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To cope with medium acidity, Lactococcus lactis has evolved a number of inducible mechanisms commonly referred as acid stress response. To better understand the molecular basis of this response, several mutants constitutively tolerant to acidity were previously obtained by insertional random mutagenesis of L. lactis MG1363. Mutants in which the GMP synthase gene (i.e. guaA), the (p)ppGpp synthase gene (i.e. relA*) or the high affinity phosphate transport system (i.e. pstS) are inactivated are further characterized in this study. 2-DE was performed and showed that 42, 26, and 35 protein spots are positively deregulated in the guaA, relA*, and pstS mutants, respectively, as compared to the wild-type strain. Most of these proteins were identified by MS. Proteomes comparison of the mutants guaA, relA*, and pstS as well as the acid adaptation proteome of the wild-type strain revealed (i) the presence of numerous overlaps and (ii) that only five proteins were overexpressed in the four conditions, suggesting that these proteins play a crucial role in the constitutive acid stress tolerance of the mutants and in the acid tolerance response of the wild-type strain.  相似文献   

3.
Oxidative stress in Lactococcus lactis   总被引:1,自引:0,他引:1  
Lactococcus lactis, the most extensively characterized lactic acid bacterium, is a mesophilic- and microaerophilic-fermenting microorganism widely used for the production of fermented food products. During industrial processes, L. lactis is often exposed to multiple environmental stresses (low and high temperature, low pH, high osmotic pressure, nutrient starvation and oxidation) that can cause loss or reduction of bacterial viability, reproducibility, as well as organoleptic and/or fermentative qualities. Among these stress factors, oxidation can be considered one of the most deleterious to the cell, causing cellular damage at both molecular and metabolic levels. During the last two decades, considerable efforts have been made to improve our knowledge of oxidative stress in L. lactis. Many genes involved with both oxidative stress resistance and control mechanisms have been identified; functionally they seem to overlap. The finding of new genes, and a better understanding of the molecular mechanisms of stress resistance in L. lactis and other lactic acid bacterium, will lead to the construction and isolation of stress-resistant strains. Such strains could be exploited for both traditional and probiotic uses.  相似文献   

4.
Aims:  Citrate metabolism generates metabolic energy through the generation of a membrane potential and a pH gradient. The purpose of this work was to study the influence of oxaloacetate decarboxylase in citrate metabolism and intracellular pH maintenance in relation to acidic conditions.
Methods and Results:  A Lactococcus lactis oxaloacetate decarboxylase mutant [ILCitM (pFL3)] was constructed by double homologous recombination. During culture with citrate, and whatever the initial pH, the growth rate of the mutant was lower. In addition, the production of diacetyl and acetoin was altered in the mutant strain. However, our results indicated no relationship with a change in the maintenance of intracellular pH. Experiments performed on resting cells clearly showed that oxaloacetate accumulated temporarily in the supernatant of the mutant. This accumulation could be involved in the perturbations observed during citrate metabolism, as the addition of oxaloacetate in M17 medium inhibited the growth of L. lactis .
Conclusions:  The mutation of oxaloacetate decarboxylase perturbed citrate metabolism and reduced the benefits of its utilization during growth under acidic conditions.
Significance and impact of the study:  This study allows a better understanding of citrate metabolism and the role of oxaloacetate decarboxylase in the tolerance of lactic acid bacteria to acidic conditions.  相似文献   

5.
Glutathione protects Lactococcus lactis against oxidative stress   总被引:2,自引:0,他引:2  
Glutathione was found in several dairy Lactococcus lactis strains grown in M17 medium. None of these strains was able to synthesize glutathione. In chemically defined medium, L. lactis subsp. cremoris strain SK11 was able to accumulate up to approximately 60 mM glutathione when this compound was added to the medium. Stationary-phase cells of strain SK11 grown in chemically defined medium supplemented with glutathione showed significantly increased resistance (up to fivefold increased resistance) to treatment with H2O2 compared to the resistance of cells without intracellular glutathione. The resistance to H2O2 treatment was found to be dependent on the accumulation of glutathione in 16 strains of L. lactis tested. We propose that by taking up glutathione, L. lactis might activate a glutathione-glutathione peroxidase-glutathione reductase system in stationary-phase cells, which catalyzes the reduction of H2O2. Glutathione reductase, which reduces oxidized glutathione, was detectable in most strains of L. lactis, but the activities of different strains were very variable. In general, the glutathione reductase activities of L. lactis subsp. lactis are higher than those of L. lactis subsp. cremoris, and the activities were much higher when strains were grown aerobically. In addition, glutathione peroxidase is detectable in strain SK11, and the level was fivefold greater when the organism was grown aerobically than when the organism was grown anaerobically. Therefore, the presence of glutathione in L. lactis could result in greater stability under storage conditions and quicker growth upon inoculation, two important attributes of successful starter cultures.  相似文献   

