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1.
利用基因工程技术提高了短杆菌的苯丙氨酸合成途径中关键酶活性,大幅度地增加了生物合成苯丙氨酸的产量。首先采用聚合酶链反应(PCR)从大肠杆菌的氟代苯丙氨酸抗性变异菌株基因组中扩增到与苯丙氨酸合成相关的aroG,pheA和tyrB 3个基因。其中aroG编码3-脱氧-2-阿拉伯庚酮糖-7-磷酸合成酶(DS),pheA编码双功能酶蛋白-分枝酸变位酶(CM)和预苯酸脱水酶(PD),tyrB编码转氨酶(AT)。设计不同的酶切位点,利用质粒pUC118的多克隆位点,将3个基因按不同的顺序组合串联,然后插入穿梭质粒pCZ.10,导入短杆菌中表达。结果表明3个大肠杆菌基因在短杆菌中能够表达。其中以aroG-pheA-tyrB顺序串联而构建的黄色短杆菌工程菌株1311-GAB中的DS酶活力提高4.5倍,CM提高4.2倍,PD提高2.7倍,AT提高3.2倍;它的苯丙氨酸合成量提高2.35倍。  相似文献   

2.
在大肠杆菌中 ,80 %的 3 脱氧 D 阿拉伯 庚酮 7 磷酸 (3 deoxy D arabino heptulosonate 7 phosphate,DAHP)合酶由aroG基因编码。分别以大肠杆菌K1 2及其抗苯丙氨酸类似物的突变体总DNA为模板 ,以PCR方法扩增得到aroG基因及其突变体。基因测序结果表明抗苯丙氨酸类似物的突变体 ,其aroG基因核苷酸 62 5位发生了T→C的点突变 ,从而使AroG蛋白的 2 0 9位氨基酸由Ser取代了Phe。aroG基因及其突变体克隆到表达质粒 pTrc99A上 ,在大肠杆菌JM 1 0 5中进行表达 ,表达产物的SDS PAGE上可以看到分子量相当明显的条带 ;菌体粗提物中DAHP合酶的活性提高了 1 .8倍 ;酶活抗性检测表明AroG蛋白突变体在一定程度上解除了苯丙氨酸的反馈抑制作用 ;与含K1 2aroG基因的JM1 0 5细胞相比 ,含aroG基因突变体的JM1 0 5细胞可以在含高浓度苯丙氨酸类似物的培养基上生长。  相似文献   

3.
ppsA和tktA是芳香族氨基酸生物合成中心途径的两个关键酶基因,在大肠杆菌中,ppsA基因编码磷酸烯醇式丙酮酸合成酶A(PpsA),该酶催化丙酮酸合成磷酸烯醇式丙酮酸;tktA基因编码转酮酶A,该酶在磷酸戊糖途径中生成4-磷酸赤藓糖起主要作用。采用PCR方法从大肠杆菌K-12株中扩增到ppsA和tktA,并实现了两基因的高效表达,其中ppsA活性提高了10.8倍,tktA活性提高了3.9倍,当这两个基因串联在一个质粒上导入大肠杆菌进行表达时,PpsA的活性变化较大(2.1~9.1倍),TktA的活性相对稳定(3.9~4.5倍),且这两个基因单独表达和串联表达都能使芳香族氨基酸生物合成共同途径中关键中间产物DAHP的产量提高,且串联表达比单独表达较高。  相似文献   

4.
大肠杆菌tyrR基因剔除及其对苯丙氨酸生物合成的影响   总被引:1,自引:0,他引:1  
TyrR是大肠杆菌芳香族氨基酸生物合成和运输途径中的一种全局性调控蛋白质。采用双交换同源重组的方法定位突变大肠杆菌染色体tyrR基因 ,在该基因中插入带有卡那霉素抗性基因的DNA片段 ,使之失活 ,实现基因剔除。经PCR、DNA测序、lacZ报告基因等多种方法证实了基因剔除的可靠性。tyrR基因剔除后 ,大肠杆菌芳香族氨基酸生物合成中受TyrR蛋白调控的关键酶的酶活力有所提高 :3 脱氧 2 阿拉伯庚酮糖 7 磷酸合成酶(DAHPS ,由aroG编码 )酶活力提高了 1.0 8倍 ,转氨酶 (AT ,由tyrB编码 )酶活力提高了 2 .70倍 ;突变菌株发酵生产苯丙氨酸的能力提高了 1.5 9倍 ;同时 ,与芳香族氨基酸运输相关的通透酶基因aroP(P)的阻遏被解除 ,细胞运输芳香族氨基酸的能力提高了 70 .2 %。  相似文献   

