镇江香醋醋酸发酵过程中细菌群落组成分析

用免培养法对镇江恒顺香醋醋酸发酵过程中醋醅的细菌群落的结构进行了分析。从醋醅样品中获得的总DNA经PCR扩增建立了16S rDNA克隆文库,共获得96个阳性克隆并进行了测序,以代表性序列构建了系统发育树。通过序列分析将它们分为16个OUTs,其中5个OUTs属于Lactobacillus属、2个属于Acetobacter属、1个属于Gluconacetobacter属、2个属于Staphylococcus属、2个属于Enterobacter属、2个属于Pseudomonas属、1个属于Flavobacterium属和1个Sinorhizobium属。     

Energy metabolism of a unique acetic acid bacterium, Asaia bogorensis, that lacks ethanol oxidation activity

Acetic acid bacteria (AAB) are known as a vinegar producer on account of their ability to accumulate a high concentration of acetic acid due to oxidative fermentation linking the ethanol oxidation respiratory chain. Reactions in oxidative fermentation cause poor growth because a large amount of the carbon source is oxidized incompletely and the harmful oxidized products are accumulated almost stoichiometrically in the culture medium during growth, but a newly identified AAB, Asaia, has shown unusual properties, including scanty acetic acid production and rapid growth, as compared with known AAB as Acetobacter, Gluconobacter, and Gluconacetobacter. To understand these unique properties of Asaia in more detail, the respiratory chain and energetics of this strain were investigated. It was found that Asaia lacks quinoprotein alcohol dehydrogenase, but has other sugar and sugar alcohol-oxidizing enzymes specific to the respiratory chain of Gluconobacter, especially quinoprotein glycerol dehydrogenase. It was also found that Asaia has a cyanide-sensitive cytochrome bo(3)-type ubiquinol oxidase as sole terminal oxidase in the respiratory chain, and that it exhibits a higher H(+)/O ratio.     

Acetobacter senegalensis isolated from mango fruits: Its polyphasic characterization and adaptation to protect against stressors in the industrial production of vinegar: A review

It has been more than a decade since Acetobacter senegalensis was isolated, identified and described as a thermotolerant strain of acetic acid bacteria. It was isolated from mango fruits in Senegal and used for industrial vinegar production in developing countries, mainly in sub-Saharan Africa. The strain was tested during several spirit vinegar fermentation processes at relatively high temperatures in accordance with African acclimation. The upstream fermentation process had significant stress factors, which are highlighted in this review so that the fermentation process can be better controlled. Due to its high industrial potential, this strain was extensively investigated by diverse industrial microbiologists worldwide; they concentrated on its microbiological, physiological and genomic features. A research group based in Belgium proposed an important project for the investigation of the whole-genome sequence of A. senegalensis. It would use a 454-pyrosequencing technique to determine and corroborate features that could give this strain significant diverse bio-industrial applications. For instance, its application in cocoa bean fermentation has made it a more suitable acetic acid bacterium for the making of chocolate than Acetobacter pasteurianus. Therefore, in this paper, we present a review that summarizes the current research on A. senegalensis at its microbial and genomic levels and also its specific bio-industrial applications, which can provide economic opportunities for African agribusiness. This review summarizes the physiological and genomic characteristics of Acetobacter senegalensis, a thermotolerant strain isolated from mango fruits and intended to be used in industrial vinegar fermentation processes. It also explores other bio-industrial applications such as cocoa fermentation. Vinegar fermentation is usually performed with mesophilic strains in temperate regions of the world. Developing countries, such as Senegal, import vinegar or make ‘fake’ vinegar by diluting acetic acid obtained from petrochemicals. The use of a thermotolerant Acetobacter senegalensis strain as a solid functional starter culture, as well as the design of a new adapted bioreactor, has significantly contributed to food security and the creation of small- to medium-sized enterprises that produce mango vinegar in West Africa.     

Plasmid analysis of high acetic acid-resistant bacterial strains by two-dimensional agarose gel electrophoresis and insights into the phenotype of plasmid pJK2-1

Plasmid profiling can be used for quick molecular characterization of bacteria. In the study reported here, this method was used to compare the plasmid profiles of strains of Gluconacetobacter europaeus, one of the dominant species in industrial vinegar production. Further analysis of three selected strains by two-dimensional agarose gel electrophoresis showed that the plasmid profiles are composed of different forms of plasmids of the same size. One of these plasmids, pJK2-1, was introduced into Gluconacetobacter oboediens JK3 as a chimeric plasmid (pJT2) with pUC18. The recombinant strain showed a shorter lag phase in a medium with 3 and 5 % (v/v) acetic acid. Deletion of a part of plasmid pJK2-1 allowed a region that contributes to this novel phenotype of G. oboediens JK3 pJT2 to be identified. Non-problematic handling of G. oboediens JK3 warrants further study in elucidating the function of plasmids involved in the production of vinegar.     

