谷氨酸棒状杆菌尿素传感器的研究

基于腺酶催化尿素分解产生氨,以氨气敏电极为基础电极,用含脲酶丰富的谷氨酸棒状杆菌研制成测定尿素的微生物传感器.在30℃、pH8.0、0.1mol/L磷酸盐缓冲液中,该传感器的线性范围为1.1×10^-4～1.4×10^-2mol/L,斜率为51.2mV/decade,检测下限为1.0×10^-5mol/L,寿命可达45d.考察了传感器响应初速和底物浓度之间的关系,测定了微生物膜中脲酶的表观米氏常数K_m及最大响应初速v_m.     

谷氨酸棒杆菌人工合成启动子文库的构建及应用

启动子是实现基因精细表达调控的重要工具,广泛应用于微生物的代谢工程改造.谷氨酸棒杆菌是重要的工业底盘,已报道的启动子文库较少且主要是基于完全人工设计的突变序列构建获得.本研究对谷氨酸棒杆菌odhA基因天然启动子的-10区及附近序列进行随机突变,借助rfp报告基因和荧光成像系统进行高通量筛选,构建了包含57个相对强度为2...     

Glucose-controlled -isoleucine fed-batch production with recombinant strains of Corynebacterium glutamicum

-Isoleucine was produced in a fed-batch bioprocess with -leucine auxotrophic Corynebacterium glutamicum strains developed by genetic engineering. An efficient supply with nutrients was achieved by applying closed-loop control of glucose as the main carbon source, with a model-based, parameter-adaptive control strategy. This control strategy is based on an extended, semi-continuous Kalman filter for process identification and a minimum variance controller. The lab scale fed-batch process with C. glutamicum SM1 and C. glutamicum DR17 pECM3::ilvA38 was characterized with respect to biomass, product and by-product accumulation. A differential analysis of growth, specific productivities, and selectivities was performed to characterize the carbon flow over process time. Characterization of -isoleucine transport steps across the cell membrane resulted in a balance of -isoleucine transport over process time. Up to an extracellular -isoleucine concentration of 140 mM the cytosolic -isoleucine, provided by the biosynthesis, was quantitatively excreted into the medium via the export carrier system. Optimized feeding profiles for -leucine and phosphate in correlation with the on-line estimated glucose consumption were achieved up to the pilot scale (300-1 stirred tank reactor). The maximum -isoleucine concentration was 150 mM (21 g l⁻¹) with a space-time yield of 4.3 mmol l⁻¹ h⁻¹. With a 98% closed carbon balance the selectivity for isoleucine was 14%, for biomass 13%, and for CO₂ 68%.     

谷氨酸棒杆菌代谢工程高效生产L-缬氨酸北大核心CSCD

L-缬氨酸作为一种支链氨基酸,广泛应用于医药和饲料等领域。本研究借助多种代谢工程策略相结合的方法,构建了生产L-缬氨酸的微生物细胞工厂,实现了L-缬氨酸的高效生产。首先,通过增强糖酵解途径、减弱副产物代谢途径相结合的方式,强化了L-缬氨酸合成前体丙酮酸的供给;其次,针对L-缬氨酸合成路径关键酶—乙酰羟酸合酶进行定点突变,提高了菌株的抗反馈抑制能力,并利用启动子工程策略,优化了路径关键酶的基因表达水平;最后,利用辅因子工程策略,改变了乙酰羟酸还原异构酶和支链氨基酸转氨酶的辅因子偏好性,由偏好NADPH转变为偏好NADH,从而提高了L-缬氨酸的合成能力。在5L发酵罐中,最优谷氨酸棒杆菌工程菌株Corynebacterium glutamicum K020的L-缬氨酸产量、得率和生产强度分别达到了110g/L、0.51g/g和2.29 g/(L·h)。     

Cloning the dapA dapB cluster of the lysine-secreting bacterium Corynebacterium glutamicum

Summary The genes encoding the two successive enzymes of the lysine biosynthetic pathway, dihydrodipicolinate synthase (dapA) and dihydrodipicolinate reductase (dapB), have been isolated from Corynebacterium glutamicum by heterologous complementation of Escherichia coli mutants. The two genes reside on a single 3.8-kb chromosomal fragment. They were subcloned as non overlapping fragments on an E. coli/C. glutamicum shuttle vector and introduced into C. glutamicum. This resulted in overexpression of both enzyme activities which was irrespective of the orientation of the inserts and comparable to that obtained with the large 3.8-kb fragment. Therefore, both genes are located in close proximity to each other on the C. glutamicum chromosome, but are apparently independently transcribed.     

