Aerobic submerged fermentation by acetic acid bacteria for vinegar production: Process and biotechnological aspects

Strictly aerobic acetic acid bacteria (AAB) have a long history of use in fermentation processes, and the conversion of ethanol to acetic acid for the production of vinegar is the most well-known application.At the industrial scale, vinegar is mainly produced by submerged fermentation, which refers to an aerobic process in which the ethanol in beverages such as spirits, wine or cider is oxidized to acetic acid by AAB. Submerged fermentation requires robust AAB strains that are able to oxidize ethanol under selective conditions to produce high-titer acetic acid. Currently submerged fermentation is conducted by unselected AAB cultures, which are derived from previous acetification stocks and maintained by repeated cultivation cycles.In this work, submerged fermentation for vinegar production is discussed with regard to advances in process optimization and parameters (oxygen availability, acetic acid content and temperature) that influence AAB activity. Furthermore, the potential impact arising from the use of selected AAB is described.Overcoming the acetification constraints is a main goal in order to facilitate innovation in submerged fermentation and to create new industry-challenging perspectives.     

High cell density reactor for the production ofLactobacillus plantarum

Summary The production of a flocculent strain ofLactobacillus plantarum was performed in a high cell density reactor: a fluidized bed reactor (FBR) with a settler and an external cell recirculation. Two variables were assessed, the recirculation rate (R) and the dilution rate (D). The effect of the latter is much more important than the effect of the former in ensuring a quick start up in the flocculation process. The cell volumetric productivities obtained with this system increase directly with dilution rate and recirculation rate. The values of cell volumetric productivities obtained are considerably higher than those obtained in continuous stirred tank reactors (CSTR) and much higher than in batch reactors.     

Microbiology of the malolactic fermentation: Molecular aspects

Abstract Malolactic fermentation conducted by lactic acid bacteria follows alcoholic fermentation during winemaking, and several positive effects make it indispensable for most wines. Research has focused on the growth and physiology of lactic acid bacteria in wine; resulting in the design of malolactic starter cultures. Future work on these starters will concentrate on aromatic changes as additional criteria for strain selection. Although the main features of the malolactic enzyme and its gene are known, the detailed mechanism of the malolactic reaction remains unclear. Cloning and expression of this activity in enological strains of Saccharomyces cereuisiae might be one of the next most important advances in the control of malic acid degradation in wine.     

Influence of operational parameters in the flocculation and production ofLactobacillus plantarum

Summary The influence of different operational parameters, such as the dilution rate (D) and the bleeding rate (B), in the production of a flocculent strain ofLactobacillus plantarum was studied. The effect of the dilution rate was demonstrated to be related to the lactic acid concentration inside the reactor. The effect of the bleeding rate was shown to be critical in the stabilization of the operation (due to a better pH control). It also allowed a continuous recovery of cells outside the reactor. Viability testing of the lactic starter cultures showed that operation with cell purge increased the viability of the starter cultures obtained.Nomenclature B Bleeding rate, h^–1 - D Dilution rate, h^–1 - F Feed flow rate, L h^–1 - I Feed velocity, m h^–1 - Specific growth rate, h^–1 - v Lactic acid specific productivity, g g^–1 h^–1 - P Product concentration (lactic acid), g L^–1 - P _out Product concentration leaving the system, g L^–1 - Q _b Bleeding flow rate, L h^–1 - R Recirculation velocity, m h^–1 - S Substract concentration, g L^–1 - t Time, h - T _p Time of ascensional flow (length of the column/total ascensional velocity), h - T _r Residence time (1/D), h - V Volume of the reactor, L - X Cell concentration, g L^–1 - X _out Cell concentration leaving the system, g L^–1     

Anti-biofilm potential of Lactobacillus plantarum Y3 culture and its cell-free supernatant against multidrug-resistant uropathogen Escherichia coli U12