6.
Previously we showed that glutathione (GSH) can protect Lactococcus lactis against oxidative stress (Y. Li et al., Appl. Environ. Microbiol. 69:5739-5745, 2003). In the present study, we show that the GSH imported by L. lactis subsp. cremoris SK11 or produced by engineered L. lactis subsp. cremoris NZ9000 can protect both strains against a long-term mild acid challenge (pH 4.0) and a short-term severe acid challenge (pH 2.5). This shows for the first time that GSH can protect a gram-positive bacterium against acid stress. During acid challenge, strain SK11 containing imported GSH and strain NZ9000 containing self-produced GSH exhibited significantly higher intracellular pHs than the control. Furthermore, strain SK11 containing imported GSH had a significantly higher activity of glyceraldehyde-3-phosphate dehydrogenase than the control. These results suggest that the acid stress resistance of starter culture can be improved by selecting L. lactis strains capable of producing or importing GSH.  相似文献   

7.
张彦位  张娟  堵国成  陈坚 《微生物学通报》2018,45(12):2563-2575
【背景】乳酸菌作为重要的发酵微生物在应用过程中面临广泛存在的酸胁迫。【目的】确认天冬氨酸可有效提高乳酸乳球菌的酸胁迫抗性,通过解析天冬氨酸的作用机制,为进一步提高乳酸菌酸胁迫抗性提供可借鉴的思路。【方法】通过荧光定量PCR比较胁迫条件下天冬氨酸对L.lactisNZ9000产能和氨基酸代谢途径中关键基因转录水平的影响,并通过过量表达天冬酰胺酶增加胞内天冬氨酸的含量。【结果】天冬氨酸主要是在转氨酶的作用下生成草酰乙酸和谷氨酸。草酰乙酸参与三羧酸循环,为细胞提供更多的能量;谷氨酸经谷氨酸脱羧酶途径提高细胞的酸胁迫抗性。经pH4.0胁迫处理后,天冬氨酸使糖酵解和三羧酸循环产能途径中关键基因转录上调,胞内ATP含量为对照组的42倍;胞内谷氨酸含量为对照的1.99倍。通过过量表达天冬酰胺酶获得的重组菌株,在pH3.6条件下胁迫0.5h后,存活率约为对照组的11.11倍。【结论】在L. lactis NZ9000中探究了天冬氨酸提高酸胁迫抗性的作用机理,进一步完善了氨基酸代谢提高乳酸菌酸胁迫抗性的理论基础。  相似文献   

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Lactococcus lactis, a homofermentative lactic acid bacterium, has been studied extensively over several decades to obtain sometimes conflicting concepts relating to the growth behaviour. In this review some of the data will be examined with respect to pyruvate metabolism. It will be demonstrated that the metabolic transformation of pyruvate can be predicted if the growth-limiting constraints are adequately established. In general lactate remains the major product under conditions in which sugar metabolism via a homolactic fermentation can satisfy the energy requirements necessary to assimilate anabolic substrates from the medium. In contrast, alternative pathways are involved when this energy supply becomes limiting or when the normal pathways can no longer maintain balanced carbon flux. Pyruvate occupies an important position within the metabolic network of L. lactis and the control of pyruvate distribution within the various pathways is subject to co-ordinated regulation by both gene expression mechanisms and allosteric modulation of enzyme activity.  相似文献   

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11.
为研究谷胱甘肽(GSH)在乳酸乳球菌NZ9000抗氧胁迫中的生理作用,以能够生物合成GSH的重组菌NZ9000(pNZ3203)为实验菌株进行了研究。结果表明,在较高H2O2胁迫剂量(150mmol/L H2O2,15min)下,前培养3h、5h和7h(即乳酸链球菌素诱导1h、3h和5h)时的重组菌细胞的存活率分别是处于相应生长时期对照菌NZ9000(pNZ8148)的1.8±0.1倍、2.6±0.1倍和2.9±0.3倍。表明GSH可以提高宿主菌NZ9000对H2O2所引发氧胁迫的抗性。GSH还可以提高宿主菌NZ9000对其它化学物质(如超氧阴离子自由基生成剂———甲萘醌)所引发氧胁迫的抗性。这表现在经20mmol/L甲萘醌处理60min后,前培养5h(即乳酸链球菌素诱导3h)时重组菌细胞的存活率是对照菌的6.2±0.1倍。由此表明,通过代谢工程手段在菌株NZ9000中引入GSH合成能力,可以提高宿主菌对氧胁迫的抗性。  相似文献   

