Effects of a feedback-resistant aspartokinase III gene on L-isoleucine production in Escherichia coli K-12

An L-isoleucine-overproducing recombinant strain of E. coli, TVD5, was also found to overproduce L-valine. The L-isoleucine productivity of TVD5 was markedly decreased by addition of L-lysine to the medium. Introduction of a gene encoding feedback-resistant aspartokinase III increased L-isoleucine productivity and decreased L-valine by-production. The resulting strain accumulated 12 g/l L-isoleucine from 40 g/l glucose, and suppression of L-isoleucine productivity by L-lysine was relieved.     

Effect of transport proteins on l-isoleucine production with the l-isoleucine-producing strain Corynebacterium glutamicum YILW

Previous studies have shown that the deletion of brnQ from the Corynebacterium glutamicum chromosome results in a significant reduction in L-isoleucine uptake rates, while overexpression of brnFE leads to enhanced L-isoleucine export rates. Given that net excretion rates would be an important factor for high titers of L-isoleucine accumulation, we have tested the notion that decreased L-isoleucine uptake combined with increased L-isoleucine excretion will further improve high-yield strains that are currently used for the industrial-scale production of L-isoleucine. To examine the effect of the two carriers on L-isoleucine accumulation in L-isoleucine producer C. glutamicum YILW, we constructed a brnQ deletion mutant (C. glutamicum YILW?brnQ) and two brnFE overexpressors (C. glutamicum YILWpXMJ19brnFE and C. glutamicum YILW?brnQpXMJ19brnFE). Compared to the original strain, the efflux rate of the brnQ mutant increased from 19.0 to 23.6?nmol?min(-1) mg (dry wt)(-1) and its L-isoleucine titer increased from 154.3?mM (20.2?g?l(-1)) to 170.3?mM (22.3?g?l(-1)). The efflux rates of C. glutamicum YILWpXMJ19brnFE and C. glutamicum YILW?brnQpXMJ19brnFE were 33.5 and 39.1?nmol?min(-1) mg (dry wt)(-1), and their L-isoleucine production titers were 197.2?mM (25.9?g?l(-1)) and 221.0?mM (29.0?g?l(-1)), respectively. Our results suggest that modifications of the transport system could provide a promising avenue for further increasing L-isoleucine yield in the L-isoleucine producer.     

双组份转运系统BrnFE的过表达和表面活性剂的添加对谷氨酸棒杆菌发酵生产L-异亮氨酸的影响

为了提高L-异亮氨酸生产菌株Corynebacterium glutamicum LD320的产酸水平,通过改善其分泌系统,在C. glutamicum LD320中分别过表达突变型和野生型的双组份转运系统BrnFE操纵子,构建了重组菌LD320/pXMJ19-brnFE和LD320/pXMJ19-brnFE1。通过对两株重组菌的L-异亮氨酸生产分析比较,发现突变型比野生型能更有效地提高 L-异亮氨酸产量。同时对 LD320/pXMJ19-brnFE1进行表面活性剂添加实验,发现Tween-80为最佳选择,其最佳添加量为0.5 g/L,最佳添加时间为对数期的16 h。最后通过7 L发酵罐放大实验,LD320/pXMJ19-brnFE1的L-异亮氨酸产量由18.53 g/L提高到25.45 g/L,比对照组提高了37%。     

Screening of pyruvate-producing yeast and effect of nutritional conditions on pyruvate production