Uropathogens develop biofilms on urinary catheters, resulting in persistent and chronic infections that are associated with resistance to antimicrobial therapy. Therefore, the current study was performed to control biofilm-associated urinary tract infections through assaying the anti-biofilm ability of lactic acid bacteria (LAB) against multidrug-resistant (MDR) uropathogens. Twenty LAB were obtained from pickles and fermented dairy products, and screened for their anti-biofilm and antimicrobial effects against MDR Escherichia coli U12 (ECU12). Lactobacillus plantarum Y3 (LPY3) ({"type":"entrez-nucleotide","attrs":{"text":"MT498405","term_id":"1843980272","term_text":"MT498405"}}MT498405), showed the highest inhibitory effect and biofilm production. Pre-coating of a microtitre plate with LPY3 culture was more potent than co-incubation. Pre-coating with LPY3 culture generated a higher anti-biofilm effect with an adherence of 14.5% than cell free supernatant (CFS) (31.2%). Anti-biofilm effect of CFS was heat stable up to 100 °C with higher effect at pH 4–6. Pre-coating urinary catheter with LPY3 culture reduced the CFU/cm² of ECU12 attached to the catheter for up to seven days. Meanwhile, CFS reduced the ECU12 CFU/cm² for up to four days. Scanning electron microscope confirmed the reduction of ECU12 adherence to catheters after treatment with CFS. Therefore, Lactobacillus plantarum can be applied in medical devices as prophylactic agent and as a natural biointervention to treat urinary tract infections.     

芝麻香型白酒发酵过程中乳酸菌多样性及其演替规律

【背景】乳酸菌是白酒发酵过程中一类非常重要的微生物,其种类及动态变化对于白酒品质具有重要影响。然而,目前对于芝麻香型白酒发酵过程中乳酸菌群落结构及其演替规律的认识并不全面。【目的】揭示芝麻香型白酒发酵过程中乳酸菌的多样性及菌群的演替规律,为更好地探索白酒酿造机理和控制白酒品质提供生物学依据。【方法】利用高通量测序技术对芝麻香型白酒发酵过程中乳酸菌菌群演替进行跟踪分析,同时采用实时荧光定量PCR对发酵过程中乳酸菌的生物量进行定量分析。【结果】高通量测序结果显示,芝麻香型白酒发酵过程涉及5个属的乳酸菌:魏斯氏菌属(Weissella)、片球菌属(Pediococcus)、乳杆菌属(Lactobacillus)、明串珠菌属(Leuconostoc)和乳球菌属(Lactococcus),共计43种乳酸菌。其中,在发酵过程中平均相对丰度大于0.5%的乳酸菌有10种,分别是类肠膜魏斯氏菌(Weissella paramesenteroides)、食窦魏斯氏菌(Weissella cibaria)、融合魏斯氏菌(Weissella confusa)、戊糖片球菌(Pediococcus pentosaceus)、假肠膜明串珠菌(Leuconostoc pseudomesenteroides)、发酵乳杆菌(Lactobacillus fermentum)、植物乳杆菌(Lactobacillus plantarum)、副干酪乳杆菌(Lactobacillus paracasei)、耐酸乳杆菌(Lactobacillus acetotolerans)和Lactobacillus sp.。在堆积发酵过程中,Weissella属占细菌总量的50%以上,其次是Pediococcus属和Lactobacillus属,而Leuconostoc属和Lactococcus属相对较少。在窖池发酵过程中Lactobacillus属的乳酸菌逐渐成为优势细菌,尤其是Lactobacillus sp.在窖池发酵中后期相对丰度达到80%以上。实时荧光定量PCR结果显示,在堆积发酵和窖池发酵前期乳酸菌总量变化不大;从窖池发酵5 d开始,乳酸菌总量迅速上升,30 d时达到最大值。【结论】对白酒发酵过程中乳酸菌种类及动态变化的研究有助于探究白酒酿造过程中乳酸菌功能,进而解析白酒酿造机理,最终达到控制白酒品质的目的。     

Amylolytic bacterial lactic acid fermentation - a review

Lactic acid, an enigmatic chemical has wide applications in food, pharmaceutical, leather, textile industries and as chemical feed stock. Novel applications in synthesis of biodegradable plastics have increased the demand for lactic acid. Microbial fermentations are preferred over chemical synthesis of lactic acid due to various factors. Refined sugars, though costly, are the choice substrates for lactic acid production using Lactobacillus sps. Complex natural starchy raw materials used for production of lactic acid involve pretreatment by gelatinization and liquefaction followed by enzymatic saccharification to glucose and subsequent conversion of glucose to lactic acid by Lactobacillus fermentation. Direct conversion of starchy biomass to lactic acid by bacteria possessing both amylolytic and lactic acid producing character will eliminate the two step process to make it economical. Very few amylolytic lactic acid bacteria with high potential to produce lactic acid at high substrate concentrations are reported till date. In this view, a search has been made for various amylolytic LAB involved in production of lactic acid and utilization of cheaply available renewable agricultural starchy biomass. Lactobacillus amylophilus GV6 is an efficient and widely studied amylolytic lactic acid producing bacteria capable of utilizing inexpensive carbon and nitrogen substrates with high lactic acid production efficiency. This is the first review on amylolytic bacterial lactic acid fermentations till date.     