谷氨酸棒杆菌中基于CRISPR/Cas9的多位点碱基编辑系统的优化

作为新型的基因组编辑工具,碱基编辑技术结合了CRISPR/Cas系统的定位功能和碱基脱氨酶的编辑功能,可实现特定位点的碱基突变,具有不产生双链DNA断裂,无需外源模板且不依赖染色体DNA同源重组的优势.目前,研究者们已在重要的工业生产菌株谷氨酸棒杆菌(Corynebacterium glutamicum)中开发了多种碱...     

NADPH缺陷型Corynebacterium glutamicum重组菌株的构建及其性能分析

[目的]改造谷氨酸棒杆菌(Corynebacterium glutamicum)中NADPH合成途径,阻断胞内NADPH的合成,获得1株NADPH营养缺陷型菌株。[方法]通过失活L-赖氨酸高产菌C. glutamicum Lys-χ中葡萄糖-6-磷酸脱氢酶(Zwf)和苹果酸酶(MalE)并将NADP~+依赖型异柠檬酸脱氢酶(NADP~+-Icdcg)替换成变形链球菌(Streptococcus mutans)中的NAD~+-Icdsm,阻断胞内NADPH的合成。随后结合辅因子工程,引入大肠杆菌(Escherichia coli)中膜结合吡啶核苷酸转氢酶(PntAB)并通过不同强度启动子控制PntAB的表达水平。最后,分析不同重组菌中胞内氧化还原水平和L-赖氨酸生产强度的变化。[结果]重组菌C.glutamicum Lys-χΔZMI_(Cg)::I_(Sm)(即Lys-x1)胞内检测不到NADPH,为1株NADPH营养缺陷型菌株。该重组菌只在以葡萄糖酸为碳源的基础培养基中生长和积累L-赖氨酸,而以葡萄糖、丙酮酸、α-酮戊二酸和草酰乙酸为碳源时无法生长。此外,表达E.coli中的PntAB可回补重组菌Lys-χ1胞内NADPH的水平,但由于不同强度启动子控制PntAB表达水平不同,重组菌胞内NADPH水平也不同,并影响L-赖氨酸的生产强度。[结论]重组菌Lys-χ1可作为有效的底盘细胞,用于考察不同的NADPH再生策略,获得不同胞内NADPH水平的重组菌株,为进一步阐明NADPH调控微生物细胞生理代谢功能的机制提供研究基础。     

General organization of the genes specifically involved in the diaminopimelate-lysine biosynthetic pathway of Corynebacterium glutamicum

Summary To obtain animal cell lines carrying nonsense mutations and the corresponding suppressors, we used a supersuppressor selection strategy on the CHO cell line. The wild-type strain is resistant to the aminopterin present in HAT medium (i.e., it is HAT^r) because it contains the enzymes hypoxanthine-guanine phosphoribosyl transferase (HPRT) and thymidine kinase (TK), whereas both HPRT mutants — selected by their resistance to 6-thioguanine (TG^r) — and TK^- mutants — selected by their resistance to 5-bromodeoxyuridine (BrdUrd^r) — are HAT^s. Therefore, from HPRT^- TK^- double nonsense mutants, whose phenotype would be TG^r BrdUrd^r (HAT^s), simultaneous HPRT⁺ TK⁺ double phenotypic revertants could be obtained by selecting HAT^r (TG^s BrdUrd^s) variants carrying the corresponding nonsense supersuppressors. Through ethylmethane sulfonate (EMS) mutagenesis of the CHO cell line we obtained 65 TG^r variants, 53 of which were HAT^s and the rest HAT^r. Among 36 TG^r (HAT^s) variants tested, 23 did not revert to HAT^r, 4 reverted spontaneously and with EMS, and 9 reverted only with EMS. Some of the latter were probably HPRT^- nonsense mutants because they were very stringent (had less than 2% of wild-type [³H]hypoxanthine incorporation and HPRT enzyme activity), and did not complement genetically. The introduction of a second marker (BrdUrd^r) in 7 of these strains allowed us to isolate 29 TG^r BrdUrd^r (HAT^s) double drug-resistant lines. Through one-step mutagenesis and selection in HAT medium, from two double resistant strains we could isolate HAT^r (TG^s BrdUrd^s) wild-type phenotypic revertants, each of which probably carries suppressible HPRT and TK nonsense (or missense) alleles and the corresponding supersuppressor. Our strategy could now be extended to obtain variants carrying suppressors in other cell lines.     

