多粮浓香型白酒中特征酵母菌与耐酸乳杆菌的关系

【背景】多菌种协同代谢是浓香型白酒发酵的根本特征之一。【目的】探究多粮浓香型白酒发酵过程中功能微生物菌株间的相互协作关系,为实现发酵过程优化提供理论基础。【方法】采用传统分离培养法获得了多粮浓香型白酒发酵过程中的特征酵母菌和耐酸乳杆菌,并探讨了共培养过程中菌株的相互关系以及主要挥发性代谢产物的变化。【结果】共分离到3株优势特征性酵母菌(KazachstaniahumilisZ1、PichiakudriavzeviiZ2、CandidaethanolicaZ3)和1株耐酸乳杆菌(Lactobacillus acetotolerans W)。K. humilis Z1和L. acetotolerans W共培养体系中耐酸乳杆菌数量明显少于纯培养L. acetotolerans W的菌体数量;3株酵母菌均一定程度抑制L. acetotolerans W产乳酸,K. humilis Z1能抑制L. acetotolerans W不产乳酸;K. humilis Z1纯培养与Z1W共培养体系的挥发性代谢产物的构成相似;纯培养P. kudriavzevii Z2与Z2W共培养体系的挥发性代谢产物差异明显,主要表现为共培养时乙酸乙酯和乳酸乙酯含量显著增加。【结论】在共培养体系条件下,产乙醇酵母菌对耐酸乳杆菌的乳酸代谢有抑制作用,而耐酸乳杆菌又对酵母菌的乙醇代谢有一定影响,这对多粮浓香型白酒品质调控和菌群间相互关系具有重要意义。     

一株食醋污染菌CICC 10774 的鉴定及其生长代谢特性

【目的】对食醋污染菌CICC 10774进行多相分类学鉴定,并对其生长特征和代谢产物进行研究。【方法】通过16S r RNA基因序列系统发育学分析,结合形态特征和生理生化特性确定该菌株的分类学地位。通过分光光度法测定菌株生长的最适温度和最适p H值,确定其最佳培养条件。采用HPLC测定该菌株代谢产物。【结果】多相鉴定分析表明菌株CICC 10774为耐酸乳杆菌(Lactobacillus acetotolerans),革兰氏染色呈阳性,兼性厌氧生长,具有明胶酶活性,能够利用葡萄糖、果糖、甘露糖、N-乙酰葡萄糖胺、熊果苷、七叶灵、水杨苷、纤维二糖、海藻糖和龙胆二糖作为碳源底物生长。生长代谢特性研究表明,CICC 10774的最适生长温度为37°C,最适p H值为5.0,代谢产物主要为醋酸和乳酸,是一株典型的耐酸菌。【结论】对引起食醋污染的耐酸乳杆菌CICC 10774生长代谢特征进行了研究,为食醋生产企业生产过程的微生物控制提供理论基础。     

一株高ACE抑制活性乳杆菌的筛选鉴定、培养条件优化及其基因组分析

【背景】乳杆菌是人体肠道益生菌,其发酵乳中可检测到血管紧张素转换酶(Angiotensin converting enzyme,ACE)抑制肽。海洋蕴藏着丰富的微生物种质资源,分布着大量的乳杆菌。【目的】从高通量测序结果中发现渤海沉积物中分布着乳杆菌资源。为了进一步开发具有ACE抑制活性的海洋乳杆菌资源,提高乳杆菌发酵乳的ACE抑制活性,筛选瑞士乳杆菌(Lactobacillus helveticus)并对其特性进行研究。【方法】采用高通量测序技术从渤海沉积物中检测乳杆菌,并对其进行富集分离,对筛选出的乳杆菌进行16S rRNA基因鉴定和全基因组测序分析,测定该菌发酵乳的ACE抑制活性,并采用正交实验优化发酵条件。【结果】渤海沉积物中含有乳杆菌并成功筛选出一株瑞士乳杆菌GY-3,其发酵乳具有较高的ACE抑制活性。该菌在发酵温度37°C,接种量3%,且在脱脂乳培养基中添加1.0%葡萄糖,0.6%大豆蛋白胨,1.0%酵母浸粉,0.04%MnSO_4·4H_2O时,抑制活性最高,可达79.52%。通过对该菌基因组进行测序研究,发现其产ACE抑制肽涉及蛋白酶系统、多肽转运系统和肽酶系统。【结论】为扩大海洋源产ACE抑制肽的乳杆菌种质资源、开发高产ACE抑制活性的发酵菌株奠定了基础,进一步研究了如何提高乳杆菌产ACE抑制肽的水平,并对其基因组进行了研究,为今后生物学特性和ACE抑制活性机理的研究奠定了基础,并对降血压相关产品的开发具有重要意义。     

