基于高通量测序技术解析浓香型白酒中窖泥臭味物质4-甲基苯酚的来源

【目的】研究浓香型白酒中主要窖泥臭味物质4-甲基苯酚的原料来源;解析窖泥菌群结构,从中分离得到产4-甲基苯酚的菌株,以明确4-甲基苯酚的微生物来源。【方法】运用气相色谱-质谱连用(GC-MS)技术对窖泥、糖化料和大曲中的4-甲基苯酚定性定量;运用高通量测序技术解析窖泥的菌群结构,并通过可培养技术从中筛选产4-甲基苯酚的微生物。【结果】糖化料和曲粉中4-甲基苯酚含量均低于检测限。窖泥中检测到4-甲基苯酚,其中窖底窖泥4-甲基苯酚含量达到24.24μg/g。测定的窖泥菌群主要包括8个纲,其中Bacteroidia、Clostridia和Methanobacteria在上中底部窖泥中含量均高于8%,为主要优势纲。窖泥中含量在1%的属有11个,主要包括Clostridium、Aminobacterium、Methanobacterium、Methanobrevibacter等。经过分离筛选,窖泥中的Clostridium aminovalericum、Clostridium ultunense和Clostridium purinilyticum可产4-甲基苯酚,与窖泥高通量测序结果比对显示,含量都在0.20%以上。【结论】4-甲基苯酚主要来源于窖泥,窖泥微生物可代谢产生4-甲基苯酚。窖泥菌群结构复杂,窖池不同深度的菌群结构并不一致,其中Clostridia及Clostridium与4-甲基苯酚的变化规律相似,含量随深度增加而升高。从窖泥中筛选得到3株产4-甲基苯酚的菌株,3株菌都属于Clostridium。Clostridium在窖泥中的含量达到4.89%,其中筛选得到的3株菌在窖泥中的总含量接近1%,综上得出Clostridium是4-甲基苯酚的主要微生物来源。     

洋河酒窖泥细菌群落结构与菌株产酸能力分析

【背景】窖泥微生物的种类及其代谢产物类型是影响浓香型白酒发酵过程中丁酸和己酸等白酒中主要有机酸合成的影响因素之一。【目的】揭示浓香型白酒不同窖龄窖泥细菌群落结构,研究厌氧细菌产酸性能,阐明窖泥细菌与白酒中有机酸合成的相关性。【方法】通过Illumina HiSeq高通量测序,基于16S rRNA基因序列分析不同窖龄窖泥细菌的组成。分离获得厌氧细菌,通过比较菌株产丁酸和己酸能力来分析窖泥的微生物代谢特性。【结果】洋河酒窖泥细菌主要分布于梭菌纲(Clostridia)、拟杆菌纲(Bacteroidia)、互营养菌纲(Synergistia)和芽孢杆菌纲(Bacilli)。20年窖龄的窖泥中氢孢菌属(Hydrogenispora)和瘤胃梭菌属(Ruminiclostridium)丰度显著增加。窖泥细菌间相关性分析表明,瘤胃梭菌属(Ruminiclostridium)为窖泥中影响最大的核心微生物,很多微生物与梭菌属(Clostridium)菌株之间多为相互促进关系。通过传统可培养方法共分离得到梭菌目(Clostridiales)的20株厌氧菌。其中梭菌属(Clostridium)菌株产酸能力高于其他菌属,酪丁酸梭菌(Clostridium tyrobutyricum)和丁酸梭菌(Clostridium butyricum)产丁酸和己酸的能力最强。产丁酸能力最高的菌主要分离自5年和20年窖龄窖泥,产己酸能力最高的菌分离自20年窖龄窖泥。【结论】解析了浓香型白酒不同窖龄窖泥的细菌组成,并对菌株产丁酸和己酸的能力进行了比较,为揭示窖泥微生物功能及其对白酒风味物质合成的影响奠定了相关的研究基础。     