AIMS: To find a yeast strain that can overproduce pyruvate and to investigate the effect of nutrients on pyruvate production. METHODS AND RESULTS: Trichosporon cutaneum PD70, a yeast strain that can overproduce pyruvate, was isolated from shake-flask cultures of 132 yeast strains. Pyruvate was measured by the HPLC or DNP method (see Materials and methods). Pyruvate production reached approximately 30.0 +/- 1.0 g l(-1) in basal fermentation medium. Different nutrient supplements had great effects on pyruvate production. Some of the conditions that gave the highest yield are described. CONCLUSIONS: Exogenous thiamine supplement caused a decrease in pyruvate yield. Some amino acids, such as L-arginine, L-isoleucine and L-valine, caused a minor increase in pyruvate yield. Soybean peptone was the most suitable nitrogen source for pyruvate production. A glucose concentration of 15% in fermentation medium gave the highest yield (34.6 g l(-1)) and the highest yield against consumed glucose (0.429 g g(-1)). SIGNIFICANCE AND IMPACT OF THE STUDY: Nutrients have significant impacts on pyruvate production. As a pyruvate overproducing yeast strain independent of exogenous vitamins or amino acids, T. cutaneum PD70 provides an advantage for commercial pyruvate production.     

Fermentation performance and intracellular metabolite patterns in laboratory and industrial xylose-fermenting Saccharomyces cerevisiae

Heterologous genes for xylose utilization were introduced into an industrial Saccharomyces cerevisiae, strain A, with the aim of producing fuel ethanol from lignocellulosic feedstocks. Two transformants, A4 and A6, were evaluated by comparing the performance in 4-l anaerobic batch cultivations to both the parent strain and a laboratory xylose-utilizing strain: S. cerevisiae TMB 3001. During growth in a minimal medium containing a mixture of glucose and xylose (50 g/l each), glucose was preferentially consumed. During the first growth phase on glucose, the specific growth rates were 0.26, 0.32, 0.27 and 0.30 h^–1 for strains TMB 3001, A (parental strain), A4, and A6, respectively. The specific ethanol productivities were 0.04, 0.13, 0.04 and 0.03 g/g^.per hour, for TMB 3001, A, A4 and A6, respectively. The specific xylose consumption rates were 0.06, 0.21 and 0.14 g/g^.per hour, respectively for strains TMB 3001, A4 and A6. Xylose consumption resulted mainly in the formation of xylitol, with biomass and ethanol being minor products. The metabolite profile of intermediates in the pentose phosphate pathway and key glycolytic intermediates were determined during growth on glucose and xylose, respectively. The metabolite pattern differed depending on whether glucose or xylose was utilized. The levels of intracellular metabolites were higher in the industrial strains than in the laboratory strain during growth on xylose. Electronic Publication     

常温常压等离子体诱变选育高产L-异亮氨酸大肠杆菌

旨在选育L-异亮氨酸高产大肠杆菌.以大肠杆菌K12(Met-)为出发菌株,经常温常压等离子体(ARTP)诱变,通过微生物高通量液滴培养系统(MMC)筛选,以α-氨基丁酸(α-AB)抗性为筛选标记,得到一株高产L-异亮氨酸的突变菌株大肠杆菌NXU12,并对其遗传稳定性进行了研究.结果表明,出发菌株大肠杆菌K12(Met-...     

基于途径分析的L-异亮氨酸发酵溶氧控制研究

利用途径分析方法对黄色短杆菌（Brevibacterium flavum）TC-21 生产L-异亮氨酸的途径进行了分析,确定了黄色短杆菌TC-21生产L-异亮氨酸的最佳途径的通量分布,根据途径分析的结果,TCA循环的代谢流量对L-异亮氨酸产量有明显影响,而TCA循环与发酵过程中的溶氧密切相关,因此可以通过控制溶氧来提高L-异亮氨酸产量。在发酵过程的不同阶段,根据菌体生长和产酸的需求,改变TCA代谢流量,可以有效提高产酸率。实验证明,通过溶氧分阶段控制发酵生产L-异亮氨酸,比溶氧恒定控制方式发酵产率提高了15.77％。实验结果说明,用途径分析的结果指导发酵过程中的溶氧可以大幅度提高L-异亮氨酸的产量。     