抗生素和高脂饮食对大鼠肠道乳杆菌多样性的影响

【目的】对正常、高脂、抗生素处理大鼠肠道内乳杆菌进行定性和定量分析,比较不同处理组大鼠肠道乳杆菌的多样性。【方法】应用纯培养和非培养技术(16S r RNA基因序列分析、变性梯度凝胶电泳、实时荧光定量PCR)对大鼠肠道乳杆菌进行分离鉴定和多样性分析。【结果】16S r RNA基因序列同源性分析结果显示,正常组大鼠肠道内分离出的乳杆菌包括约氏乳杆菌(Lactobacillus johnsonii)、鼠乳杆菌(Lactobacillus murinus)、嗜酸乳杆菌(Lactobacillus acidophilus)、罗伊氏乳杆菌(Lactobacillus reuteri)、植物乳杆菌(Lactobacillus plantarum)、肠道乳杆菌(Lactobacillus intestinals)、动物乳杆菌(Lactobacillus animalis)和阴道乳杆菌(Lactobacillus vaginalis);但L.animalis在高脂处理组大鼠肠道内未分离到,L.intestinals和L.vaginalis在抗生素处理组大鼠中未分离到。DGGE结果显示3个组别大鼠肠道中乳杆菌构成差异明显,同一组内样品间相似性较高;相较于正常组和高脂组,抗生素组的丰度较差;且正常组大鼠肠道内乳杆菌的多样性高于高脂组和抗生素组。q-PCR结果显示正常组大鼠肠道乳杆菌的数量明显高于高脂组和抗生素组,高脂组的数量也明显高于抗生素组,且3个组别之间存在显著差异(P0.01)。【结论】高脂饮食及抗生素的使用会减少肠道内乳杆菌多样性。     

基于比较基因组学解析耐酸乳杆菌G10的多碳源利用特征

【背景】耐酸乳杆菌（Lactobacillus acetotolerans）是白酒发酵过程中的优势乳酸菌,对白酒发酵具有重要作用。L. acetotolerans G10是分离自芝麻香型白酒发酵酒醅的一株能够利用多种碳源的菌株。【目的】基于全基因组测序,解析菌株G10多碳源利用机制。【方法】通过三代测序平台Oxford Nanopore完成菌株G10全基因组测序,分别利用Circlator和Prodigal对测序数据进行组装和基因预测;通过细菌基因组分析工具（bacterial pan genome analysis tool,BPGA）进行泛基因组分析。【结果】G10能够利用22种糖类及糖类衍生物,其全基因组大小为1 627 828 bp,含有1 878个编码基因;基于Koyto Encyclopedia of Genes and Genomes （KEGG）数据库注释获得292个碳源代谢相关基因,基于Carbohydrate-Active Enzymes （CAZy）数据库注释获得44个CAZy家族的编码基因。与其他发酵食品来源的耐酸乳杆菌相比,G10基因组最小,但其总基因数量以及...     

环境胁迫和非胁迫条件下类植物乳杆菌转录组分析

【背景】类植物乳杆菌L-ZS9是一株在食品发酵与保鲜方面具有潜在应用价值的产细菌素益生菌。【目的】深入了解环境胁迫影响类植物乳杆菌L-ZS9细菌素合成的重要相关调节基因的信息。【方法】通过高通量测序技术对类植物乳杆菌转录组进行测序,对所有转录本进行COG(Clusters of Orthologous Groups)、GO(Gene Ontology)和KEGG(Kyoto Encyclopedia of Genes and Genomes)分类和Pathway注释。【结果】转录组测序显示2个样品基因覆盖度都在90%以上,差异表达基因927个,其中744个上调,183个下调。KEGG分析结果表明,649个差异表达基因中68个集中在"ABC转运途径",占10.48%,其中3个基因表达上调超过16倍,1个基因表达下调超过1/16,暗示类植物乳杆菌L-ZS9细菌素合成与"ABC转运途径"密切相关。另外多个孤儿基因表达变化也超过16倍,有的甚至表达上调达万倍。【结论】进一步拓展了类植物乳杆菌的基因信息,为类植物乳杆菌细菌素代谢途径和逆境反应研究提供了坚实的基础。     