12.
刘怀龙  孟祥晨 《微生物学报》2008,48(11):1459-1465
[目的]筛选具有较强酸适应能力的菌株,研究酸适应对其膜脂肪酸组成和膜蛋白表达的影响.[方法]从20株菌中筛选出一株具有较强酸适应能力的乳酸乳球菌KLDS4.0312,以GC-MS法测定该菌酸适应前后膜脂肪酸组成变化;对酸适应前后该菌膜蛋白的差异表达进行双向电泳分析.[结果]酸适应后,该菌膜不饱和脂肪酸含量从30.77%上升到42.93%,饱和脂肪酸含量从69.23%下降到57.07%,且有一种新的长链单不饱和脂肪酸C<,19:1>-n6被诱导产生.酸适应过程中至少有65个蛋白质点表达出现显著差异,其中上调的蛋白质点有43个,减弱表达的蛋白质点有22个.而添加氯霉素后,菌株的酸适应能力消除,可能与氯霉素抑制新蛋白的合成有关.[结论]说明细胞膜脂肪酸组成的适应性改变和应激蛋白的诱导产生是该菌主要的酸适应机制.  相似文献   

13.
AIMS: The effect of immobilization and long-term continuous culture was studied on probiotic and technological characteristics of lactic acid and probiotic bacteria. METHODS AND RESULTS: A continuous culture in a two-stage system was carried out for 17 days at different temperatures ranging from 32 to 37 degrees C, with a first reactor containing Bifidobacterium longum ATCC 15707 and Lactococcus lactis subsp. lactis biovar. diacetylactis MD immobilized separately in gel beads, and a second reactor operated with free cells released from the first reactor. The tolerance of free cells from both strains produced in the effluent medium of both reactors to hydrogen peroxide, simulated gastric and intestinal juices, antibiotics and nisin, and freeze-drying markedly increased with culture time and was generally higher after 6 days than that of stationary-phase cells produced during free-cell batch fermentations. The reversibility of the acquired tolerance of B. longum, but not L. diacetylactis, to antibiotics was shown during successive free-cell batch cultures. CONCLUSIONS: Free cells produced from continuous immobilized-cell culture exhibited altered physiology and increased tolerance to various chemical and physico-chemical stresses. SIGNIFICANCE AND IMPACT OF THE STUDY: Continuous culture with immobilized cells could be used to produce probiotic and lactic acid bacteria with enhanced technological and probiotic characteristics.  相似文献   

14.
This paper describes a simple and efficient method of isolation of a plullulanase type I from amylolytic lactic acid bacteria (ALAB). Extracellular pullulanase type I was purified from a cell-free culture supernatant of Lactococcus lactis IBB 500 by using ammonium sulfate fractionation and dialysis (instead of ultrafiltration), and ion-exchange chromatography with CM Sepharose FF followed by gel filtration chromatography with Sephadex G-150 as the final step. A final purification factor of 14.36 was achieved. The molecular mass of the enzyme was estimated as 73.9 kD. The optimum temperature for the enzyme activity was 45°C and the optimum pH was 4.5. Pullulanase activity was increased by addition Co2+ and completely inhibited by Hg2+. The enzyme activity was specifically directed toward α-1,6 glycosidic linkages of pullulan giving maltotriose units. Enzymatic hydrolysis of starch and amylose produced a mixture of maltose and maltotriose.  相似文献   

15.
Aims:  To verify whether diacetyl can be produced by Lactococcus lactis via amino acid catabolism, and to investigate the impact of the pH on the conversion.
Methods and Results:  Resting cells of L. lactis were incubated in reaction media at different pH values, containing l -aspartic acid or l -alanine as a substrate. After incubation, the amino acid and metabolites were analysed by HPLC and GC/MS. At pH 5 about 75% of aspartic acid and only 40% of alanine was degraded to pyruvate via a transamination step that requires the presence of α-ketoglutarate in the medium, but diacetyl was only produced from aspartic acid. Three per cent of pyruvate was transformed to acetolactate of which 50% was converted into diacetyl. At pH 5·5 and above the pyruvate conversion into acetolactate was less efficient than at pH 5, and acetolactate was mainly decarboxylated to acetoin.
Conclusions:  Acetoin and diacetyl can be formed as a result of aspartate or alanine catabolism by L. lactis in the presence of α-ketoglutarate in the medium.
Significance and Impact of the Study:  Lactic acid bacteria exhibiting both glutamate dehydrogenase activity and high aspartate aminotransferase activity are expected to be good diacetyl producers during cheese ripening at pH close to 5.  相似文献   