Viili中益生菌的分离及其发酵性质研究

目的 利用传统方法和分子生物学方法从viili中筛菌并对其特性进行研究.方法 采用MRS、YPD和脱脂乳营养琼脂3种平板从viili中分离出15株单菌,利用V3区通用引物和乳杆菌特异性引物对各单菌的PCR产物进行变性梯度凝胶电泳(denaturing gradient gel electrophoresis,DGGE)分析,将其归为5种不同菌.结果 16S DNA测序表明,5种单菌分别为Lactobacillus plantarum、Streptococcus thermophilus、Lactobacillus paracasei、Bacillus cereus和Lactobacillus delbrueckii subsp. bulgaricus.混合发酵实验表明:从viili中筛出的5种菌除Bacillus cereus外均有凝乳现象,其中Lactobacillus delbrueckii凝乳能力强,可在5 h内凝乳;Lactobacillus paracasei、Bacillus cereus和Lactobacillus plantarum组合产生的EPS量最多,高达186.71 mg/L,而Streptococcus thermophilus EPS产量仅为33.56 mg/L.结论 传统方法与分子生物学方法DGGE相结合,可以快速准确判断细菌种类;筛选菌特性研究结果表明,细菌之间的相互作用导致凝乳时间和EPS产量发生变化,其复合作用有待于进一步研究.     

Intra-specific variation of Lactobacillus plantarum and Lactobacillus pentosus in sensitivity towards various bacteriocins

Fifty-two strains belonging to the Lactobacillus plantarum species group were identified and typed. They represented 32 clones of Lactobacillus plantarum and 7 clones of Lactobacillus pentosus. Sensitivity of all strains towards bacteriocins of four different producer strains was investigated using a deferred inhibition test (DIT). Substantial intra-specific variation in sensitivity of clones was observed towards bacteriocinogenic lactic acid bacteria producing nisin ( Lactococcus lactis ATCC 11454) or pediocin PA-1 ( Pediococcus acidilactici PAC-1.0), while none of the strains were sensitive towards the two remaining bacteriocin producers. The minimum inhibitory concentration (MIC) of nisin towards selected strains confirmed the DIT results. No correlation between the susceptibility of fourteen selected strains towards nisin and an array of antibiotics was found. The present study indicates that the variation in bacteriocin-sensitivity within target species might be a potential limitation for the application of bacteriocins as biopreservatives.     

耐乙酸乳杆菌的筛选及其产乳酸特性

【背景】耐受乙酸的乳酸菌是传统谷物醋醋酸发酵过程中产生乳酸及其风味衍生物的重要功能微生物。【目的】从镇江香醋醋醅中分离鉴定具有耐乙酸特性的乳酸菌,并评价不同条件下该菌株的产乳酸能力。【方法】利用4%(体积比)乙酸含量的MRS培养基分离耐乙酸乳酸菌;对其进行16S rRNA基因鉴定、基因组测序、形态观察以及生理生化特性研究;考察不同乙酸浓度、葡萄糖浓度、发酵温度和时间对菌株产乳酸能力的影响。【结果】分离得到一株可耐受6%乙酸的乳杆菌Lactobacillus sp. JN500903;在厌氧静置、接种量5%、乙酸浓度5%、葡萄糖浓度40 g/L、发酵温度37°C、发酵时间10 d条件下,该菌株乳酸产量为16.1 g/L。【结论】乳杆菌JN500903能够耐受6%乙酸浓度,具有在酸性环境下合成乳酸的能力,有一定的应用潜力。     

Robusta coffee beans post-harvest microflora: Lactobacillus plantarum sp. as potential antagonist of Aspergillus carbonarius

Coffee contamination by ochratoxigenic fungi affects both coffee quality as well as coffee price with harmful consequences on the economy of the coffee exporting countries for whom which is their main source of income. Fungal strains were isolated from coffee beans and identified as black Aspergilli. Ochratoxigenic moulds like Aspergillus carbonarius were screened and selected for detailed studies. Also lactic acid bacteria (LAB) were isolated from silage coffee pulp and their antifungal activity was tested on dual-culture agar plate. Ten of the isolated LAB demonstrated antifungal effect against A. carbonarius. API 50 CH and APIZYM were used to perform phenotypic identification. 16S rDNA sequencing was made to confirm the results.     