肌苷产生菌B.Subtilis H841在2升罐中的发酵

枯草芽孢杆菌(Bacillus Subtilis)H841肌苷产生菌是腺嘌呤、组氨酸、硫胺素三重缺陷型菌株,并对8—氮杂乌嘌呤、6—巯基嘌呤有抗性。在摇瓶中产肌胺18.1克/升,在2L自控发酵罐中最高可产肌苷19.6克/升,在流加葡萄糖情况下可产肌苷26.2克/升。控制pH较不控制pH发酵肌苷产量有较大的增加,控制pH发酵并补加营养时,肌苷产量可稳定地增长,但对葡萄糖的转化率是相同的。     

The adsorption of Pseudomonas aeruginosa bacteriophage φKMV is dependent on expression regulation of type IV pili genes

Pseudomonas aeruginosa bacteriophage φKMV requires type IV pili for infection, as observed from the phenotypic characterization and phage adsorption assays on a phage infection-resistant host strain mutant. A cosmid clone library of the host ( P. aeruginosa PAO1) genomic DNA was generated and used to select for a clone that was able to restore φKMV infection in the resistant mutant. This complementing cosmid also re-established type IV pili-dependent twitching motility. The correlation between bacteriophage φKMV infectivity and type IV pili, along with its associated twitching motility, was confirmed by the resistance of a P. aeruginosa PAO1Δ pilA mutant to the phage. Subcloning of the complementing cosmid and further phage infection analysis and motility assays suggests that a common regulatory mechanism and/or interaction between the ponA and pilMNOPQ gene products are essential for bacteriophage φKMV infectivity.     

Effects of xapA and guaA disruption on inosine accumulation in Escherichia coli

A xapA-disrupted mutant was studied to minimize hypoxanthine production and to improve inosine productivity in mutants of Escherichia coli. The xapA-disrupted mutant accumulated 5.6 g/l of inosine from 40 g/l of glucose, while the parent strain accumulated 4.6 g/l. This result indicates that xapA is activated in xapA-positive inosine-producers and that xapA disruption might be useful for improving inosine productivity.     

Production of essential L-branched-chain amino acids in bioreactors containing artificial cells immobilized multienzyme systems and dextran-NAD+

We prepared artificial cells each containing leucine dehydrogenase (EC 1.4.1.9), urease (EC 3.5.1.5), soluble dextran-NAD(+), and one of the following coenzyme regenerating dehydrogenases: glucose dehydrogenase (EC 1.1.1.47); yeast alcohol dehydrogenase (EC 1.1.1.1); malate dehydrogenase (EC 1.1.1.37); or lactate dehydrogenase (EC 1.1.1.27). Artificial cells were packed in small columns. L-Leucine, L-valine, and L-isoleucine were continuously produced with simultaneous dextran-NADH regeneration. The maximum production ratios depended on the coenzyme regenerating systems used: 83-93% for D-glucose and glucose dehydrogenase system; 90% for ethanol and yeast alcohol dehydrogenase system; 45-55% for L-malate and malate dehydrogenase system; and 64-78% for L-lactate and lactate dehydrogenase system. Kinetic experiments were also carried out. The apparent K(m) values are as follows: 0.33 mM for alpha-ketoisocaproate (KIC); 0.51 mM for alpha-ketoisovalerate (KIV); 0.58 mM for DL-alpha-keto-beta-methyl-n-valerate (KMV); 3.52 mM for urea; 27.82 mM for D-glucose; 3.89 mM for ethanol; 3.02 mM for L-malate; and 16.67 mM for L-lactate. Kinetic analysis showed that KIC, KIV, and KMV were all competitive inhibitors in the reactions catalyzed by leucine dehydrogenase. Their inhibitor constants were the corresponding K(m) values.     

