一株产电细菌Corynebacterium vitarumen HAUT-1的分离鉴定及其在微生物燃料电池中的应用

利用纯培养技术从活性污泥中分离筛选出具有高效产电功能的细菌HAUT-1,利用16S rRNA基因序列比对分析对其加以鉴定并应用于MFCs中进行产电能力测试及单因素条件优化。结果表明,菌株HAUT-1的16S rRNA序列与Corynebacterium vitarumen(X84680)的同源性最高为98%,因此将该菌株命名为Corynebacterium vitarumen HAUT-1。单因素实验分析结果表明,该菌株在MFCs中的最佳产电条件是以乙酸钠作为碳源,甘氨酸作为氮源,培养pH为7,培养温度为25℃,在该条件下,菌株HAUT-1在MFCs中的最大输出电压可以达到635 mV;进一步的极化和功率密度曲线分析结果表明,MFCs系统的开路电压为608 mV,当电流密度为24 mA/cm^(2)时,输出功率密度达到最大,为53.88 mW/cm^(2)。结果表明,筛选出的菌株HAUT-1具有稳定且高效的产电能力,对产电微生物菌种资源开发,进一步提升MFCs效率,同步实现环境修复和产能输出具有重要意义。

代谢工程改造Corynebacterium glutamicum生产L-苹果酸

以提高L-苹果酸的产量为目标,采用一次交换两次同源重组的方法,利用反向筛选标记,在敲除了丙酮酸醌氧化还原酶编码基因(pqo),丙酮酸脱氢酶编码基因(pdh)和乳酸脱氢酶编码基因(lldh)的C.glutamicumΔpqoΔpdhΔlldh(C.glutamicumΔPPL)基础上,无痕敲除了L-苹果酸积累支流代谢途径的2个关键酶基因:苹果酸醌氧化还原酶编码基因(mqo)和苹果酸酶编码基因(male),同时敲入了苹果酸分泌转运蛋白基因(transb),获得了产L-苹果酸的工程菌株;采用高效液相色谱法检测了工程菌株C.glutamicumΔPPLΔmqo::transbΔmale的发酵产物。实验结果表明:C.glutamicum ATCC 13032发酵后不积累L-苹果酸,而工程菌C.glutamicumΔPPLΔmqo::transbΔmale发酵48 h,积累了12.8 g/L的L-苹果酸,工程菌的糖酸转化率为33.18%,为利用C.glutamicum ATCC 13032发酵生产L-苹果酸提供了基础遗传资源。

奶牛临床型乳房炎Corynebacterium phoceense的分离鉴定及药敏试验

对太原市某奶牛场临床型乳房炎病牛进行病原菌的分离鉴定及药敏试验,以期了解主要的病原菌及其药物敏感性,为该场乳房炎的防控提供参考依据。本研究采用病原菌分离培养、16S rRNA基因的PCR扩增及序列分析、16联牛乳房炎病原菌核酸qPCR-荧光探针法鉴定了该牧场4头患病牛的9份乳样,并用纸片法对分离菌株进行了药敏试验。结果表明,共分离出8株细菌,包括Corynebacterium phoceense 5株(62.5%)、气球菌1株、链球菌1株和嗜冷杆菌1株,这些菌属对环丙沙星、庆大霉素、阿莫西林拉维酸钾、利福平、多西环素、头孢噻呋均为高度敏感,而对氨曲南、磺胺异恶唑有一定耐药性;同时,通过TaqMan探针实时荧光PCR筛选出2种弱阳性菌属和6种疑似菌属,但是病原菌含量均不高,且大多为环境条件性致病菌。研究结果说明分离培养的方法不能全面地反映引起乳房炎的病原菌感染状况。所以在生产中须借助分子生物学方法进行综合检测分析。该试验也初步判定Corynebacterium phoceense可能是引起乳房炎的主要致病菌之一。

Increased L-arginine Production by Site-directed Mutagenesis of N-acetyl-L-glutamate Kinase and pro B Gene Deletion in Corynebacterium crenatum