Diversity of Acetobacter pasteurianus Strains Isolated From Solid-State Fermentation of Cereal Vinegars

Vinegar production is based on the acetification process by indigenous acetic acid bacteria (AAB). Among vinegar technologies, solid-state fermentation (SSF) processes are widespread in Asian countries to produce vinegar at small-scale. In this study, 21 AAB strains isolated from Chinese cereal vinegars produced by SSF collected in different regions of China were characterized by enterobacterial repetitive intergenic consensus (ERIC)–PCR fingerprinting. Isolates exhibited high degree of phenotypic variability as well as suitable traits for their uses as selected strains in SSF vinegar production (growth modality by superficial biofilm, no production of cellulose, ability to growth on ethanol media). 16S rRNA gene sequencing analysis of representative strains showed that strains of Acetobacter pasteurianus have a close association to cereal vinegars, whereas Gluconacetobacter europaeus population is not favoured. Selection of single or multiple strains culture within A. pasteurianus species was predicted in view of their application in SSF technology. This seems to be the first report showing phenotypic and genetic variability of AAB strains involved in SSF processes. Results can be exploited for the implementation of large-scale SSF processes by selected strains for vinegar production and other innovative biotechnological applications.     

Isolation and Identification of Acetic Acid Bacteria for Submerged Acetic Acid Fermentation at High Temperature

Industrial vinegar production by submerged acetic acid fermentation has been carried out using Acetobacter strains at about 30°C. To obtain strains suitable for acetic acid fermentation at higher temperature, about 1,100 strains of acetic acid bacteria were isolated from vinegar mash, soils in vinegar factories and fruits, and their activities to oxidize ethanol at high temperature were examined. One of these strains, No. 1023, identified as Acetobacter aceti, retained full activity to produce acetic acid in continuous submerged culture at 35°C and produced 45% of activity at 38°C, while the usual strain of A. aceti completely lost its activity at 35°C. Thus the use of this strain may reduce the cooling costs of industrial vinegar production.     

Characterization by plasmid profile analysis of acetic acid bacteria from wine, spirit and cider acetators for industrial vinegar production

The fermentation in industrial high acid submerged fermenters of wine, spirit or cider into vinegar was investigated by direct analysis of the plasmid patterns of the acetic acid bacteria involved. The strains were different in all samples. One strain from a red wine acetator was isolated by the double layer agar technique and proved to be the main fermenting organism. After inoculation of an acetator with this strain, the initiation of acidification was accelerated. Inoculation with spirit vinegar organisms led to immediate acidification. The spirit vinegar organisms were outnumbered after 12 d by fortuitously-occurring, highly adapted red wine vinegar bacteria. Over-oxidation was due to physiological regulation, a genetical change by plasmid loss or occurrence of new organisms was not observed.     

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。     

Genome sequences of the high-acetic acid-resistant bacteria Gluconacetobacter europaeus LMG 18890T and G. europaeus LMG 18494 (reference strains), G. europaeus 5P3, and Gluconacetobacter oboediens 174Bp2 (isolated from vinegar)

Bacteria of the genus Gluconacetobacter are usually involved in the industrial production of vinegars with high acetic acid concentrations. We describe here the genome sequence of three Gluconacetobacter europaeus strains, a very common bacterial species from industrial fermentors, as well as of a Gluconacetobacter oboediens strain.     

一株番茄表面着生醋酸菌的分离鉴定及产酸条件优化

醋酸菌是食醋酿造过程中的关键菌种,性能优良的菌种对于产品品质的提升意义重大。以分离自番茄表面的产醋酸菌为研究对象,通过生理生化指标鉴定、16S rRNA编码基因比对及系统发育树构建等方法对其种类进行鉴定,并通过单因素实验、正交实验对鉴定为醋酸菌的菌株进行培养条件优化。结果表明,所分离的3株醋酸生产菌中,BQ-1被鉴定为醋酸杆菌属(Acetobacteraceae),在以酵母粉为主要氮源,蔗糖为主要碳源的培养基中,其最高产酸量为1823 g·L-1。由于该菌株在番茄表面具有很强的生长能力,因此有望应用于番茄果醋的酿造。     