Enhancing the carbon flux and NADPH supply to increase L-isoleucine production in Corynebacterium glutamicum

Our previous work has shown that L-isoleucine production in Corynebacterium glutamicum IWJ001 could be increased by overexpressing ilvA1 encoding a feedback-resistant threonine dehydratase, ilvBN1 encoding a feedback-resistant acetohydroxy acid synthase, lrp encoding the global regulator Lrp, brnFE encoding the two-component export system BrnFE, or ppnk1 encoding NAD kinase. The main purpose of this study is to further increase the L-isoleucine production in C. glutamicum IWJ001 by overexpressing the above genes in various combinations. Several C. glutamicum strains IWJ001/pDXW-8-ppnk1-lrp-brnFE, IWJ001/pDXW-8-ilvBN1-ilvA1-lrp-brnFE, IWJ001/pDXW-8-ilvBN1-ilvA1-ppnk1, and IWJ001/pDXW-8-ppnk1-ilvBN1-ilvA1-lrp-brnFE were constructed, and L-isoleucine production and activities of several key enzymes in these strains were analyzed. Compared with the control strain IWJ001/pDXW-8, L-isoleucine production increased in all of the four strains. IWJ001/pDXW-8-ilvBN1-ilvA1-ppnk1 showed the highest L-isoleucine production and produced 32.3 g/L L-isoleucine in 72 h fed batch fermentation. The results indicate that L-isoleucine production in C. glutamicum could be increased by enhancing the carbon flux and NADPH supply in the biosynthetic pathway.     

D-Pantothenate synthesis in Corynebacterium glutamicum and use of panBC and genes encoding L-valine synthesis for D-pantothenate overproduction

D-Pantothenate is synthesized via four enzymes from ketoisovalerate, which is an intermediate of branched-chain amino acid synthesis. We quantified three of these enzyme activities in Corynebacterium glutamicum and determined specific activities ranging from 0.00014 to 0.001 micromol/min mg (protein)-1. The genes encoding the ketopantoatehydroxymethyl transferase and the pantothenate synthetase were cloned, sequenced, and functionally characterized. These studies suggest that panBC constitutes an operon. By using panC, an assay system was developed to quantify D-pantothenate. The wild type of C. glutamicum was found to accumulate 9 micrograms of this vitamin per liter. A strain was constructed (i) to abolish L-isoleucine synthesis, (ii) to result in increased ketoisovalerate formation, and (iii) to enable its further conversion to D-pantothenate. The best resulting strain has ilvA deleted from its chromosome and has two plasmids to overexpress genes of ketoisovalerate (ilvBNCD) and D-pantothenate (panBC) synthesis. With this strain a D-pantothenate accumulation of up to 1 g/liter is achieved, which is a 10(5)-fold increase in concentration compared to that of the original wild-type strain. From the series of strains analyzed it follows that an increased ketoisovalerate availability is mandatory to direct the metabolite flux into the D-pantothenate-specific part of the pathway and that the availability of beta-alanine is essential for D-pantothenate formation.     

Microbial production of cis,cis-muconic acid from benzoic acid

Summary The authors isolated numerous microorganisms with the capacity to assimilate large amounts of benzoate from many soil samples. Several of them were selected and subjected to mutation mainly by ultraviolet irradiation. One mutant lacking active muconate-lactonizing enzyme, the parent strain of which was identified as belonging to the genus Arthrobacter, was isolated and found to be capable of producing cis, cis-muconic acid with a quantitative yield of 44.1 g/l over 48 h in a 30 1 jar fermentor by successive feeding of small amounts of benzoate. This mutant, however, was more sensitive to high concentrations of the substrate than the parent strain. As few intermediates and isomers other than cis, cis-muconic acid were accumulated in the large fermentor, a large amount of pure cis, cis-muconic acid was easily obtained from the broth by salting out and recrystallization at a high recovery rate.     