宁夏黄土高原马铃薯连作栽培对土壤可培养细菌遗传多样性的影响

采用平板培养、BOXAIR-PCR和16S rDNA RFLP技术对宁夏黄土高原马铃薯连作栽培土壤可培养细菌遗传多样性进行研究。结果表明,4个连作年限2个生育期8份土样共分离到91株细菌菌株, BOXAIR-PCR分析发现,91株细菌菌株的遗传相似系数为0.531～0.939,相同连作年限不同生育期根际土细菌菌群分布不同,不同连作年限同一生育期根际土细菌菌群的分布也不同,随着连作年限增加,可培养细菌遗传多样性呈现下降趋势;结合16S rDNA 的序列分析,从91株菌株中筛选出的41个代表菌株可分为23个物种,分属于细菌域的12个属,其中,芽孢杆菌属（Bacillus）占同一连作年限菌株数的53.6%。连作导致土壤细菌菌群结构发生变化,出现各自特有的菌属。系统发育分析表明,23个细菌物种分布于6个系统发育群。     

浓香型白酒窖泥中兼性厌氧细菌的分离鉴定

为探讨浓香型白酒窖泥中微生物区系的构成,采用传统微生物分类鉴定法,对泸州老窖不同窖龄窖底和窖壁泥样的可培养兼性厌氧细菌进行了分类计数,并初步鉴定到属。平板涂布法计数得出,老窖底样的菌落总数最多,达3.98×103cfu/g泥,新窖壁样菌落数最少,只有0.24×103cfu/g泥;经生理生化鉴定,参照伯杰氏细菌鉴定手册等将划线单离后的菌株归为8个属,其大部分属于芽孢杆菌属(Bacillus)和芽孢乳杆菌属(Sporolac-tobacillus),也存在假单胞菌属(Pseudomonas)、梭菌属(Clostridium)等。     

泸型酒酒醅与窖泥中梭菌群落结构、演替和功能差异

梭菌对泸型酒风味品质的发酵形成具有重要作用,但目前对酒醅和窖泥中梭菌群落的物种组成、发酵演替规律以及代谢功能的差异尚缺少深入认识。采用分子微生态学技术,在种水平上对比了同一窖池的酒醅和窖泥中梭菌纲细菌群落的结构差异和演替规律,并通过纯培养方法分离和评价了梭菌菌株的主要挥发性脂肪酸组成差异。结果表明,窖泥发酵过程中梭菌纲细菌和总细菌的基因拷贝数比值相对稳定(71.5%–91.2%),而酒醅中梭菌的变化则较大(0.9%–36.5%)。酒醅中优势梭菌纲细菌主要是梭菌属(Clostridium,19.9%)、沉积物菌属(Sedimentibacter,8.8%)和氢孢菌属(Hydrogenispora,7.2%),而窖泥中主要为氢孢菌属(57.2%)、沉积物菌属(5.4%)和产己酸菌属(Caproiciproducens,4.9%)。窖泥及酒醅发酵过程中梭菌群落结构差异显著(P=0.001)。分离获得的20株梭菌菌株具有不同的产挥发性脂肪酸能力。结果表明,窖池中梭菌纲细菌群落存在时空异质性,其结构和功能差异对泸型酒风味形成具有影响。     

黄海日照海域部分可培养细菌的分离、初步鉴定及产琼胶酶细菌的筛选

海洋细菌在海洋的物质与能量循环中起着非常重要的作用。为了适应复杂多变的海洋环境,海洋细菌在物种和基因方面表现出极高的丰富度。[目的] 对中国黄海日照海域部分可培养细菌进行分离、初步鉴定,同时筛选产琼胶酶菌株。[方法] 对从日照海域河流入海口和潮间带沙样和海水中分离到的73株细菌进行了16S rRNA基因序列测定,并进行序列同源性分析。同时检测了这些菌株对琼脂的降解能力。[结果] 结果显示,分离到的73株细菌属于4个门、13个科、34个属。18株细菌可能是新分类单元,其中16株为潜在新种,2株为可能的新属。73株细菌中,5株菌具有降解琼脂的能力,最高的琼胶酶活可达到2.17±0.04 U/mL,其中4株嗜琼胶属的细菌降解琼脂糖的产物均为新琼四糖。[结论] 本研究丰富了人们对黄海海域可培养细菌多样性的理解,为新物种和新酶的研究提供了基础,并为琼胶酶的提取提供了高产菌株。     