Objective In Corynebacterium crenatum,the adjacent D311 and D312 of N-acetyl-L-glutamate kinase(NAGK),as a key rate-limiting enzyme of L-arginine biosynthesis under substrate regulatory control by arginine,were initially replaced with two arginine residues to investigate the L-arginine feedback inhibition for NAGK.Methods NAGK enzyme expression was evaluated using a plasmid-based method.Homologous recombination was employed to eliminate the pro B.Results The IC50 and enzyme activity of NAGK M4,in which the D311 R and D312 R amino acid substitutions were combined with the previously reported E19 R and H26 E substitutions,were 3.7-fold and 14.6% higher,respectively,than those of the wild-type NAGK.NAGK M4 was successfully introduced into the C.crenatum MT genome without any genetic markers;the L-arginine yield of C.crenatum MT-M4 was 26.2% higher than that of C.crenatum MT.To further improve upon the L-arginine yield,we constructed the mutant C.crenatum MT-M4 ?pro B.The optimum concentration of L-proline was also investigated in order to determine its contribution to L-arginine yield.After L-proline was added to the medium at 10 mmol/L,the L-arginine yield reached 16.5 g/L after 108 h of shake-flask fermentation,approximately 70.1% higher than the yield attained using C.crenatum MT.Conclusion Feedback inhibition of L-arginine on NAGK in C.crenatum is clearly alleviated by the M4 mutation of NAGK,and deletion of the pro B in C.crenatum from MT to M4 results in a significant increase in arginine production.

Desulfurization of dibenzothiophene by a newly isolated Corynebacterium sp. ZD-1 in aqueous phase

Sulfur emission through fuel combustion is a global problem because it is a major cause of acid rain. Crud oil contains many heterocyclic organic sulfur compounds, among which dibenzothiophene(DBT) and DBTs bearing alkyl substitutions usually are representative compounds. A strain was isolated from refinery sludge and identified as Corynebacterium ZD-1. The behavior of DBT degradation by ZD-1 in aqueous phase was investigated. Corynebacterium ZD-1 could metabolize DBT to 2-hydroxybiphenyl(2-HBP) as the dead-end metabolite through a sulfur-specific pathway. In shake flask culture, ZD-1 had its maximal desulfurization activity in the late exponential growth phase and the specific production rate of 2-HBP was about 0.14(mmol·kg dry cell -1·min -1, mmol·KDC -1·min -1). Active resting cells for desulfurization should be prepared only in this period. 2-HBP inhibited the growth of strain ZD-1, the production of DBT degradation enzymes, and the activity of enzymes. Sulfate inhibited the production of dibenzothiophene(DBT) degradation enzymes but had no effect on the enzymes' activity. The production rates of 2-HBP at lower cell densities were higher and the maximum amount conversion of DBT to 2-HBP(0.067 mmol/L) after 8 h was gained at 9.2 g dry cell/L rather higher cell density. The results indicated that this newly isolated strain could be a promising biocatalyst for DBT desulfurization.

Two-stage pH Control Mode in Batch Fermentation of a Novel Bioflocculant from Corynebacterium Glutamicum

The effect of pH of the fermentation medium on cell growth and the production of a novel bioflocculant(named REA-11) by Corynebacterium glutamicum CCTCC M201005 were investigated. The maximum biomass(2.23 g/L) and flocculating activity(142.2 U/mL) were simultaneously obtained at the 14th hour when the pH value of the culture medium was maintained at 7.0 during the whole fermentation process. The production of REA-11 kept on a trend of increase till the later phase of fermentation process, which resulted in the ultimate flocculating activity of the culture broth to enhance to nearly 100 U/mL at pH 6.0. A two-stage pH control mode was adopted in REA-11 production in which the pH value of the culture medium was controlled at 7.0 during the first 14 h, then decreased to 6.0 that was maintained until the end of the fermentation process. With the two-stage pH control mode, the maximum flocculating activity reached 178.8 U/mL which was 30% higher than that obtained under the condition of pH 7.0 and the biomass enhanced about 15%. Compared with the fermentation process without pH control, REA-11 production and cell growth via the two-stage pH control mode increased 80% and 25%, respectively.