Effects of edd and pgi disruptions on inosine accumulation in Escherichia coli

Using an inosine-producing mutant of Escherichia coli, the contributions of the central carbon metabolism for overproducing inosine were investigated. Sodium gluconate instead of glucose was tested as a carbon source to increase the supply of ribose-5-phosphate through the oxidative pentose phosphate pathway. The edd (6-phosphogluconate dehydrase gene)-disrupted mutant accumulated 2.5 g/l of inosine from 48 g/l of sodium gluconate, compared with 1.4 g/l of inosine in the edd wild strain. The rpe (ribulose phosphate 3-epimerase gene)-disrupted mutant resulted in low cell growth and low inosine production on glucose and on gluconate. The disruption of pgi (glucose-6-phosphate isomerase gene) was effective for increasing the accumulation of inosine from glucose but resulted in low cell growth. The pgi-disrupted mutant accumulated 3.7 g/l of inosine from 40 g/l of glucose when 8 g/l of yeast extract was added to the medium. Furthermore, to improve effective utilization of adenine, the yicP (adenine deaminase gene)-disrupted mutant was evaluated. It showed higher inosine accumulation, of 3.7 g/l, than that of 2.8 g/l in the yicP wild strain when 4 g/l of yeast extract was added to the medium.     

Isolation and prominent characteristics of an L-lysine hyperproducing strain of Corynebacterium glutamicum

Summary A strain of Corynebacterium glutamicum was isolated that accumulated up to 44 g/l of L-lysine-HCl from 100 g/l of glucose × H₂O in a simple mineral salts medium. This strain was obtained from the wildtype by two mutagenesis steps. In the first step the aminoethyl-cysteine-resistant strain MH20 was obtained and in the second step the Leu ^— derivative MH20-22B. Enzymatic analysis of the hyperproducer MH20-22B revealed that this strain has feedback-resistant aspartate kinase and is devoid of isopropylmalate dehydratase. In addition, this strain has an extraordinarily high secretion rate of lysine (0.57 mmol/g dry weight and h), whereas strain MH20 has a low secretion rate (0.19 mmol/g per hour), and both strains have comparable cytosolic lysine concentrations. This suggests that the secretory step is influenced n the hyperproducer. Applying gene-directed mutagenesis, the aspartate kinase gene of the isolated strain (coding for feedback-resistant enzyme) was replaced by the gene coding of feedback-sensitive wild-type enzyme. The resulting strain still secretes lysine, although in low amounts (2 g/l). This is proof of the superior role of kinase regulation in metabolite flow and is indicative of unknown mutations, one of which is probably in the secretory system. Correspondence to: L. Eggeling     

Production of high-content fructo-oligosaccharides by an enzymatic system from Penicillium rugulosum

Summary The production of high-content fructo-oligosaccharides from sucrose by a crude FTF from a new strain of Penicillium isolated in our Laboratory was investigated. The optimum conditions for the production of the enzyme and for the enzymic reaction have been determined. It has been demonstrated that the crude enzyme acts as a mixed enzyme system of fructosyl transferase (FTF; Class 2 of Enzyme Nomenclature) and glycosidases (Class 3 of Enyme Nomenclature). Under optimum conditions: pH 5.5, temperature 55°C, sucrose concentration 750 g/l, enzyme concentration 5 FTF units/g sucrose, conversion yield up to 80% were obtained and high concentration of nystose (412 g/l) and fructofuranosyl-nystose (176 g/l) were accumulated.     

alpha-keto-beta-methyl-n-valeric acid diminishes reactive oxygen species and alters endoplasmic reticulum Ca(2+) stores