贵州兴义喀斯特洞穴土可培养细菌多样性及其产蛋白酶、淀粉酶活性筛选

【目的】进一步了解贵州喀斯特洞穴土可培养细菌的物种多样性组成及其产蛋白酶、淀粉酶生物活性能力。【方法】选取11种分离培养基,利用稀释直接涂布平板法对贵州黔西南兴义市喀斯特地区白碗窑镇魔家大溶洞洞内土壤进行可培养细菌分离;利用两种鉴定培养基对相关细菌进行生物活性判定。【结果】根据16S rRNA基因序列的系统进化分析,将分离得到的217株细菌分别归类到24个属的63个不同种类,其中红球菌属(Rhodococcus)和链霉菌属(Streptomyces)为该洞内土壤可培养细菌的优势菌群,分别占24.42%和21.66%。大多数菌株与已知典型菌株的16S rRNA基因序列相似性为97.90%-99.99%,其中至少有4株菌株(D3T01、D911、D961和D502)为潜在的新分类单元。对217株细菌进行蛋白酶和淀粉酶活性筛选,其中具有蛋白酶或淀粉酶活性的99株,占分离菌株的45.62%,分别属于18个属的38个不同种;同时具有蛋白酶和淀粉酶活性的36株,占具有酶活性菌株的36.36%,占分离菌株的16.59%。【结论】贵州兴义喀斯特洞穴土中存在丰富多样的细菌类群,且蕴藏着一定数量的潜在新物种资源;此外功能酶菌株在喀斯特洞穴土壤中大量存在,为工业应用奠定了资源基础,极具进一步发掘和研究的价值。     

九香虫(椿象)体内可培养细菌的多样性分析

【目的】认识药用昆虫九香虫(Aspongopus chinesis Dallas)成虫体内可培养细菌资源多样性。【方法】运用纯培养法、反转录重复因子扩增(BOXA1R-PCR)分析技术、16S r RNA基因测序和系统发育分析对样品中可培养细菌进行多样性研究,测定了分离菌株的抗菌特性、吲哚乙酸(IAA)含量和产淀粉酶活性等指标。【结果】通过6种不同培养基共分离得到52株菌落特征不同的细菌菌株。基于菌落特征和BOXA1R-PCR图谱选取12株代表菌株用于16S r RNA基因序列测定。16S r RNA基因序列系统发育分析显示,52株菌株分属于芽孢杆菌属(Bacillus)、假单胞菌属(Pseudomonas)、寡养单胞菌属(Stenotrophomonas)和伯克霍尔德氏菌属(Burkholderia)4个属,其中芽孢杆菌属(Bacillus)为优势菌属。分离到的52株细菌有44株(占总分离菌株的84.6%)表现出对供试病原菌具有较好的抑制作用,高达94.2%的分离菌株能产IAA,有43株(占总分离菌株的82.7%)表现出淀粉酶活性。【结论】九香虫内细菌种群较为多样,具有潜在应用价值。     