Expression and Characterization of ArgR, An Arginine Regulatory Protein in Corynebacterium crenatum

Objective Corynebacterium crenatum MT, a mutant from C. crenatum AS 1.542 with a lethal argR gene, exhibits high arginine production. To confirm the effect of ArgR on arginine biosynthesis in C. crenatum, an intact argR gene from wild-type AS 1.542 was introduced into C. crenatum MT, resulting in C. crenatum MT. sp, and the changes of transcriptional levels of the arginine biosynthetic genes and arginine production were compared between the mutant strain and the recombinant strain. Methods Quantitative real-time polymerase chain reaction was employed to analyze the changes of the related genes at the transcriptional level, electrophoretic mobility shift assays were used to determine ArgR binding with the argCJBDF, argGH, and carAB promoter regions, and arginine production was determined with an automated amino acid analyzer. Results Arginine production assays showed a 69.9% reduction in arginine from 9.01±0.22 mg/mL in C. crenatum MT to 2.71±0.13 mg/mL （P〈0.05） in C. crenatum MT. sp. The argC, argB, argD, argF, argJ, argG, and carA genes were down-regulated significantly in C. crenatum MT. sp compared with those in its parental C. crenatum MT strain. The electrophoretic mobility shift assays showed that the promoter regions were directly bound to the ArgR protein. Conclusion The arginine biosynthetic genes in C crenatum are clearly controlled by the regulator ArgR, and intact ArgR in C. crenatum MT results in a significant descrease in production. negative arginine production.

Engineering of Corynebacterium glutamicum to Enhance L-ornithine Production by Gene Knockout and Comparative Proteomic Analysis

Engineered Corynebacterium glutamicum was constructed for L-ornithine production by disrupting genes of argF and proB to prevent the flux away from L-ornithine.Effect of the inactivation of 2-oxoglutarate de-hydrogenase complex(ODHC) on L-ornithine production was also investigated.It was found that the inactivation of ODHC by knockout of the kgd gene enhanced L-ornithine production.The engineered C.glutamicum ATCC13032(ΔargFΔproBΔkgd) produced L-ornithine up to 4.78 g·L-1 from 0.24 g·L-1 of the wild-type strain.In order to understand the mechanism of L-ornithine production in C.glutamicum ATCC13032(ΔargFΔproBΔkgd) and find out new strategies for further enhancing L-ornithine production,the comparative proteome between the wild-type and the engineered strain was analyzed.L-Ornithine overproduction in the engineered strain was related to the up-regulation of the expression levels of enzymes involved in L-ornithine biosynthesis pathway and down-regulation of the expression levels of proteins involved in pentose phosphate pathway.The overexpression of genes in the upstream pathway of glutamate to increase the availability of endogenous glutamate may further in-crease ornithine production in the engineered C.glutamicum and the ornithine synthesis enzymes(ArgCJBD) may not be the limiting enzymes in the engineered C.glutamicum.

Three-stage fermentation and kinetic modeling of bioflocculant by Corynebacterium glutamicum

Fermentation of bioflocculant with Corynebacterium glutamicum was studied by way of kinetic modeling.Lorentzian modified Logistic model, time-corrected Luedeking–Piret and Luedeking–Piret type models were proposed and applied to describe the cell growth, bioflocculant synthesis and consumption of substrates, with the correlation of initial biomass concentration and initial glucose concentration, respectively. The results showed that these models could well characterize the batch culture process of C. glutamicum at various initial glucose concentrations from 10.0 to 17.5 g·L-1. The initial biomass concentration could shorten the lag time of cell growth,while the maximum biomass concentration was achieved only at the optimal initial glucose concentration of16.22 g·L-1. A novel three-stage fed-batch strategy for bioflocculant production was developed based on the model prediction, in which the lag phase, quick biomass growth and bioflocculant production stages were sequentially proceeded with the adjustment of glucose concentration and dissolved oxygen. Biomass of2.23 g·L-1was obtained and bioflocculant concentration was enhanced to 176.32 mg·L-1, 18.62% and403.63% higher than those in the batch process, respectively, indicating an efficient fed-batch culture strategy for bioflocculant production.