一株高产苯乳酸的古墓土壤葡糖醋杆菌FBFS97的全基因组测序与分析

【背景】苯乳酸(phenyllactic acid,PLA)是一种应用潜力巨大的天然广谱抑菌物质。本课题组前期分离得到一株高产PLA的醋酸菌(acetic acid bacteria,AAB)——葡糖醋杆菌(Gluconacetobacter sp.)FBFS97,但尚未鉴定到种,而且其产PLA的分子机理尚不清楚。【目的】确定FBFS97的种属关系,解析FBFS97的遗传信息,特别是与PLA产生相关的基因。【方法】采用光学显微镜和扫描电镜对FBFS97的菌体形态进行表征,通过16S rRNA基因序列分析对FBFS97进行分类鉴定,并以高效液相色谱分析苯丙氨酸对其产PLA的影响。在此基础上,对FBFS97进行全基因组测序、拼接和基因预测,并进行GO/COG聚类、KEGG代谢通路和VFDB毒力等分析,以及PLA生物合成途径的预测。【结果】根据16S rRNA基因序列的比对结果,结合形态学分析,该菌被鉴定为古墓土壤葡糖醋杆菌(Gluconacetobacter tumulisoli)。将1 000 mg/L苯丙氨酸添加到FBFS97液体培养基中,发酵液中PLA最高浓度可达400 mg/L,为对照组的8倍。该菌的基因组大小为3 988 308 bp,(G+C)mol%含量为66.62%,编码基因3 500个;KEGG代谢通路分析表明,该菌基因组中存在经莽草酸途径合成PLA的所有基因;VFDB毒力预测结果显示,该菌基因组中不存在产生毒素的相关基因。【结论】首次报道了一株高产PLA的AAB——古墓土壤葡糖醋杆菌FBFS97的全基因组序列信息,并发现该菌株的基因组中含有合成PLA的所有相关基因,为后续进一步研究FBFS97产生PLA的生物合成途径提供了理论依据。     

醋酸菌中CRISPR位点的比较基因组学与进化分析

CRISPR (Clustered regularly interspaced short palindromic repeats)是近几年发现的一种广泛存在于细菌和古菌中,能够应对外源DNA干扰(噬菌体、病毒、质粒等),并提供免疫机制的重复序列结构。CRISPR系统通常由同向重复序列、前导序列、间隔序列和CRISPR相关蛋白组成。本研究以醋酸发酵中常见3个属醋杆菌属(Acetobacter)、葡糖醋杆菌属(Gluconacetobacter)和葡糖杆菌属(Gluconobacter)的48个菌株为研究对象,通过其基因组上CRISPR相关基因序列的生物信息学分析,探索CRISPR位点在醋酸菌中的多态性及其进化模式。结果表明48株醋酸菌中有32株存在CRISPR结构,大部分CRISPR-Cas结构属于type I-E和type I-C类型。除了葡糖杆菌属外,葡糖醋杆菌属和醋杆菌属中的部分菌株含有II类的CRISPR-Cas系统结构(CRISPR-Cas9)。来自不同属菌株的CRISPR结构中重复序列具有较强的保守性,而且部分菌株CRISPR结构中的前导序列具有保守的motif (与基因的转录调控有关)及启动子序列。进化树分析表明cas1适合用于醋酸菌株的分类,而不同菌株间cas1基因的进化与重复序列的保守性相关,预示它们可能受相似的功能选择压力。此外,间隔序列的数量与噬菌体数量及插入序列(Insertion sequence, IS)数量有正相关的趋势,说明醋酸菌在进化过程中可能正不断受新的外源DNA入侵。醋酸菌中CRISPR结构位点的分析,为进一步研究不同醋酸菌株对醋酸胁迫耐受性差异及其基因组稳定性的分子机制奠定了基础。     

巴氏醋杆菌高酸度醋发酵过程的能量代谢分析

【目的】初步分析了Acetobacter pasteurianus CICIM B7003-02在醋酸发酵过程中的能量代谢状况, 通过强化细胞能量代谢水平以提升菌株高酸发酵的产酸强度。【方法】探明A. pasteurianus CICIM B7003-02在高酸度醋发酵的不同阶段中三羧酸循环底物含量、乙醇呼吸链酶活及能量代谢酶基因的转录水平等代谢特点, 分析用于醋酸发酵的产能代谢途径及其作用。【结果】发现A. pasteurianus CICIM B7003-02在醋酸发酵初期, 主要通过苹果酸/琥珀酸回补偶联有氧呼吸途径产能。进入醋酸快速积累阶段, 乙醇呼吸链为主要供能代谢途径。发酵后期苹果酸/琥珀酸回补途径配合乙醇呼吸链供能。基于上述研究, 采取添加琥珀酸和苹果酸强化细胞产能, 促进高酸度醋发酵强度。【结论】能量供给影响醋杆菌耐酸能力和醋酸生产能力。确定乙醇呼吸链为醋酸发酵的主要供能系统。强化细胞产能手段可达到提高醋酸发酵强度的目的。     