西南地区高山湖泊中可培养细菌多样性及其所产胞外活性物质的特性

【目的】研究西南不同地区的高山湖泊中可培养细菌的多样性及其产胞外蛋白酶、纤维素酶和胞外多糖的能力。【方法】以西南4个不同地区的高山湖泊:雷波的马湖(LB)、中缅边境的凯邦亚湖(ZM)、沙德的莲花湖(SD)、腾冲的青海湖(TC)的水样为研究对象,利用稀释涂布平板方法对可培养细菌进行分离筛选,然后通过对可培养细菌的生理生化指标和16S r RNA基因序列进行分析,初步确定细菌属别;对分离得到的菌株进行产胞外蛋白酶和纤维素酶活性测定和产胞外多糖能力检测。【结果】从西南地区4个湖泊中共分离筛选得到41株细菌,其中LB 15株、ZM 13株、SD 7株、TC 6株。根据16S r RNA基因序列的系统进化分析,4个地区可培养细菌的组成和丰度存在明显差异,其中LB和ZM的优势菌属是芽孢杆菌属(Bacillus),其次是气单胞菌属(Aeromonas)和假单胞菌属(Pseudomonas),分离的TC菌株全部属于芽孢杆菌属(Bacillus),分离的SD菌株特异性较强。进一步酶活性和胞外多糖检测表明,分离得到的41株细菌中有28株菌的发酵产物具有蛋白酶活性,6株具有纤维素酶活性,17株可产胞外多糖(Exopolysaccharides,EPS)。其中有2株细菌同时产蛋白酶、纤维素酶和胞外多糖,10株细菌同时产蛋白酶和胞外多糖,2株细菌同时产蛋白酶和纤维素酶,1株细菌同时产纤维素酶和胞外多糖。【结论】西南4个高山湖泊中存在丰富的微生物菌种资源,且4个湖泊中筛选的可培养细菌受所处环境的影响大。其中莲花湖由于高海拔和较偏僻等特点,人为干扰小,分离得到的细菌类群与其他湖泊相比明显不同;而马湖、凯邦亚湖和青海湖3个湖泊的海拔相对较低,受人类活动影响较大,分离得到的细菌均较常见。此外高山湖泊中的可培养细菌具有分泌多种胞外活性物质特性,为工业化应用奠定了资源基础,极具更深入的开发和研究价值。     

青藏高原察尔汗盐湖地区可培养中度嗜盐菌的群落结构与多样性

【目的】研究青海察尔汗盐湖地区的可培养中度嗜盐菌的群落结构及多样性。【方法】采用多种选择性培养基进行中度嗜盐菌的分离、培养;通过16S r RNA基因序列扩增、测定,根据序列信息,进行系统进化树构建、群落结构组成分析及多样性指数计算。【结果】从察尔汗盐湖卤水及湖泥中分离到中度嗜盐菌421株,合并重复菌株后共83株中度嗜盐菌。菌株16S rRNA基因序列信息显示,4株中度嗜盐菌为潜在的新分类单元。83株嗜盐细菌分布于3个门的6个科16个属。其中,Bacillus属、Oceanobacillus属和Halomonas属为优势属。多样性结果显示,水样中的菌株多样性高于泥样,而泥样中的菌株优势度高于水样。【结论】察尔汗盐湖中度嗜盐菌具有丰富的遗传多样性,种群种类丰富,优势菌群集中,该盐湖地区存在可分离培养的中度嗜盐菌的疑似新物种。     

Improvement of ethanol production of themophilic Clostridium sp. by Mutation

Three thermophilic Clostridium strains were isolated from soil as cellulose-fermenting bacteria wich produced ethanol, lactic acid, and acetic acid from cellulose at 60°C. To increase ethanol productivity, strains no. 187 was mutated with N-methyl-N′-nitro-N-nitrosguanidine. The resultant mutant, no 187-102-27, was superior to the original strain in ethanol production, and produced less lactic and acetic acid. The activities of some enzymes involved in the biosynthesis of the lactic and acetic acid of mutant no. 187-102-27 were lower than those of the original strain. These results are highly consistent with the acid production of the mutant strain being low.     

Dermal bioactives from lactobacilli and bifidobacteria

Lactobacilli and bifidobacteria are the most common genera of probiotics with documented potentials on gut health. Recent studies have suggested that such potentials can be extended beyond gut well-being, such as that of dermal health. Our present study aimed to evaluate the production of bioactives that are essential for skin defense, such as lipoteichoic acid, peptidoglycan, hyaluronic acid, sphingomyelinase, lactic acid, acetic acid, and diacetyl, from lactobacilli and bifidobacteria grown in milk. All strains studied showed the presence of LTA in the cell wall fraction, with higher amounts from Lactobacillus rhamnosus FTDC 8313 and Bifidobacterium longum BL 8643 than other strains studied. Meanwhile, all strains studied showed equal concentrations of cell wall peptidoglycan. Our results showed that all strains studied were capable of producing hyaluronic acid, with higher production by lactobacilli than bifidobacteria. Production of diacetyl was more prevalent from strains of lactobacilli, while bifidobacteria produced higher amounts of acetic acid. Strains of lactobacilli and bifidobacteria studied also produced acid and neutral sphingomyelinase, an enzyme that generates ceramides and subsequent development of physical barriers in the stratum corneum. Our current findings show that bioactive and inhibitive extracts are produced from the fermentation of lactobacilli and bifidobacteria in milk, with potentials for dermal applications.     