稀土元素镧对Corynebacterium pekinense发酵赖氨酸的影响

[目的]研究稀土元素镧对北京棒杆菌(Corynebacterium pekinense)的生长及产物合成的影响。[方法]通过全因子试验设计,分析了在北京棒杆菌的发酵培养基中添加不同配比稀土元素镧对其赖氨酸产量的影响。[结果]低剂量的稀土元素镧可以促进北京棒杆菌生长并积累代谢产物赖氨酸,利用Matlab软件优化培养基中显著影响成分,得到稀土镧离子的最佳浓度为78 mg/L,葡萄糖为36 g/L,牛肉膏为4.5 g/L,蛋白胨为20 g/L。[结论]该研究初步确定了在北京棒杆菌培养中,La+的适宜添加量及该菌产生赖氨酸的最适培养基组成。

Analysis of the arginine biosynthetic gene cluster argCJBDFR of Corynebacterium crenatum

Objective: Corynebacterium crenatum AS1.542, a Gram-positive bacterium and indigenous nonpatho-genic corynebacteria, is widely exploited for the in-dustrial production of amino acids. The objective of this paper is to clarify the genetic information of the arginine biosynthetic pathway, and further more contribute to the improvement of arginine produc-tion. Methods: Polymerase chain reaction (PCR) technology was employed for obtaining the arginine biosynthetic gene sequence, and softwares eg. Laser-gene, BPROM, RNAshapes were used for the analysis of obtained sequences. Results: Arginine biosynethetic gene cluster of C. crenatum, comprising argJ, argB, argD, argF, argR and part of argC, has been ampli-fied and sequenced. The gene order has been estab-lished as argCJBDFR, with a entire length of 6.08kb. Conclusion: An internal promoter was found in the upstream of argB gene, four argBDFR ORFs are lo-cated in a same transcription unit, and the tran-scripiton termination of argC gene is irrelevant with the rho-factor. Comparison with ornithine acetyl-transferase (coded by argJ gene) from C. glutamate, ornithine acetyltransferase from C. crenatum also belongs to the monofunctional enzymes.

细胞密度对Corynebacterium sp. NNC-3降解苯酚的影响

以Corynebacterium sp.NNC-3为受试菌株,就初始细胞密度对苯酚降解反应的影响进行了研究。结果表明,初始苯酚浓度为100～600 mg/L,初始细胞密度在0.05～0.30(OD600)范围内时,随着初始细胞密度的增大,菌株NNC-3降解苯酚的平均速率迅速增加;进一步增大初始细胞密度,菌株NNC-3降解苯酚的速率不再随初始细胞密度的增大而升高,菌株NNC-3降解苯酚的能力趋于饱和状态;初始苯酚浓度为600～800 mg/L时,菌株NNC-3降解苯酚的能力趋于饱和状态,且苯酚的降解速率呈现逐渐下降趋势,表明此时底物浓度为菌株NNC-3降解苯酚的限制性因素。研究成果对高效处理受酚污染环境具有一定的参考价值。

谷氨酸棒杆菌(Corynebacterium glutamicum)海藻糖合成酶的定点突变及其酶学性质研究

以已知晶体结构的Pseudomonas mesoacidophila MX-45菌株海藻酮糖合成酶(MutB)的晶体结构为模板,在SWISS-MODEL模建立谷氨酸棒杆菌(Corynebacterium glutamicum)海藻糖合成酶的立体结构,并对初始结构作能量优化,通过氨基酸序列比对,选择TreS-glu保守区内的氨基酸R245、D247、E289、F244和保守区外的氨基酸A288进行定点突变,并对突变酶F244C、F244L、F244W、F244Y、A288G、R245X、E289X、D247N、D247E进行纯化和酶学性质研究,比较突变子对酶活性和热稳定性的影响。结果表明,R245、E289突变为其它的19个氨基酸后酶活力全部丧失,D247E和D247N也丧失酶活,F244C、F244L、F244W、F244Y和A288G的比活力分别降低到TreS-glu的38%、24%、62%、64%和35%,A288突变成T288后没有酶活。与TreS-glu相比,F244C、F244W、A288G的Km值基本不变,F244L、F244Y对底物麦芽糖的亲和力降低,F244Y的最适反应温度和TreS-glu相同,均为27℃,而F244C、F244L、F244W和A288G的最适温度提高到32℃。与TreS-glu相比,突变酶的最适反应pH值均有所下降,其中F244C、F244Y和A288G的为7.5,比TreS-glu的8.0均下降了约0.5个单位,而F244L和F244W的为6.5,比TreS-glu的8.0均下降了近1.5个单位。与TreS-glu相比,突变酶的热稳定性均有不同程度提高,其中F244Y、F244W和A288G的Tm值比TreS-glu的提高约1℃,F244L提高约2℃,F244C提高了近4℃。