理性代谢工程改造促进谷氨酸棒杆菌高效合成L-谷氨酸

L-谷氨酸是世界上第一大宗氨基酸产品,广泛应用于食品医药及化工等行业。以谷氨酸高产菌谷氨酸棒杆菌(Corynebacterium glutamicum) G01为出发菌株,首先通过敲除主要副产物丙氨酸合成相关基因-丙氨酸氨基转移酶编码基因(alaT),降低了发酵副产物丙氨酸含量。其次,α-酮戊二酸节点碳流量对谷氨酸合成起重要作用,因此,采用核糖体结合位点(ribosome-binding site,RBS)序列优化降低了α-酮戊二酸脱氢酶的活性,强化了谷氨酸合成代谢流。同时通过筛选不同来源的谷氨酸脱氢酶,加强了α-酮戊二酸内源转化为谷氨酸的能力。接着,对谷氨酸转运蛋白进行理性设计,提高了谷氨酸的外排能力。最后,对基于以上策略构建的整合菌株进行了5 L发酵罐发酵优化,通过梯度升温结合分批补料策略,谷氨酸产量为(136.33±4.68) g/L,较原始菌的产量(96.53±2.32) g/L提高了41.2%;糖酸转化率为55.8%,较原始菌的44.2%提高了11.6%;且降低了副产物丙氨酸的含量。以上策略一定程度上提高了谷氨酸的产量与糖酸转化率,可为谷氨酸生产菌株的代谢改造提供参考。     

口蹄疫病毒结构蛋白VP1在谷氨酸棒状杆菌中的表达及优化

【背景】口蹄疫(foot-and-mouth disease, FMD)是由口蹄疫病毒(foot-and-mouth disease virus, FMDV)引起的感染牛、羊和猪等偶蹄动物的主要疫病之一。口蹄疫病毒的结构蛋白VP1包含多个能够引起机体免疫反应的主要位点,因此VP1是研究亚单位疫苗的方向靶标。谷氨酸棒状杆菌 (Corynebacterium glutamicum)作为安全生产菌株,是医药用蛋白生产的优势细胞工厂。【目的】利用C. glutamicum作为受体菌株表达外源蛋白的优势实现VP1的外源表达。【方法】根据VP1结构蛋白的基因序列、相应功能和C. glutamicum的密码子偏好性设计并合成VP1基因,与pXMJ19载体连接构成重组质粒pXMJ19-VP1。C. glutamicum CGMCC 1.15647菌株用于表达VP1-6×his蛋白,并对蛋白表达元件启动子、5′非翻译端(5′UTR)、目的蛋白自身N端等进行优化,同时对培养条件等进一步优化,采用SDS-PAGE和Western blotting技术检测VP1蛋白的表达情况。最后应用间接酶联免疫吸附试验(enzyme-linked immunosorbent assay, ELISA)测定本研究中生产的VP1的免疫活性。【结果】SDS-PAGE和Western blotting分析结果表明VP1蛋白能在C. glutamicum CGMCC 1.15647菌株成功表达,将P_tac启动子替换为合成型启动子P_H36能提高蛋白产量。在此基础上,通过插入不同的5′UTR序列和VP1蛋白N端氨基酸的改变能进一步提高蛋白产量并可利用CspB信号肽实现分泌表达。发酵试验表明,VP1摇瓶发酵培养最优条件为30 ℃、24 h。ELISA试验表明,本研究中的VP1可与阳性血清特异性结合。【结论】本研究在谷氨酸棒状杆菌中成功表达FMDV的VP1蛋白,并通过优化蛋白表达元件的方法进一步提高了产量,为开发新型FMD免疫诊断试剂和安全高效的亚单位疫苗奠定了良好的基础。     