Quantitative gas chromatography of Bacteroides species under different growth conditions

From 56 strains of strictly anaerobic gram-negative rods isolated from stool and purulent lesions the fermentation products in the presence and absence of hemin were determined by quantitative gas-solid chromatography, using a simple and more rapid chromatographic procedure. With hemin the fermentation products were propionic, acetic, lactic and succinic acid. Without hemin no or little succinic acid was formed and the main products were lactic and acetic acid. In both groups the distribution of subspecies was determined and the production of fatty acids measured quantitatively.Fourteen strains of the lesion group showed a higher metabolic activity, resulting in an increased total acid production caused by an excessive production of acetic and lactic acid. This characteristic is probably a virulence factor in these strains.All strains were protoporphyrin- and oxgall-dependent. It is postulated that these substances are used for the production of cytochromes which permits the formation of succinic acid by a fumarate reductase resulting in an increased growth rate and growth yield.     

Isolation and characterization of fructophilic lactic acid bacteria from fructose-rich niches

Fourteen strains of fructophilic lactic acid bacteria were isolated from fructose-rich niches, flowers, and fruits. Phylogenetic analysis and BLAST analysis of 16S rDNA sequences identified six strains as Lactobacillus kunkeei, four as Fructobacillus pseudoficulneus, and one as Fructobacillus fructosus. The remaining three strains grouped within the Lactobacillus buchneri phylogenetic subcluster, but shared low sequence similarities to other known Lactobacillus spp. The fructophilic strains fermented only a few carbohydrates and fermented d-fructose faster than d-glucose. Based on the growth characteristics, the 14 isolates were divided into two groups. Strains in the first group containing L. kunkeei, F. fructosus, and F. pseudoficulneus grew well on d-fructose and on d-glucose with pyruvate or oxygen as external electron acceptors, but poorly on d-glucose without the electron acceptors. Strains in this group were classified as “obligately” fructophilic lactic acid bacteria. The second group contained three unidentified strains of Lactobacillus that grew well on d-fructose and on d-glucose with the electron acceptors. These strains grew on d-glucose without the electron acceptors, but at a delayed rate. Strains in this group were classified as facultatively fructophilic lactic acid bacteria. All fructophilic isolates were heterofermentative lactic acid bacteria, but “obligately” fructophilic lactic acid bacteria mainly produced lactic acid and acetic acid and very little ethanol from d-glucose. Facultatively fructophilic strains produced lactic acid, acetic acid and ethanol, but at a ratio different from that recorded for heterofermentative lactic acid bacteria. These unique characteristics may have been obtained through adaptation to the habitat.     

Effects of acetic acid and lactic acid on the growth of Saccharomyces cerevisiae in a minimal medium

Specific growth rates (μ) of two strains of Saccharomyces cerevisiae decreased exponentially (R ²>0.9) as the concentrations of acetic acid or lactic acid were increased in minimal media at 30°C. Moreover, the length of the lag phase of each growth curve (h) increased exponentially as increasing concentrations of acetic or lactic acid were added to the media. The minimum inhibitory concentration (MIC) of acetic acid for yeast growth was 0.6% w/v (100 mM) and that of lactic acid was 2.5% w/v (278 mM) for both strains of yeast. However, acetic acid at concentrations as low as 0.05–0.1% w/v and lactic acid at concentrations of 0.2–0.8% w/v begin to stress the yeasts as seen by reduced growth rates and decreased rates of glucose consumption and ethanol production as the concentration of acetic or lactic acid in the media was raised. In the presence of increasing acetic acid, all the glucose in the medium was eventually consumed even though the rates of consumption differed. However, this was not observed in the presence of increasing lactic acid where glucose consumption was extremely protracted even at a concentration of 0.6% w/v (66 mM). A response surface central composite design was used to evaluate the interaction between acetic and lactic acids on the specific growth rate of both yeast strains at 30C. The data were analysed using the General Linear Models (GLM) procedure. From the analysis, the interaction between acetic acid and lactic acid was statistically significant (P≤0.001), i.e., the inhibitory effect of the two acids present together in a medium is highly synergistic. Journal of Industrial Microbiology & Biotechnology (2001) 26, 171–177. Received 06 June 2000/ Accepted in revised form 21 September 2000     