Engineering Corynebacterium glutamicum for Geraniol Production

Geraniol is a monoterpenoid alcohol with various applications in food,cosmetics,and healthcare.Corynebacterium glutamicum is a potential platform for terpenoids production because it harbors the methylerythritol phosphate pathway.To engineer C.glutamicum to produce geraniol,two different truncated geraniol synthases (GESs) were respectively expressed,and strain LX02 expressing the truncated GESs from Valeriana officinalis (t Vo GES) produced 0.3 mg/L of geraniol.Then,three geranyl diphosphate synthases (GPPSs) were combinatorially co-expressed with t Vo GES to improve geraniol production.The amounts of produced geraniol were all higher than that produced by strain LX02.Strain LX03 co-expressing ERG20 F96W–N127W (ERG20 WW) and t Vo GES produced the highest amount,5.4 mg/L.Subsequently,the co-overexpression of1-deoxy-D-xylulose-5-phosphate synthase (dxs) and isopentenyl diphosphate isomerase (idi) further increased the production to 12.2 mg/L in strain LX03.Lastly,the production of geraniol was increased to 15.2 mg/L via fermentation optimization.To our knowledge,this is the first report on the engineering of C.glutamicum to produce geraniol and thus can serve as a reference for other monoterpenoid production studies.

Effect of Lanthanon on Lysine Fermentation in Corynebacterium pekinense

[ Objective] This study aimed to investigate the effects of rare earth element lanthanon on the growth and product synthesis of Corynebacterium pekinense. [ Method ] A full factorial experiment was designed to compare the lysine fermentation of C. pek/nense in medium containing different concentrations of lanthanon. [ Result ] Low doses of lanthanum can promote the growth of C. pekinense and accumulation of metabolite lysine; optimization for distinct components of medium were obtained as 78 mg/L rare earth, 36 g/L glucose, 4.5 g/L beef extract, 20 g/L peptone by Matlab software. [Conclusion] The study initially deter- mined the optimum La＋ additive amount in C. pekinense culture medium and the optimum medium compositions for C. pekinense to produce lysine.

Sub-acute endocarditis by Corynebacterium straitum : An often ignored pathogen

With the emergence of novel etiologic organisms, panresistance, and invasive medical care infective endocarditis continues to be evasive, requiring newer approaches and modified treatment guidelines. Presented here is the case of a 75-year-old male with history of systolic heart failure with an automatic internal cardioverter defibrillator(AICD) implantation and a prosthetic mitral valve who presented with generalized malaise and progressive shortness of breath for 6 d. He was found to have positive blood cultures for gram positive rod shaped bacteria identified as Corynebacterium straitum, but was not considered as the etiological pathogen initially as it a usual skin contaminant. Later this bacterium was found to be the causative agent for the patient's endocarditis. This case highlights the importance of identifying the role of this uncommon commensal in invasive disease. With the use of effective antibiotic regimen and awareness of these new pathogens in invasive disease, mortality and morbidity can be prevented with initiation of early appropriate therapy.