不同分离源植物乳杆菌的群体基因组分析

【背景】植物乳杆菌(Lactobacillus plantarum)广泛存在于植物、乳制品、肉制品、哺乳动物和昆虫的肠道等多种生态环境中。【目的】探究不同分离源L. plantarum基因组与其所在环境是否存在潜在的联系。【方法】利用比较基因组学对126株分离自植物、乳制品、肉制品、果蝇及哺乳动物肠道和口腔等部位的L. plantarum菌株基因组进行系统发育分析和功能基因组分析,解析不同分离源菌株间的亲缘关系和进化历程。【结果】果蝇分离株的基因组大小显著高于植物、哺乳动物肠道、肉制品和乳制品分离株(P0.05),植物和哺乳动物肠道、口腔等部位与肉制品分离株的基因组大小和编码基因数量无显著差异(P0.05)。基于单拷贝基因串联和核心基因系统发育树分析均发现,果蝇分离株和乳制品分离株分别集中聚集分布在某一分支中,其余分离源均匀分布在各个分支中。附属基因分析结果与系统发育树分析结果一致。功能基因注释结果发现,果蝇分离株的环境特异性基因参与低聚果糖和几丁质代谢,乳制品分离株的环境特异性基因参与mazEF毒素-抗毒素系统和CRISPR系统。【结论】植物乳杆菌分离株为适应较为独特的果蝇和乳制品生境而发生了适应性进化。本研究为植物乳杆菌适应性进化提供了新见解,同时为解析菌株的进化历程提供了理论基础。     

短乳杆菌与植物乳杆菌的发酵特性

【背景】目前对于酸菜发酵的研究主要关注点是植物乳杆菌(Lactobacillus plantarum),有关短乳杆菌(Lactobacillus brevis)在酸菜方面的研究报道很少。【目的】为了挖掘短乳杆菌的发酵性能并开发酸菜发酵剂,将2株短乳杆菌分别与1株植物乳杆菌进行组合并发酵酸菜,分析短乳杆菌对酸菜发酵品质的影响。【方法】分别测定短乳杆菌与植物乳杆菌的单菌株生长产酸性能、耐酸性及亚硝酸盐降解力,并将两菌种组合后发酵酸菜,分析1-7d内酸度、乳酸菌活菌数、亚硝酸盐含量及酸菜质构特性的变化趋势。【结果】相较于短乳杆菌Lb-9-2,短乳杆菌Lb-5-3的生长和产酸速率较慢、酸耐受力较弱,但其亚硝酸盐降解力较强。两株短乳杆菌分别与植物乳杆菌Lp-9-1组合后产酸力显著增强,并在3 d时达到最低pH值(约3.10);植物乳杆菌Lp-9-1的添加使酸菜中总体乳酸菌生长延迟,在5 d时达到最高活菌数;组合菌种的样品中亚硝酸盐含量在1-7 d内变化较为平缓,前5天内两个组合之间差异不显著;接种乳酸菌会降低酸菜硬度和弹性,发酵3d时Lb-5-3/Lp-9-1组合的硬度最大,感官评价得分最高。【...     

芝麻香型白酒微生物多样性及其与胁迫因子相关性

【背景】近年来芝麻香型白酒的生产工艺日臻成熟,然而相应的科学研究却没有同步发展起来。高通量测序技术越来越多地应用于物种多样性的研究,但偏重于研究物种的相对丰度,没有关注物种的生物数量。【目的】深度解析芝麻香型白酒发酵过程微生物群落结构变化及其与胁迫因子相关性,并研究主要酵母菌与细菌的相关性,为揭示芝麻香型白酒发酵机理和控制发酵质量提供理论支撑。【方法】使用Thermofisher的Ion S5~(TM)XL测序平台进行16S rDNA和ITS rDNA扩增子高通量测序,结合微生物传统的定量方法,测定芝麻香型白酒发酵过程微生物群落结构的变化,同时监测发酵过程乳酸、乙酸、乙醇的含量变化,通过样品复杂度分析、多样品比较分析、环境因子关联性分析探究发酵过程微生物群落及其与胁迫因子的关系。通过Pearson相关性分析酵母菌与细菌的相关性。【结果】发酵前期纤维素菌、魏斯氏菌和芽孢杆菌占主要优势,发酵中后期乳杆菌占绝对优势,其次是纤维素菌、魏斯氏菌和芽孢杆菌。整个发酵过程伊萨酵母占绝对优势,其次是维克霉菌、酿酒酵母、假丝酵母。大部分微生物与胁迫因子呈负相关,只有乳杆菌与乙酸呈极显著性正相关。酵母菌与部分细菌呈正相关性。【结论】白酒发酵过程胁迫因子和微生物间的相互作用促进了群落演替过程,发酵后期乳杆菌和芽孢杆菌发酵产酸抑制了大部分不耐酸菌,有机酸是影响群落结构变化的主要胁迫因子。微生物数量结合相对丰度揭示了发酵过程群落结构演替及其与环境因子相关性的更多信息。     