双功能尿苷酰转移/去除酶GlnD在谷氨酸棒杆菌JNR中的功能

【目的】通过改造谷氨酸棒杆菌JNR中双功能尿苷酰转移/去除酶GlnD,减弱尿苷酰去除酶的活性,增强NH_4~+的转运和利用,提高L-精氨酸的合成。【方法】本文对来源于谷氨酸棒杆菌的突变菌株JNR中的双功能尿苷酰转移/去除酶GlnD进行整合突变,采用同源重组的方法将H_(414)和D_(415)位点突变为两个丙氨酸AA,在此菌株的基础上过量表达PII蛋白GlnK,并对其进行尿苷酰化研究,离子色谱检测摇瓶发酵过程中NH4+的浓度,并对最终的改造菌株进行连续流加发酵分析。【结果】该双功能尿苷酰转移/去除酶在谷氨酸棒杆菌中成功进行整合突变,有效减弱了尿苷酰去除酶的活性;同时过表达PII蛋白GlnK,其酰基化程度明显增强。摇瓶发酵结果表明菌株L4消耗NH_4~+增加,L-精氨酸产量为36.2±1.2 g/L,比对照菌株L3高出22.7%。5-L发酵罐实验结果显示改造菌株L4的L-精氨酸的产量为52.2 g/L,较野生型菌株L0提高了25.3%。【结论】谷氨酸棒杆菌合成L-精氨酸的过程中氮源是必不可少的。减弱GlnD尿苷酰去除酶的活性后,胞内尿苷酰化的GlnK-UMP增加,GlnK-UMP与氮转录调控因子AmtR结合,转运至胞内的NH_4~+浓度提高,促使L-精氨酸产量显著提高。     

Metabolic fluxes and l-lysine synthesis by Corynebacterium glutamicum in relation to cellular total reducing activity

The total reducing activity (TRA) of cells was used to estimate the physiological activity of Corynebacterium glutamicum under conditions of l-lysine synthesis. This was estimated as the rate of reduction of 2,3,5- triphenyltetrazolium chloride by intact cells. TRA of cells was linearly correlated with the intracellular concentrations of RNA and the bacterial growth rate. It was concluded that this activity reflected the rate of energy generation in cells. A decrease in TRA of growing cells was related to an increase in bacterial lysine synthesis activity. Alteration in metabolic pathway functioning and an increase in the intracellular concentrations of lysine precursors favoured an increase in the rate of lysine synthesis by bacterial cells when cellular TRA was decreasing.     

Metabolic Consequences of Altered PhosphoenolpyruvateCarboxykinase Activity in Corynebacterium glutamicum Reveal Anaplerotic Regulation Mechanisms in Vivo

Corynebacterium glutamicum possesses high in vivo activity of the gluconeogenic phosphoenolpyruvate carboxykinase (PEPCk) during growth on glucose, resulting together with anaplerotic carboxylation reactions in a PEP/pyruvate/oxaloacetate substrate cycle. The present study investigated the changes in intracellular fluxes and metabolite concentrations that are caused by altered PEPCk activity in L-lysine-producing C. glutamicum MH20-22B, applying a recently developed (13)C labeling-based strategy for anaplerotic flux resolution and quantification. Abolition of PEPCk activity by deletion of the respective pck gene resulted in increased intracellular concentrations of oxaloacetate L-aspartate, alpha-ketoglutarate, pyruvate, and L-lysine and in a 60% enhanced flux toward L-lysine biosynthesis, whereas increasing the PEPCk activity by pck overexpression had opposite effects. The results of the combined measurements of enzyme activities, in vivo fluxes, and metabolite concentrations were exploited to elucidate the in vivo regulation of anaplerotic reactions in C. glutamicum, and implications for the metabolic engineering of amino-acid-producing strains are discussed.     

A physical and genetic map of theCorynebacterium glutamicum ATCC 13032 chromosome

A combined physical and genetic map of theCorynebacterium glutamicum ATCC 13032 chromosome was constructed using pulsed-field gel electrophoresis (PFGE) and hybridizations with cloned gene probes. Total genomic DNA was digested with the meganucleasesSwaI (5-ATTTAAAT-3),PacI (5-TTAATTAA-3), andPmeI (5-GTTTAAAC-3) yielding 26, 27, and 23 fragments, respectively. The chromosomal restriction fragments were then separated by PFGE. By summing up the lengths of the fragments generated with each of the three enzymes, a genome size of 3082 +/- 20 kb was determined. To identify adjacentSwaI fragments, a genomic cosmid library ofC. glutamicum was screened for chromosomal inserts containingSwaI sites. Southern blots of the PFGE gels were hybridized with these linking clones to connect theSwaI fragments in their natural order. By this method, about 90% of the genome could be ordered into three contigs. Two of the remaining gaps were closed by cross-hybridization of blottedSwaI digests using as probesPacI andPmeI fragments isolated from PFGE gels. The last gap in the chromosomal map was closed by hybridization experiments using partialSwaI digestions, thereby proving the circularity of the chromosome. By hybridization of gene probes toSwaI fragments separated by PFGE about 30 genes, including rRNA operons, IS element and transposon insertions were localized on the physical map.     