基因工程菌培养过程中乙酸的积累及其对工程菌生长和产物表达的影响

在rIL-2工程菌K802(pLY-4)高密度培养中发现培养液中有大量代谢副产物乙酸积累,乙酸的存在对工程菌的生长和产物的表达均有明显的抑制作用,这种抑制作用是制约工程菌高密度培养的重要因素,为了减小这种抑制作用,研究了培养基pH与乙酸抑制作用的关系,发现适当提高培养基pH值,能有效地减小乙酸的抑制作用;高密度培养时,提高培养基的pH后,虽然仍有大量乙酸积累,但产物的表达水平和菌密度都有一定的提高     

重组4-甲基苯酚消减乳酸菌的构建及其在白酒酿造体系中的功能

【背景】4-甲基苯酚是众多发酵食品中的异嗅味物质,阈值较低,如白酒中百万分之一的4-甲基苯酚即可对白酒风味造成不利影响。【目的】构建能消减4-甲基苯酚的乳酸菌菌株,探索其在白酒酿造中的应用潜力。【方法】将来源于谷氨酸棒杆菌的4-甲基苯基磷酸酯合成酶编码基因creI与creH在短乳杆菌中表达,探究过表达菌株对白酒酿造体系中4-甲基苯酚的消减能力。【结果】creIH过表达菌株在液体培养基中可有效消减4-甲基苯酚,消减能力达2 130μg/L;在模拟白酒固态酿造体系中,creIH过表达菌株消减4-甲基苯酚的能力达530μg/kg,消减率为37.9%。【结论】首次构建了4-甲基苯酚的消减乳酸菌菌株,为白酒酿造体系中4-甲基苯酚的消减提供了新的策略。     

Progress and potential in the biotechnology of lactic acid bacteria

Abstract: Current activities and future prospects for the biotechnology of lactic acid bacteria are reviewed. Genetic engineering technology, including advances and limitations of plasmid vectors and chromosomal integration strategies are discussed together with the status of gene expression and the importance of in vivo gene transfer systems and transposition. Areas of biotechnological application considered include proteolysis and flavour generation, bacteriophage resistance, antimicrobials, metabolic engineering and the possible uses of lactic acid bacteria in relation to health.     

Modeling bacterial contamination of fuel ethanol fermentation

The emergence of antibiotic‐resistant bacteria may limit the effectiveness of antibiotics to treat bacterial contamination in fuel ethanol plants, and therefore, new antibacterial intervention methods and tools to test their application are needed. Using shake‐flask cultures of Saccharomyces cerevisiae grown on saccharified corn mash and strains of lactic acid bacteria isolated from a dry‐grind ethanol facility, a simple model to simulate bacterial contamination and infection was developed. Challenging the model with 10⁸ CFU/mL Lactobacillus fermentum decreased ethanol yield by 27% and increased residual glucose from 6.2 to 45.5 g/L. The magnitude of the effect was proportional to the initial bacterial load, with 10⁵ CFU/mL L. fermentum still producing an 8% decrease in ethanol and a 3.2‐fold increase in residual glucose. Infection was also dependent on the bacterial species used to challenge the fermentation, as neither L. delbrueckii ATCC 4797 nor L. amylovorus 0315‐7B produced a significant decrease in ethanol when inoculated at a density of 10⁸ CFU/mL. In the shake‐flask model, treatment with 2 µg/mL virginiamycin mitigated the infection when challenged with a susceptible strain of L. fermentum (MIC for virginiamycin ≤2 ppm), but treatment was ineffective at treating infection by a resistant strain of L. fermentum (MIC = 16 ppm). The model may find application in developing new antibacterial agents and management practices for use in controlling contamination in the fuel ethanol industry. Biotechnol. Bioeng. 2009;103: 117–122. Published 2008 Wiley Periodicals, Inc.     

甘露寡糖对纯培养和共培养的乳酸杆菌体外生长的影响

三株(S、L和M)猪源乳酸杆菌以甘露寡糖(mannan-oligosaccharide, MOS)为碳源体外纯培养或与猪源致病性大肠杆菌共培养, 研究MOS对乳酸杆菌的选择性生长作用。结果表明, 纯培养时, 三株菌MOS组的OD值和乳酸浓度均高于对照, pH均低于对照, 但菌株之间存在差异。共培养时, 乳酸杆菌和大肠杆菌都可利用MOS进行生长, 但乳酸杆菌的生长强于大肠杆菌, 产生较多的乳酸、显著降低pH(P＜0.05) , 这种促生长作用在最初的12 h较明显。     

Microbial interactions associated with secondary cucumber fermentation

Aims

To evaluate the interaction between selected yeasts and bacteria and associate their metabolic activity with secondary cucumber fermentation.