16.
Relatedness between Lactococcus lactis subsp. cremoris and L. lactis subsp. lactis was assessed by Southern hybridization analysis, with cloned chromosomal genes as probes. The results indicate that strains of the two subspecies form two distinct groups and that the DNA sequence divergence between L. lactis subsp. lactis and L. lactis subsp. cremoris is estimated to be between 20 and 30%. The previously used phenotypic criteria do not fully discriminate between the groups; therefore, we propose a new classification which is based on DNA homology. In agreement with this revised classification, the L. lactis subsp. lactis and L. lactis subsp. cremoris strains from our collection have distinct phage sensitivities.  相似文献   

17.
【目的】寻找精氨酸代谢途径中与酸胁迫相关的关键作用因素。【方法】通过在Lactococcus lactis NZ9000中分别过量表达来源于Lactobacillus casei Zhang的精氨酰琥珀酸合成酶(ASS)和精氨酰琥珀酸裂解酶(ASL)改变精氨酸代谢提高酸胁迫抗性。【结果】与对照菌株对比,重组菌株在环境胁迫下表现了较高的生长性能、存活率和发酵性能。生理学分析发现,酸胁迫环境下,重组菌株细胞有较高的胞内NH4+、ATP含量和H+-ATPase活性,并显著提高了精氨酸脱亚胺酶(ADI)途径中的氨基酸浓度。进一步的转录分析发现,天冬氨酸合成、精氨酸代谢相关的基因转录水平上调。【结论】在L.lactis NZ9000中过量表达ASS或ASL可以引发精氨酸代谢流量的上调,进而提高了细胞的多种胁迫抗性。精氨酸合成途径广泛存在于多种微生物中,为微生物,尤其是工业微生物提高胁迫抗性提供了新思路。  相似文献   

18.
When Lactococcus lactis strains were exposed directly to the lethal temperature of 50 C for 30 ;min, 0.1–31% of the cells survived. However, when pre-exposed to 40 °C, prior to exposure at 50 °C, 4–61% of the cells survived. A plasmid carrying a unique heat shock gene from the thermophile Streptococcus thermophilus was cloned into L. ;lactis. When the transformed cells were cultivated at 30 °C the introduction of the plasmid had no obvious effect on the growth of L. ;lactis. However, when the temperature was abruptly shifted from 30 °C to 42 °C at mid-growth phase the growth decreased by 50%.  相似文献   

19.
Trehalose accumulation is a common cell defense strategy against a variety of stressful conditions. In particular, our team detected high levels of trehalose in Propionibacterium freudenreichii in response to acid stress, a result that led to the idea that endowing Lactococcus lactis with the capacity to synthesize trehalose could improve the acid tolerance of this organism. To this end, we took advantage of the endogenous genes involved in the trehalose catabolic pathway of L. lactis, i.e., trePP and pgmB, encoding trehalose 6-phosphate phosphorylase and β-phosphoglucomutase, respectively, which enabled the synthesis of trehalose 6-phosphate. Given that L. lactis lacks trehalose 6-phosphate phosphatase, the respective gene, otsB, from the food-grade organism P. freudenreichii was used to provide the required activity. The trehalose yield was approximately 15% in resting cells and in mid-exponential-phase cells grown without pH control. The intracellular concentration of trehalose reached maximal values of approximately 170 mM, but at least 67% of the trehalose produced was found in the growth medium. The viability of mutant and control strains was examined after exposure to heat, cold or acid shock, and freeze-drying. The trehalose-producing strains showed improved tolerance (5- to 10-fold-higher survivability) to acid (pH 3) and cold shock (4°C); there was also a strong improvement in cell survival in response to heat shock (45°C), and no protection was rendered against dehydration. The insight provided by this work may help the design of food-grade strains optimized for the dairy industry as well as for oral drug delivery.  相似文献   

20.
We measured translational diffusion of proteins in the cytoplasm and plasma membrane of the Gram‐positive bacterium Lactococcus lactis and probed the effect of osmotic upshift. For cells in standard growth medium the diffusion coefficients for cytosolic proteins (27 and 582 kDa) and 12‐transmembrane helix membrane proteins are similar to those in Escherichia coli. The translational diffusion of GFP in L. lactis drops by two orders of magnitude when the medium osmolality is increased by ~ 1.9 Osm, and the decrease in mobility is partly reversed in the presence of osmoprotectants. We find a large spread in diffusion coefficients over the full population of cells but a smaller spread if only sister cells are compared. While in general the diffusion coefficients we measure under normal osmotic conditions in L. lactis are similar to those reported in E. coli, the decrease in translational diffusion upon osmotic challenge in L. lactis is smaller than in E. coli. An even more striking difference is that in L. lactis the GFP diffusion coefficient drops much more rapidly with volume than in E. coli. We discuss these findings in the light of differences in turgor, cell volume, crowding and cytoplasmic structure of Gram‐positive and Gram‐negative bacteria.  相似文献   

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