谷氨酸棒杆菌anti-σ因子CseE及其突变体与σ因子SigE的相互作用分析

[目的]谷氨酸棒杆菌是重要的氨基酸生产菌株,本研究针对SigE与ZAS家族蛋白CseE相互作用机制进行探索研究,重点分析CseE突变体影响与SigE结合能力的机制。[方法]本研究选择谷氨酸棒杆菌ATCC 13032来源的SigE和CseE蛋白为研究目标,利用遗传学方法获得过表达的重组谷氨酸棒杆菌,通过RT-qPCR研究SigE调控sigE和cseE的转录情况。同时,利用ITC和His pull-down实验验证ZAS家族的CseE蛋白与Zn²⁺及SigE的结合情况。之后对CseE蛋白进行功能域分析、多序列比对,研究功能域关键氨基酸位点对SigE结合能力的影响。其次对SigE和CseE蛋白进行分子对接和动力学模拟,分析关键氨基酸影响其结合的机制。[结果]谷氨酸棒杆菌SigE调控基因sigE和cseE的转录并且其活性受CseE蛋白控制。CseE蛋白为ZAS家族蛋白,具有Zn²⁺结合能力。CseE_His83A、CseE_cys87A和CseE_cys90A突变体不会影响与SigE的结合能力,而CseE_C87A-C90A和CseE_{His83A-C87A-C90A}突变体与SigE的结合能力略有下降。分子动力学模拟发现SigE-CseE_C87A-C90A和SigE-CseE_{His83A-C87A-C90A}之间的结合能量为-17.23 kcal/mol和-14.06 kcal/mol,分别比未突变体系结合能量降低22.8%及36.9%。[结论]谷氨酸棒杆菌SigE通过聚集RNA聚合酶来调控基因sigE和cseE的表达。CseE蛋白属于ZAS家族,具有Zn²⁺结合能力同时通过与SigE蛋白互作来抑制SigE活性。CseE_C87A-C90A及CseE_{His83A-C87A-C90A}突变体能影响与SigE结合的能力,减弱对SigE活性的控制。本研究产生的三维结构和确定的氨基酸关键位点为后续探索谷氨酸棒杆菌SigE和CseE响应环境压力机制提供了理论基础。     

Characterization and Sequence Analysis of the Replicator Region of the Novel Plasmid pALC1 from Paracoccus alcaliphilus

The replicator region of a low-copy-number plasmid, pALC1, of Paracoccus alcaliphilus JCM 7364 was cloned in a form of the minireplicon pALC100 (3.6 kb). The host range of the minireplicon embraces several species of genus Paracoccus, as well as Agrobacterium tumefaciens, Rhizobium leguminosarum, and Rhodobacter sphaeroides (all belonging to alpha-Proteobacteria), but not Escherichia coli. The complete nucleotide sequence of the replicator region (2276 bp) revealed the presence of one complete open reading frame coding for the 28.4-kDa protein (RepA) with similarity to replication proteins of plasmid pSW500 of Erwinia stewartii and pVS1 of Pseudomonas fluorescens. The iteron-like region was identified upstream of the repA gene and consisted of two clusters of repeated sequences (17 bp long) separated by a putative DnaA box. Analysis of the predicted amino acid sequence of two adjacent incomplete ORFs suggests the localization of repA between genes involved in conjugation (traG) and partitioning (parA) within the pALC1 genome.     

Sequence and Gene Expression Analyses of Plasmid pHPM8 from Helicobacter pylori Reveal the Presence of Two Operons with Putative Roles in Plasmid Replication and Antibiotic Activity

The DNA sequence of a 7.8-kb Helicobacter pylori plasmid, pHPM8, was determined. Six open reading frames (ORFs) were present. Ribonuclease protection studies showed that ORF1/ORF2 and ORF3/ORF4 genes are organized in operons possibly involved in plasmid replication and in production of a peptide with antibiotic activity, respectively. Finding areas of pHPM8 with a high level of identity to H. pylori chromosomal DNA supported the hypothesis that recombination occurs between plasmids and the chromosome of H. pylori.