5.
编码1,3-丙二醇氧化还原酶基因的克隆和表达   总被引:4,自引:0,他引:4  
采用PCR法克隆了巴氏梭菌(Clostridium pasteurianum)CpN86菌株编码1,3丙二醇氧化还原酶基因(dhaT基因);完成了dhaT基因测序、表达载体构建和在大肠杆菌中表达;分离和纯化了dhaT基因表达的重组蛋白。实验结果:(1)PCR法克隆的dhaT基因和肺炎克雷伯氏菌Klebsiella pneumoniae菌株dhaT基因的序列同源性为829%;(2)dhaT基因表达蛋白的酶活为108U/mg;(3)dhaT基因表达的蛋白分子量为43kD;(4)Western blot确定了dhaT基因表达的蛋白和 CpN86菌株天然蛋白有相同的抗原反应。  相似文献   

6.
根据已报道的寄生疫霉(Phytophthora parasitica)parA1基因的序列设计引物,从4株寄生疫霉中国菌株(3株来自烟草,1株来自刺槐)中克隆到此基因并进行了重组表达。序列分析表明4株寄生疫霉parA1基因序列高度保守。对表达载体pET30a(+)双酶切,构建表达Parasiticein蛋白的表达载体pETeli,用CaCl\-2法转化大肠杆菌(Escherichia coli)BL21,通过诱导在大肠杆菌中进行非融合表达,表达产物在烟草上引起过敏性反应。性质测定表明,表达产物有一定的耐热性,并对蛋白酶K敏感。  相似文献   

7.
【目的】通过增加北京棒杆菌(Corynebacterium pekinense)PD-67芳香族氨基酸合成的前体物质磷酸烯醇式丙酮酸(PEP)的供应,解除终产物对芳香族氨基酸合成途径中第一个酶同时也是关键酶3-脱氧-D-阿拉伯庚酮糖-7-磷酸合酶(DS)的反馈抑制并提高抗反馈抑制的DS的活力,使碳流更多地流向芳香族氨基酸合成途径,从而积累更多L-色氨酸。【方法】运用PCR技术扩增北京棒杆菌PD-67磷酸烯醇式丙酮酸合酶基因pps,与表达载体连接构建重组质粒pXPS;运用重叠PCR技术定点突变大肠杆菌(Escherichia coli)受苯丙氨酸调控的DS基因aroG,使相应的编码氨基酸序列发生突变:Leu175Asp,新的基因命名为aroGfbr,与表达载体连接构建重组质粒pXA;构建pps和aroGfbr的共表达重组质粒pXAPS。将3个重组质粒分别转入菌株PD-67,构建工程菌株PD-67/pXPS、PD-67/pXA和PD-67/pXAPS。通过摇瓶发酵研究工程菌株的发酵特性。【结果】酶活分析结果表明,pps基因和aroGfbr基因在北京棒杆菌PD-67中均实现了表达。工程菌株PD-67/pXA粗酶液DS抗反馈抑制分析表明,AroGfbr已解除酪氨酸和苯丙氨酸的反馈抑制。过表达pps基因和aroGfbr基因分别使工程菌L-色氨酸产量提高12.1%和26.8%,双基因共表达可使工程菌的产酸量提高35.9%。【结论】北京棒杆菌PD-67pps基因的过表达以及大肠杆菌来源的解除反馈抑制的aroGfbr的过表达均有助于增加PD-67 L-色氨酸的合成,而双基因的共表达可以进一步提高L-色氨酸的积累量。  相似文献   

8.
本研究用鸟枪法构建了枯草芽孢杆菌(Bacillus subtilis)HB002的基因组文库,经平板法筛选得到了六株能水解合成底物对硝基苯αD葡萄糖吡喃糖苷的阳性克隆,经鉴定均含克隆了寡聚1,6葡萄糖苷酶基因的重组质粒(命名为pHBM001~pHBM006)。选择pHBM003,对其插入片段测序分析,此片段内有一编码561个氨基酸的开放阅读框,该蛋白质的计算分子量为65985kD。HB002的寡聚1,6葡萄糖苷酶的氨基酸序列与Bacillus sp.和凝结芽孢杆菌(Bacillus coagulans)的寡聚1,6葡萄糖苷酶的氨基酸序列一致性分别为81%、67%,相似性分别为89%、79%。从pHBM003中扩增出寡聚1,6葡萄糖苷酶基因,克隆到pBV220上,转化大肠杆菌(Escherichia coli)DH5α,得到三个能水解对硝基苯αD葡萄糖吡喃糖苷的阳性克隆HBM0031~HBM0033,将此三个菌株热诱导表达,SDSPAGE电泳可检测到特异表达的蛋白质,其中HBM0031、HBM0032表达的蛋白约66kD,为完整的寡聚1,6葡萄糖苷酶,而HBM0033表达的蛋白质偏小;表达的蛋白质均有寡聚1,6葡萄糖苷酶活性。  相似文献   