乳杆菌在模拟肉制品条件下结合苯并芘的效果

【背景】乳杆菌对众多致癌物具有吸附作用,但关于乳杆菌结合吸附苯并芘特性的研究并不多。【目的】探讨戊糖乳杆菌(Lactobacillus pentosus) ML32和植物乳杆菌(Lactobacillus plantarum)121对加工肉制品中苯并芘的吸附能力与吸附机制。【方法】基于HPLC检测菌体对不同模拟加工处理方式肉品中的苯并芘的吸附率。【结果】植物乳杆菌121和戊糖乳杆菌ML32对模拟油炸、烟熏或烧烤方式处理肉中苯并芘的吸附率均在30%以上。菌株121对直接烟熏肉中的苯并芘吸附率为41.21%,直接油炸肉中吸附率为38.71%,直接烧烤肉中吸附率为37.51%;菌株ML32对间接烟熏肉中的苯并芘吸附率为40.02%,间接烧烤肉中吸附率为38.01%。植物乳杆菌121适合于去除高温长时间加工肉中的苯并芘,戊糖乳杆菌ML32则相反。另外,乳杆菌细胞壁中的肽聚糖或许在吸附过程中发挥了主要作用。【结论】两株乳杆菌121和ML32具有吸附某些加工肉制品中苯并芘的效果,或许可以作为一种方法用于消除某些肉制品中因苯并芘过量带来的风险。     

Antimicrobial Characteristics of Chitosans against Food Spoilage Microorganisms in Liquid Media and Mayonnaise

Four different kinds of chitosans were prepared by treating crude chitin with various NaOH concentrations. The antimicrobial activities of the chitosans were tested against four species of food spoilage microorganisms (Lactobacillus plantarum, Lactobacillus fructivorans, Serratia liquefaciens, and Zygosaccharomyces bailii). The initial effect of the chitosans was biocidal, and counts of viable cells were significantly reduced. After an extended lag phase, some strains recovered and resumed growth. The activities of chitosan against these microorganisms increased with the concentration. Chitosan-50 was most effective against L. fructivorans, but inhibition of L. plantarum was greatest with chitosan-55. There was no significant difference among the chitosans in their antimicrobial activity against S. liquefaciens and Z. bailii. The addition of chitosan to mayonnaise significantly decreased the viable cell counts of L. fructivorans and Z. bailii during storage at 25°C. These results suggest that chitosan can be used as a food preservative to inhibit the growth of spoilage microorganisms in mayonnaise.     

Antimicrobial characteristics of chitosans against food spoilage microorganisms in liquid media and mayonnaise.

Four different kinds of chitosans were prepared by treating crude chitin with various NaOH concentrations. The antimicrobial activities of the chitosans were tested against four species of food spoilage microorganisms (Lactobacillus plantarum, Lactobacillus fructivorans, Serratia liquefaciens, and Zygosaccharomyces bailii). The initial effect of the chitosans was biocidal, and counts of viable cells were significantly reduced. After an extended lag phase, some strains recovered and resumed growth. The activities of chitosan against these microorganisms increased with the concentration. Chitosan-50 was most effective against L. fructivorans, but inhibition of L. plantarum was greatest with chitosan-55. There was no significant difference among the chitosans in their antimicrobial activity against S. liquefaciens and Z. bailii. The addition of chitosan to mayonnaise significantly decreased the viable cell counts of L. fructivorans and Z. bailii during storage at 25 degrees C. These results suggest that chitosan can be used as a food preservative to inhibit the growth of spoilage microorganisms in mayonnaise.     