A survey of lactic acid bacteria in Italian silage

G razia , L. & S uzzi , G. 1984. A survey of lactic acid bacteria in Italian silage. Journal of Applied Bacteriology 56 , 373–379.
Lactic acid bacteria, isolated from Italian ensiled products, were represented by strains of the genera Lactobacillus and Leuconostoc . The predominant strains were heterofermentative lactobacilli, with Lactobacillus buchneri being the most frequent. Among homofermentative lactic acid bacteria, strains of Lact. plantarum and Lact. casei were recovered. Almost all strains utilized malic acid and showed good acid-tolerance, but only some of them were able to metabolize malic acid at extremely low pH; these were five homofermentative lactobacilli (4 Lact. plantarum and 1 Lacr. casei var. casei ) and two heterofermentative lactobacilli ( Lact. cellobiosus and Lactobacillus sp.).     

Inhibition of enterobacteria and Listeria growth by lactic, acetic and formic acids

Minimum inhibitory concentrations (MIC) of undissociated lactic, acetic and formic acids were evaluated for 23 strains of enterobacteria and two of Listeria monocytogenes. The evaluation was performed aerobically and anaerobically in a liquid test system at pH intervals of between 4.2 and 5.4. Growth of the enterobacteria was inhibited at 2–11 mmol 1⁻¹, 0.5–14 mmol 1⁻¹ and 0.1–1.5 mmol 1⁻¹ of undissociated lactic, acetic and formic acids, respectively. The MIC value was slightly lower with anaerobic conditions compared with aerobic conditions. The influence of protons on the inhibition was observed for acetic acid at the low pH values. Undissociated lactic acid was 2 to 5 times more efficient in inhibiting L. monocytogenes than enterobacteria. Acetic acid had a similar inhibitory action on L. monocytogenes compared with enterobacteria. Inorganic acid (HCl) inhibited most enterobacteria at pH 4.0; some strains, however, were able to initiate growth to pH 3.8. The results indicate that the values of undissociated acid which occur in a silage of pH 4.1–4.5 are about 10–100 times higher than required in order to protect the forage from the growth of enterobacteria and L. monocytogenes.     

Lactic fermentation during the storage of 'Alorena' cultivar untreated green table olives

The development of lactic fermentation processes for the storage of directly brined olives (Aloreña cultivar) was investigated by three procedures: (1) a modification of the traditional method with an initial brine containing 9% (w/v) NaCl and 0.2% (w/v) acetic acid; (2) induced lactic fermentation with 6% NaCl and 0.2% acetic acid; and (3) conservation in acidified brine containing 6% NaCl and 0.6% acetic acid. In all cases, strains of Lactobacillus plantarum and Pediococcus spp. were present in each, indicating the great tolerance of these micro-organisms to high levels of lactic and acetic acids. They also appeared in an altered sequence. Counts of Pediococcus remained moderate (higher than Lact. plantarum ) throughout the last part of the preservation period. A commercial starter improved colonization by Lact. plantarum. Yeasts coexisted with the lactic bacteria throughout the preservation period although their importance in the fermentation process was very limited. The brine characteristics obtained after fermentation were suitable for assured product preservation. There was no spoilage. These results encourage research on the mechanism of lactic acid bacteria inhibition in brines and the development of lactic fermentation processes for directly brined olives from other olive cultivars.