9.
大肠杆菌ppsA和tktA基因的串联表达   总被引:5,自引:0,他引:5  
ppsA和tktA是芳香族氨基酸生物合成中心途径的两个关键酶基因,在大肠杆菌中,ppsA基因编码磷酸烯醇式丙酮酸合成酶A(PpsA),该酶催化丙酮酸合成磷酸烯醇式丙酮酸;tktA基因编码转酮酶A,该酶在磷酸戊糖途径中生成4-磷酸赤藓糖起主要作用。采用PCR方法从大肠杆菌K-12株中扩增到ppsA和tktA,并实现了两基因的高效表达,其中ppsA活性提高了10.8倍,tktA活性提高了3.9倍,当这两个基因串联在一个质粒上导入大肠杆菌进行表达时,PpsA的活性变化较大(2.1~9.1倍),TktA的活性相对稳定(3.9~4.5倍),且这两个基因单独表达和串联表达都能使芳香族氨基酸生物合成共同途径中关键中间产物DAHP的产量提高,且串联表达比单独表达较高。  相似文献   

10.
外源基因pheA、aroG和tyrB在苯丙氨酸合成途径中的共表达   总被引:5,自引:0,他引:5  
利用基因工程技术提高了短杆菌的苯丙氨酸合成途径中关键酶活性,大幅度地增加了生物合成苯丙氨酸的产时。首先采用聚合酶链反应(PCR)从大肠杆菌的氟代苯丙氨酸抗性变异菌株基因组中扩增到与苯丙氨酸合成相关的aroG,pheA和tyrB3个基因。aroG编码3-脱氧-2-阿拉伯庚酮糖-7-磷酸合成酶(DS),pheA编码双功能酶蛋白-分枝酸变位酶(CM)和预苯酸脱水酶(PD),tyrB编码转氨酶(AT)。设  相似文献   

11.
Construction of the shuttle cloning vectors for Escherichia coli-Brevibacterium flavum system is described. Expression of the Sp/Sm resistance determinant derived from the Corynebacterium plasmid pCG4 was registered in Escherichia coli cells. The genetic determinant for Sp/Sm resistance was shown to be located in a 2.2 kb PstI-SphI fragment by the deletion analysis mapping in Escherichia coli cells. Using Escherichia coli as a host we cloned the unique 0.8 kb EcoRI-EcoRI fragment of Brevibacterium flavum bacteriophage phi BSh6 in the plasmids with dual replication origins. Blocking of the shuttle vector transfer to Brevibacterium flavum by the insertion of bacteriophage phi BSh6 DNA was observed. The deletion of entire phage fragment or a specific part of it made it possible introduction of plasmids harboured by Escherichia coli cells into Brevibacterium flavum. A potential vector for homologous DNA cloning in Brevibacterium flavum was constructed.  相似文献   

12.
Using overlap extension polymerase chain reaction (PCR), five transformants of Escherichia coli containing site-directed mutagenized lys Cβ gene were generated and analysed. Exchange of C to A and C to T at nucleotide 1118 of the mutated lys Cβ gene causes a substitution of serine301 in the wild-type enzyme for tyrosine301 and phenylalanine301 in the mutant enzymes, respectively. Enzyme assays showed that Brevibacterium flavum cells harbouring pSUMN18 with mutated lys Cβ genes exhibited 16–20 fold lower specific activities of aspartokinase as compared to that of host containing wild-type lys C gene. The mutation introduced into lys Cβ of B. flavum CCRC18271 resulted in partial feedback-resistant aspartokinase activity.  相似文献   