短乳杆菌2-34中瓜氨酸转运蛋白的鉴定

【背景】从黄酒发酵液中分离的短乳杆菌2-34具有重吸收瓜氨酸的能力,可用于降低黄酒中的瓜氨酸从而减少氨基甲酸乙酯的形成,然而瓜氨酸重吸收机制的不明确阻碍了该菌的合理利用。【目的】通过确定短乳杆菌2-34中的瓜氨酸转运蛋白编码基因,为其在黄酒中的利用提供理论依据。【方法】以pRSFDuet-1和pETDuet-1为表达载体,通过多顺反子串联表达系统及双质粒表达系统,在大肠杆菌C43(DE3)中表达短乳杆菌2-34精氨酸脱亚胺途径中瓜氨酸代谢相关蛋白:精氨酸降解酶ArcD和ADI、瓜氨酸降解酶OTC及膜蛋白DcuC和AO antiporter。【结果】重组表达大肠杆菌发酵过程中可利用精氨酸形成瓜氨酸,但表达了膜蛋白DcuC和AO antiporter的重组菌发酵液中瓜氨酸含量较低。【结论】短乳杆菌2-34中DcuC和AOantiporter均具有吸收瓜氨酸的功能,且DcuC活性更高。     

Comparison of partial tuf gene sequences for the identification of lactobacilli

Comparative analysis of partial tuf sequences was evaluated for the identification and differentiation of lactobacilli. Comparison of the amino acid sequences allowed differentiation between species and also between the subspecies of Lactobacillus delbrueckii. The nucleotide sequence comparison allowed differentiation between other subspecies and between some strains. Lactobacilli from several collections and isolates from dairy samples were clearly identified by comparison of short tuf sequences with those of the type strains. In evaluating the taxonomy of the Lactobacillus casei-related taxa, different tuf amino acid signatures are in favour of a classification into three distinct species. The type strain designation for the L. casei species is discussed.     

Phenotypic and genotypic characteristics of lactic acid bacteria isolated from sour congee in Inner Mongolia of China

Sour congee is a popular food in the western regions of Inner Mongolia in China. It has a complex microbial population, which contributes to its unique flavor and functional properties. In this study, we chose 28 sour congee samples that were collected from different areas in Inner Mongolia for analysis of the microbial community of lactic acid bacteria (LAB) by classical biochemical tests, 16S rRNA gene sequencing, multiplex PCR assay of recA gene and restriction fragment length polymorphism (RFLP) analysis of the tuf gene (encoding elongation factor Tu). The results revealed that all the isolates were identified as Lactobacillus (L.) paracasei (38 strains), L. fermentum (28 strains), L. plantarum (7 strains), L. brevis (4 strains), L. reuteri (2 strains), L. amylolyticus (1 strain), Enterococcus (E.) faecalis (3 strains), E. italicus (2 strains) or Lactococcus lactis subsp. lactis (1 strain). The predominant LAB were L. casei and L. fermentum in sour congee samples. The diversity of LAB derived from sour congee could offer useful information for further research on sour congee, and the results demonstrated that the combination of tuf gene and RFLP patterns can be considered as a useful tool for differentiation of the L. casei group.     

代表性差异分析比较两株来自不同地区的猪源Lactobacillus菌株

[目的]对分离自猪肠道的乳酸杆菌S1菌株进行鉴定,并比较该菌株与同种的001T菌株的基因差异.[方法]对S1菌株进行16S rRNA基因序列分析和种特异PCR检测,并且对S1菌株和Lactobacillus sobrius 001T进行代表性差异分析(Representational difference analysis,RDA).[结果]16S rRNA基因序列分析表明,与S1菌株最相似的已知菌为L.sobrius.变性梯度凝胶电泳分析显示,仔猪空、回肠细菌图谱中有一与S1菌株有相同迁移位置的优势条带,克隆、测序鉴定表明,与该条带相匹配的16S rRNA基因克隆(Clone S)的最相似已知菌也为L.sobrius.16S rRNA基因系统进化分析表明,S1菌株与Clone S和L.sobrius 16S rRNA基因序列同源性分别为99.8%和99.6%.L.sobrius特异性引物也可以扩增S1株菌的16S rRNA基因的特定片段.因此S1菌株可被确定为Lsobrius.RDA对菌株S1和同种的猪源L.sobrius 001T菌株的基因差异进行分析,未发现这两株菌的基因组差异.[结论]猪肠道乳杆酸菌S1菌株属于L.sobrius,其与猪源L sobrius 001T菌株为相似菌株.     

Lactobacilli Causing Spoilage of Acetic Acid Preserves

Twentyseven cultures of lactobacilli, isolated from 27 packs of spoiled vinegar preserves, which originated from 21 manufacturers and included 12 varieties of product, were examined according to the system of Rogosa & Sharpe and by other tests. One culture conformed to the characteristics of Lactobacillus casei var. casei ; 2 cultures to those of L. brevis ; 4 cultures to those of L. buchneri ; and 20 to those of L. fructivorans. On the basis of the results and an examination of the literature it is suggested that L. trichodes is a synonym of L. fructivorans.