Methods and Results

Selected yeast and bacteria, isolated from cucumber secondary fermentations, were inoculated as single and mixed cultures in a cucumber juice model system. Our results confirmed that during storage of fermented cucumbers and in the presence of oxygen, spoilage yeasts are able to grow and utilize the lactic and acetic acids present in the medium, which results in increased brine pH and the chemical reduction in the environment. These conditions favour opportunistic bacteria that continue the degradation of lactic acid. Lactobacillus buchneri, Clostridium bifermentans and Enterobacter cloacae were able to produce acetic, butyric and propionic acids, respectively, when inoculated in the experimental medium at pH 4·6. Yeast and bacteria interactions favoured the survival of Cl. bifermentans and E. cloacae at the acidic pH typical of fermented cucumbers (3·2), but only E. cloacae was able to produce a secondary product.

Conclusions

The methodology used in this study confirmed that a complex microbiota is responsible for the changes observed during fermented cucumber secondary fermentation and that certain microbial interactions may be essential for the production of propionic and butyric acids.

Significance and Impact of the Study

Understanding the dynamics of the development of secondary cucumber fermentation aids in the identification of strategies to prevent its occurrence and economic losses for the pickling industry.     

应用DGGE和Real-time PCR分析酸菜发酵液中乳酸菌的动态变化

目的 使用DGGE和实时荧光定量PCR分析酸菜发酵液中乳酸菌的动态改变。方法 采集传统天然发酵1~8周的酸菜发酵液50 mL,抽提基因组DNA,使用DGGE对乳酸菌菌群进行多样性、相似性研究和优势菌的鉴定,实时荧光定量PCR测定乳酸菌含量。结果 发酵周期加长,乳酸菌的含量随之也逐渐增大。清酒乳杆菌是酸菜自然发酵过程中的优势菌型,鼠李糖乳杆菌主要存在于发酵初期,发酵的中期（3~5周）、后期（6~8周）明显减少,同时发酵后期植物乳杆菌成为优势菌并完成全部发酵过程。发酵周期延长后,香农多样性指数和丰富度较高,出现先下降后上升的趋势,在第7周达到最大值。结论 在DNA水平上,DGGE和实时定量PCR检测了酸菜发酵液中乳酸菌的含量,进行菌群结构的动态分析,明确优势菌型,为实现酸菜标准化生产提供理论依据。     

酱香型白酒发酵中两株主要乳酸菌对酿造微生物群体的影响

【目的】研究从酱香型白酒发酵酒醅中分离得到的2株主要乳酸菌Lactobacillus homohiochii XJ-L1和Lactobacillus buchneri XJ-L2对酱香型白酒发酵中酿造微生物群体的作用,并探索该种相互作用对酱香型白酒品质的影响。【方法】结合抑菌实验和组合发酵实验研究L. homohiochii XJ-L1和L. buchneri XJ-L2对酿造微生物群体生长的影响,通过对纯培养和共培养体系中代谢物的比较,研究2株优势乳酸菌对主要酿造酵母风味相关代谢产物的影响。【结果】L. buchneri XJ-L2能够抑制3株芽孢杆菌(Bacillus amyloliquefaciens XJ-B1,Bacillus subtilis XJ-B2,Bacillus licheniformis XJ-B3)、5株霉菌(Aspergillus oryzae XJ-M1,Aspergillus niger XJ-M2,Aspergillus flavus XJ-M3,Aspergillus albicans XJ-M4,Rhizopus oryzae XJ-M5)、2株酵母(Schizosaccharomyces pombe XJ-Y4,Geotrichum candidum XJ-Y5)的生长;L. homohiochii XJ-L1和L. buchneri XJ-L2能够促进3株主要酵母(Saccharomyces cerevisiae XJ-Y1,Zygosaccharomyces bailii XJ-Y2,Pichia galeiformis XJ-Y3)的生长,同时促进其酸类、醇类、酯类等风味物质的代谢。【结论】L. homohiochii XJ-L1和L. buchneri XJ-L2可促进3株主要酵母的生长代谢,同时L. buchneri XJ-L2明显抑制细菌、霉菌和少数酵母的生长,以此促进和维持主要酵母在酱香型白酒发酵过程中的生态地位,从而影响酒中酸类、醇类、酯类等风味物质的形成,保证酱香型白酒的品质。因此,适当比例的乳酸菌对维持酿造微生物区系平衡,生产典型酱香品质白酒具有重要意义。