13.
14.
A library of EcoRI DNA fragments from Brevibacterium flavum was constructed using plasmid vector. The genes complementing ThrA2 and ThrB mutations in Escherichia coli were identified in the library. The gene thrA2 of B. flavum codes for mutant enzyme homoserine dehydrogenase insensitive to inhibition by threonine. The genes thrA2 and thrB are localized wihtin the EcoRI fragment 4.1 kb long and are expressed under the control of their own promoters in E. coli cells. Structural and functional analysis of cloned C. glutamicum gene ilvA was performed. The gene of C. glutamicum complemented ilvA mutation in E. coli and appeared to be localized within the EcoRI--SacI DNA fragment 1.6 kb in size. Using E. coli minicells we have demonstrated that the gene ilvA of C. glutamicum controls the synthesis of polypeptide of relative molecular mass 50 kD.  相似文献   

15.
The ability of five bacterial strains, i.e., Brevibacterium ammoniagenes ATCC 6872, Brevibacterium flavum ATCC 14067, Brevibacterium 22, Corynebacterium ATCC 21084, Micrococcus glutamicus ATCC 13032, to utilize exogenous precursors (nicotinamide and adenine or ATP) was investigated during NAD synthesis under fermentation conditions and during incubation of acetone-dried cells. It was found that dry cells of Brevibacterium three strains were most active. However, under fermentation conditions Br. flavum ATCC 14067 and Brevibacterium 22 accumulated NAD in the amounts 3J4 times lower than the well-known producer Br. ammoniagenes ATCC 6872. One of the possible factors responsible for the low yield of NAD by Brevibacterium 22 under fermentation conditions can be the reduced ribose synthesis.  相似文献   

16.
Novel cloning vectors for glutamic acid producing bacteria have been constructed. The cryptic plasmid pBO1 (4.4 kb) from Brevibacterium sp. recombined with the plasmid pACYC184 (4.0 kb) from Escherichia coli was used to produce composite plasmid named pKA1. The plasmid could propagate and express the Cm-r phenotype in E. coli and coryneform glutamic acid producing bacteria Br. flavum, C. glutamicum, Br. lactofermentum. The pKA1 plasmid and its variants deleted within non-essential plasmid regions with unique restriction sites HindIII, SalGI, SphI were used in cloning experiments. The genes coding for threonine biosynthesis of C. glutamicum and Br. flavum were subcloned into shuttle vectors in C. glutamicum cells. Recombinant plasmids were introduced into protoplasts by polyethylenglycol-mediated transformation of plasmid DNAs. It was shown that the presence of plasmids containing the Br. flavum thrA2 gene in C. glutamicum (thrB) caused 10-fold increase in homoserine dehydrogenase activity, as compared to that of wild type strain, and in homoserine production.  相似文献   

17.
Abstract A promoter probe shuttle vector suitable for the isolation of promoter elements from coryneform bacteria was constructed. This vector carried the neomycin phosphotransferase (NPTII) gene from transposon Tn 5 as a reporter gene, and was capable of replication in both Escherichia coli and Brevibacterium flavum . The vector was used in the construction of a B. flavum library of 899 independently isolated promoter clones. Promoters with a wide range of activities in B. flavum , including some very strong promoter elements, were isolated. Comparative analysis suggests that significant differences between B. flavum and E. coli may exist in the determinants of promoter strength.  相似文献   

18.
刘辉  陈宁  温廷益 《微生物学报》2007,47(2):249-253
应用途径分析方法分析了在拟稳态时黄色短杆菌(Brevibacterium flavum)TK0303由葡萄糖发酵生产L-亮氨酸的代谢途径,确定了L-亮氨酸合成的最佳途径和最大理论产率。通过比较途径分析所获得的反应模型,确定了丙酮酸和乙酰辅酶A是L-亮氨酸合成途径的关键节点。在此基础上改变外界环境因子,强化L-亮氨酸生物合成途径中丙酮酸和乙酰辅酶A两个关键节点的代谢流,以期进一步提高L-亮氨酸产率。结果表明,经过谷氨酸以及醋酸铵的调节,代谢途径流量发生显著变化,L-亮氨酸产量有明显提高。  相似文献   

19.
Different strains of Corynebacterium glutamicum, Brevibacterium flavum, and Brevibacterium lactofermentum were analysed for restriction fragment length polymorphism using the homoserine dehydrogenase gene (hom) as a probe. The hybridization patterns obtained PvuII- or Asp700-restriction of chromosomal DNA were specific and distinguishable for each of the three species and identical for the different strains of each species. Thus, the method employed allows rapid distinction of Corynebacterium glutamicum, Brevibacterium flavum, and Brevibacterium lactofermentum. The former species could also be discriminated from the latter two by its resistance to 0.5 g/l of the methionine analog ethionine.  相似文献   

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