Achieving high strength vinegar fermentation via regulating cellular growth status and aeration strategy

Implementing of high strength vinegar fermentation is still the mission of vinegar producers. The aim of this study was to carry out high acidity vinegar fermentation efficiently based on comprehensive analysis on bacterial fermentation kinetics characteristics of Acetobacter pasteurianus CICIM B7003-02. In practice, semi-continuous vinegar fermentation was optimized with an optimal discharge/charge ratio of 34% of working volume (v/v), which resulted in a proper growth status of Acetobacter and beneficial to acetification. Then, a two-stage aeration protocol was adopted in the vinegar fermentation in line with the Acetobacter theoretical oxygen demand, by which both vinegar stoichiometric yield and acetification rate were improved effectively. As the final result, a titer of 93.09 ± 0.24 g/L acetic acid was achieved, the average acetification rate was enhanced to a level of 1.83 ± 0.01 g/L/h, and the vinegar stoichiometric yield was promoted to 93.97 ± 0.16%. The strategy and practice worked out from this study provided a valuable reference for performing large scale vinegar fermentation with higher strength.     

沙棘果酒酿造中优良酵母菌的筛选及鉴定

从成熟的沙棘果皮中筛选得到9株酵母茵,通过产气性能、产酒精能力和发酵力测试试验及对发酵所得的沙棘果酒的感官评价,选出R1为最佳的沙棘果酒酿酒用茵株.该茵株适合在酸度较高的沙棘果汁中进行正常的酒精发酵,起酵快、发酵能力强,发酵所得沙棘果酒品质优,而且酒体澄清透明、色泽红润,具有沙棘果酒的典型风味,适用于果酒生产以及下一步...     

Wine vinegar production using a noncommercial 100-litre bubble column reactor equipped with a novel type of dynamic sparger

This paper describes batch and semicontinuous acetic acid fermentations for wine vinegar production carried out with Acetobacter pasteurianus, and an industrial strain using a noncommercial 100-L bubble column reactor equipped with a novel type of gas-liquid dynamic sparger. Results showed acetification rates with this fermentor (i.e., an overall acetic acid productivity of 1. 8 g/L/h and yield of 94%) similar to that of the Frings acetator and higher as compared to others fermentors in current industrial use in Spanish wine vinegar factories, and a linear relationship between overall productivity and kLa with different operating conditions and fermentation scales. Copyright 1999 John Wiley & Sons, Inc.     

Complete genome sequence of NBRC 3288, a unique cellulose-nonproducing strain of Gluconacetobacter xylinus isolated from vinegar

Gluconacetobacter xylinus is involved in the industrial production of cellulose. We have determined the genome sequence of G. xylinus NBRC 3288, a cellulose-nonproducing strain. Comparative analysis of genomes of G. xylinus NBRC 3288 with those of the cellulose-producing strains clarified the genes important for cellulose production in Gluconacetobacter.     

醋酸菌耐酸机理及其群体感应研究新进展

醋酸菌(acetic acid bacteria,AAB)是一类严格好氧的革兰氏阴性细菌,因其乙醇氧化生成醋酸能力强、高耐醋酸等特性而成为食醋发酵的主要工业菌种。醋酸菌的耐酸性对于高酸度食醋生产具有重要意义。随着醋酸菌的蛋白组学及基因组学研究的深入,其糖代谢、蛋白质代谢、脂代谢及应激响应等分子机制或过程也得到更多的阐释;葡糖醋杆菌中有关群体感应系统的研究报道则为从信号通路角度探索醋酸菌的耐酸机制提供了新的思路,进而对于高耐酸醋酸菌的选育以及醋酸发酵工艺的优化具重要的参考意义。本文在简介蛋白组、基因组研究的基础上,着重综述醋酸菌群体感应的研究进展。     

Generation of antitumor active neutral medium-sized alpha-glycan in apple vinegar fermentation

The physiologically active substances in apple vinegar have not yet been chemically characterized. We studied the biological functions of apple vinegar produced from crushed apples, and found that the constituent neutral medium-sized alpha-glycan (NMalphaG) acts as an antitumor agent against experimental mouse tumors. NMalphaG is a homoglycan composed of glucose having a molecular weight of about 10,000 and a branched structure bearing alpha (1-4,6) linkages.In this study, we clarified the origin of NMalphaG in apple vinegar by examination of its content in alcohol and acetic acid fermentation products sequentially. We found that NMalphaG appeared in acetic acid fermentation, but not in alcohol fermentation. Furthermore we investigated NMalphaG origin using acetic acid fermentation from alcohol fortifiied apple without alcohol fermentation and from raw material with varying amounts of pomace. The results indicate that NMalphaG originated in the apple fruit body and that its production requires both fermentation processes.