Mitochondrial dysfunction and oxidative stress occur in neurodegenerative diseases. Other results show that bombesin-releasable calcium stores (BRCS) from the endoplasmic reticulum (ER) are exaggerated in fibroblasts from patients with Alzheimer's disease (AD) compared with controls and in fibroblasts from a young control treated with H(2)O(2). We hypothesize that alterations in oxidative stress underlie the exaggeration in BRCS in AD, and that appropriate antioxidants may be useful in treating this abnormality. Two indicators of different oxidant species were used to determine the effects of select oxidants on cellular oxidation status: carboxydichlorofluorescein (c-DCF) to detect reactive oxygen species (ROS), and 4-amino-5-methylamino-2',7'-difluorofluorescein (DAF) to detect nitric oxide (NO(.-)). Various conditions that induce ROS, including H(2)O(2), oxygen/glucose deprivation, and 3-morpholinosyndnonimine (SIN-1), were used to test the ability of alpha-keto-ss-methyl-n-valeric acid (KMV) to scavenge ROS. KMV diminished c-DCF-detectable ROS that were induced by H(2)O(2), oxygen/glucose deprivation, or SIN-1 in PC12 cells, primary neuronal cultures, or fibroblasts. Furthermore, KMV reduced the H(2)O(2)-induced increase in BRCS and diminished the elevation in BRCS in cells from AD patients to control levels. On the other hand, DAF-detectable NO(.-) induced by SIN-1 was not scavenged by KMV and did not exaggerate BRCS. The results indicate that KMV is an effective antioxidant of c-DCF-detectable ROS. The effects of KMV are not cell type specific, but are ROS specific. The same H(2)O(2)-induced ROS that reacts with KMV may also underlie the changes in BRCS related to AD. Thus, KMV ameliorates the effects of ROS on calcium homeostasis related to oxidative stress and to AD.     

Production of ethanol from straw and bamboo pulp by primary isolates of Clostridium thermocellum

Clostridium thermocellum strains SS8 and GS1 grew poorly on crude blopolymers but termented them easily after alkall treatment. With 1% alkall-extracted rice straw (AERS) and dellgnified bamboo pulp (DBP), the ethanol-to-substrate (E/S) ratios were almost the same as those obtained when using fillter paper. Increasing the substrate concentrations decreased the percentage substrate degraded and the E/S ratio and concomitantly increased the amount of reducing sugars accumulated. A maximum amount of 8.6 g ethanol/l was produced by strain SS8 out of 37.5 g DBP degraded. Strain GS1 accumulated reducing sugars at substrate concentrations >50 g/l, thereby accounting for about 70% of AERS degraded. This strain produced cellulase on both cellulose and cellobiose. Both the strains grew in the presence of 1.5% (v/v) ethanol. Strain SS8 fermented starch, but the ethanol yield was low compared to that from cellulose. About 75% of starch degraded accumulated as reducing sugars at a substrate concentration of 40 g/l. The Inhibitory effects of ethanol (2 to 4%) were less drastic when growing cultures were challenged than when they were formed in situ. The effect of ethanol depended upon the phase of the culture.The authors are with the Department of Microbiology, Osmania University, Hyderabad-500007, India.     

Isolation of Ashbya gossypii mutant for an improved riboflavin production targeting for biorefinery technology

AIMS: To isolate a strain overproducing riboflavin and to improve riboflavin production for practical use in a biorefinery technology. METHODS AND RESULTS: Ashbya gossypii spores were mutagenized by exposure to UV light and mutant ZP4 strain, producing riboflavin threefold the riboflavin that of the wild-type strain, was isolated by the first and second screenings. Proteomic analysis of ZP4 strain showed the expression patterns of eight types of genes related to riboflavin biosynthesis different from those of the wild-type strain and those enzyme activities were investigated. When activated bleaching earth (ABE) containing 75 g l(-1) rapeseed oil was added in the culture of the ZP4 strain with oxygen-enriched air supplied, riboflavin concentration increased to 8.7 g l(-1) at 5 days of culture. Riboflavin production yield was 0.17 g g(-1) of consumed oil, which was eightfold higher than that of the wild-type strain. CONCLUSIONS: The results show that the mutant ZP4 strain shows potential for improving riboflavin production for practical utilization using vegetable oil as the sole carbon source. SIGNIFICANCE AND IMPACT OF STUDY: Our results indicate that the mutant ZP4 strain shows potential for producing riboflavin from vegetable oil, and therefore will be contributed to biorefinery technology.