究*

目的:探索猪圆环病毒2型(PCV2)病毒样颗粒(VLPs)的高效组装技术,提高VLPs的稳定性。方法:利用大肠杆菌表达PCV2 Cap蛋白自组装为VLPs,分析不同离子强度下VLPs的稳定性。利用切向流技术添加尿素,降低pH,可使VLPs解组装,利用硫酸铵分级沉淀、阴离子交换层析纯化获得Cap蛋白,去除尿素,提高离子强度和pH,实现VLPs的高效再组装。结果:PCV2 Cap蛋白自组装VLPs在150mmol/L NaCl下稳定性较差,而在500mmol/L NaCl下可提高VLPs的稳定性,但仍较易发生聚集,核酸含量均较高。在150mmol/L NaCl、300mmol/L尿素和pH 5.5的缓冲体系条件下,能够使VLPs解组装。经25%~50%饱和硫酸铵(V/V)分级沉淀粗纯,阴离子交换层析500mmol/L NaCl下洗脱获得精纯Cap蛋白,蛋白质纯度≥95%,并能够有效去除核酸。通过切向流技术去除体系中的尿素,并将NaCl浓度提高至1mol/L、pH提高至8.0,改变蛋白质表面静电荷分布,实现VLPs的高效、均一再组装,组装效率≥99%,回收率为65.85%,并明显提高VLPs的稳定性,能够稳定保存6个月以上。结论:利用硫酸铵分级沉淀、阴离子交换层析纯化获得Cap蛋白,去除尿素,提高离子强度和pH,实现VLPs的高效再组装。     

Ammonium Metabolism Enzymes Aid Helicobacter pylori Acid Resistance

The gastric pathogen Helicobacter pylori possesses a highly active urease to support acid tolerance. Urea hydrolysis occurs inside the cytoplasm, resulting in the production of NH₃ that is immediately protonated to form NH₄⁺. This ammonium must be metabolized or effluxed because its presence within the cell is counterproductive to the goal of raising pH while maintaining a viable proton motive force (PMF). Two compatible hypotheses for mitigating intracellular ammonium toxicity include (i) the exit of protonated ammonium outward via the UreI permease, which was shown to facilitate diffusion of both urea and ammonium, and/or (ii) the assimilation of this ammonium, which is supported by evidence that H. pylori assimilates urea nitrogen into its amino acid pools. We investigated the second hypothesis by constructing strains with altered expression of the ammonium-assimilating enzymes glutamine synthetase (GS) and glutamate dehydrogenase (GDH) and the ammonium-evolving periplasmic enzymes glutaminase (Ggt) and asparaginase (AsnB). H. pylori strains expressing elevated levels of either GS or GDH are more acid tolerant than the wild type, exhibit enhanced ammonium production, and are able to alkalize the medium faster than the wild type. Strains lacking the genes for either Ggt or AsnB are acid sensitive, have 8-fold-lower urea-dependent ammonium production, and are more acid sensitive than the parent. Additionally, we found that purified H. pylori GS produces glutamine in the presence of Mg²⁺ at a rate similar to that of unadenylated Escherichia coli GS. These data reveal that all four enzymes contribute to whole-cell acid resistance in H. pylori and are likely important for assimilation and/or efflux of urea-derived ammonium.     

Mechanisms of regulation of urease biosynthesis in Proteus rettgeri

Urease of Proteus rettgeri is an inducible enzyme synthesized specifically in the presence of urea; urea analogues did not act as inducers. Once initiated, the biosynthesis of the enzyme proceeded as a constant fraction of the total protein formed. The rate of urease formation was affected by the carbon source used. In comparison with glycerol, glucose inhibited enzyme synthesis. The addition of ammonium ions to the inducing medium also decreased the rate of urease biosynthesis, and when ammonium ions were present urease activity and urea transport across the cell membrane were inhibited. A kinetic analysis of urease inhibition by ammonium ions, by use of a partially purified preparation of urease, showed that it was a competitive inhibition.     

Covalent binding of urease on ammonium-selective potentiometric membranes.

As part of the development of disposable urea bioselective probes, the covalent binding of urease on ammonium-selective potentiometric membranes has been assessed. Nonactin/bis(1-butylpentyl)adipate/poly(vinylchloride) (PVC) membranes, directly applied to an internal solid contact (conductive epoxy-graphite composite), has been used as a support for covalent immobilization of urease. Two types of all-solid-state construction process have been assayed: thin layers of cellulose acetate (CA) were coated on the PVC ammonium-selective membranes (type 1) and blends of PVC and CA at various ratios were used as ammonium-selective membrane matrices (type 2). Urease was covalently attached to CA via aldehyde groups. These groups were created on the polysaccharide with sodium periodate to which the enzyme was immobilized through a spacer (hexamethylenediamine). The viability of both types of probe for the determination of ammonium ions was assessed after each step of the activation process. Results indicated that type 2 potentiometric probes are altered after the treatment with sodium periodate. Good results were obtained with type 1 probes. Their dynamic concentration range of response to urea was from 2 x 10(-5) to 0.01 M with a sensibility of 50 mV/decade.     

不同氮源及其浓度对标志链带藻合成淀粉和油脂的影响北大核心CSCD

【目的】以标志链带藻(Desmodesmus insignis)为实验材料,研究不同氮源及其浓度对该藻生长、总脂和淀粉(碳水化合物)含量的影响,为该藻在生物能源方面的应用提供一定的理论依据。【方法】以硝酸钠、碳酸氢铵或尿素为氮源,5个氮浓度(3、6、9、12和18 mmol/L)的BG-11培养基培养标志链带藻,采用干重法测定生物质浓度、重量法测定总脂、苯酚-硫酸法测定、总碳水化合物和淀粉的含量。【结果】标志链带藻在3种氮源下均能很好的生长。最高油脂含量出现在3 mmol/L硝酸钠实验组,达到32.61%(d.w)。当18 mmol/L碳酸氢铵作为氮源时,总碳水化合物与淀粉的含量以及产率都达到最高,分别为56.54%(d.w)和55.33%(d.w)、0.24和0.23 g/(L·d)。以尿素为氮源时,其生物质浓度和各组分含量与其它氮源实验组差别不大,均有利于该藻的生长及各生化组分含量的积累。【结论】以该藻种生产生物能源的成本等综合考虑,以18 mmol/L碳酸氢铵和尿素为氮源培养标志链带藻最优。     

Urease expression in a Thermoanaerobacterium saccharolyticum ethanologen allows high titer ethanol production

Genes encoding the enzyme urease were integrated in a Thermoanaerobacterium saccharolyticum ethanologen. The engineered strain hydrolyzed urea, as evidenced by increased cellular growth and elevated final pH in urea minimal medium and urease activity in cell free extracts. Interestingly, replacement of ammonium salts with urea resulted in production of 54g/L ethanol, one of the highest titers reported for Thermoanaerobacterium. The observed increase in ethanol titer may result from reduced pH, salt, and osmolality stresses during fermentation. Urea utilization is attractive for industrial scale fermentation, where pH control is technically challenging and increased ethanol titer is desirable.