Aortic Graft Complicated by a Corynebacterium Striatum Infection Due to Previous Type IV Thoraco Abdominal Aortic Aneurysm Repair

We report successful management of aortic graft infection without graft explanation or extra-anatomic bypass. A 61 year-old male who had undergone surgical repair of a type IV thoraco-abdominal aortic aneurysm presented with left flank pain and raised inflammatory markers following graft implantation. CT scanning revealed a left psoas fluid collection. Graft infection was diagnosed. A radio-guided drainage and conservative management, with irrigation drain placement was undertaken with preservation of the aortic graft. There was no evidence of recurrent infection after follow-up at 34 months. Aortic endograft infection may be managed by surgical or radio-guided drainage, antibiotic irrigation of the graft and systemic antibiotic therapy without graft removal.

Human Seroreactivity to Secreted Molecules of Corynebacterium pseudotuberculosis

Corynebacterium pseudotuberculosis is an infectious agent that occurs in small ruminants causing caseous lymphadenitis, and more rarely in humans causing lymphadenitis and pneumonia. The breeding small ruminants have great economic importance in Brazil. Rural farm workers and veterinary students who acquired this disease suffered from weakening symptoms for weeks, and the identification of the etiological agent was time-consuming and complex. Due to the low prevalence of case records, there is probably no available commercial diagnostic kit for C. pseudotuberculosis infection in humans. This study aimed to describe human seroreactivity to secreted antigens from C. pseudotuberculosis. Reactivity of serum from farm workers (n = 14), individuals who work with the bacillus at laboratory (n = 8) or individuals without contact (n = 25) was tested with secreted proteins from PAT10 strain of C. pseudotuberculosis by Western blotting. Samples of all (100%) farm workers showed reactivity to 31 kDa, 71 kDa and 164 kDa proteins, while laboratory workers showed 87.5%, 62.5 % and 37.5%, and no-contact 20%, 0% and 16%, respectively. All sera recognized the 275 kDa protein. Our data suggest that C. pseudotuberculosis secreted proteins are antigenic in humans and the recognition profiles allowed the identification of individuals with and without prior contact with this bacillus. This is the first paper which describes human reactivity to C. pseudotuberculosis in serum samples of workers in Brazil.

利用CRISPRi技术构建乙醛酸生物合成Corynebacterium glutamicum工程菌

以谷氨酸棒状杆菌(Corynebacterium glutamicum ATCC 13032)为出发菌株,敲除其支流代谢关键酶乳酸脱氢酶合成基因lldh,建立规律间隔成簇短回文重复序列干扰(clustered regularly interspaced short palindromic repeats interference,CRISPRi)调控体系,并利用该体系下调支流代谢中的关键酶异柠檬酸脱氢酶合成基因icd和苹果酸合成酶合成基因ms的表达强度,同时过表达异柠檬酸裂合酶合成基因icl,强化乙醛酸合成的通路。通过48 h连续监测工程菌和野生菌生长状况,并检测发酵终产物。结果显示:工程菌生长几乎不受影响,发酵液中乙醛酸质量浓度达到5 mg/mL,实现了乙醛酸的积累,为谷氨酸棒状杆菌工业生产乙醛研究提供一定的参考。

北京棒杆菌Corynebacterium pekinense天冬氨酸激酶P184M酶动力学分析及酶学性质表征

目的研究北京棒杆菌天冬氨酸激酶(aspartate kinase,AK)184位点脯氨酸(proline,P)突变为蛋氨酸(DL-methionine,M)对酶动力学及酶学性质的影响。方法对北京棒杆菌AK家族同源序列比对,选择出高度保守且远离底物结合位点的Pro184位点,对其进行饱和定点突变,成功构建突变体P184M。结果动力学和酶学性质研究表明:P184M AK Vmax比WT(wide type)提高了5.06倍;n值为0.19,突变体由WT的正协同性变为负协同性,同时Km(mol/L)值增大;突变体AK最适pH为6.5,低于野生型最适pH 7.0;最适反应温度28℃,低于WT的30℃,适宜温度区间变窄;半衰期由WT的2.1 h降为1.2 h;金属离子、有机溶剂和抑制剂Thr+Met、Lys+Met、Thr+Lys+Met对突变株AK均表现出激活作用。结论突变体天冬氨酸激酶P184M的酶动力学性质和酶学性质改变显著,为构建高产蛋氨酸菌株提供了一定的参考依据。