模拟人体胃肠道环境筛选益生乳杆菌

【目的】筛选具有益生特性的乳杆菌作为保健型酸奶的候选菌株。【方法】从健康人肠道和奶豆腐中分离筛选出耐受人工胃液的乳杆菌,对其进行体外益生特性(人工胃肠液耐受性、胆盐耐受性、抑菌活性及胆固醇降解能力)研究。【结果】从在乳杆菌分离培养基上有溶钙圈的41株菌株中筛选出5株耐酸、耐人工胃液较强的菌株,经16S rR NA基因测序鉴定,其中3株为乳杆菌,分别命名为植物乳杆菌Lp MT-3、植物乳杆菌Lp MT-5和唾液乳杆菌LsA F-7。在人工胃液中3株菌的耐受力均强于商品化的对照菌株LGG(鼠李糖乳杆菌GG);转入肠液4 h后直至26 h,Lp MT-5存活率基本稳定在45%左右,仅次于LGG。胆盐浓度为0.10%时,3株乳杆菌的耐胆盐能力均强于LGG;胆盐浓度为0.20%时,Lp MT-3和LsA F-7仍能存活。3株乳杆菌均具有抑菌活性,对粪肠球菌的抑制最明显,其次是金黄色葡萄球菌,对大肠杆菌、沙门氏菌的抑制作用较差。3株乳杆菌对胆固醇的清除效力依次为Lp MT-3LpM T-5Ls AF-7;清除率依次为Ls AF-7Lp MT-3LpM T-5。【结论】筛选出3株适应人体胃肠液环境、耐胆盐、抑菌及降胆固醇活力强的乳杆菌,可作为进一步开发新的益生菌产品和保健型酸奶的菌株。     

一株广谱抑菌活性乳酸菌的筛选及特性研究

【目的】从贵州剑河采集的传统自然发酵豆酱中分离筛选具有广谱抑菌效果的乳酸菌,并进行肠道益生特性的研究。【方法】通过抑菌试验分离筛选得到菌株DJ-04,对其进行人工胃肠液耐受性、胆盐耐受性和渗透压耐受性的研究,并对其进行生理生化鉴定和16S r RNA鉴定。【结果】菌株DJ-04对大肠杆菌、沙门氏菌、金黄色葡萄球菌、志贺氏菌和铜绿假单胞菌的生长有很好的抑制作用;在p H值为2.5的人工胃液中处理3 h活菌数达到107 CFU/m L以上;在人工肠液中处理3 h活菌数达到108 CFU/m L以上,对人工胃肠液表现出良好的耐受性。能耐受一定浓度的牛胆盐,在质量浓度0.2 g/100 m L的牛胆盐环境中活菌数可达到107 CFU/m L;具有较高的渗透压耐受能力,在Na Cl质量浓度为10 g/100 m L的液体MRS中培养24 h后,活菌数仍在107 CFU/m L以上。经鉴定,DJ-04为植物乳杆菌。【结论】植物乳杆菌DJ-04具有良好的人工胃肠液耐受性以及耐胆盐和耐渗透压能力,具有肠道益生菌的潜能。     

3株罗伊氏乳杆菌生物学特性的分析比较

【目的】对3株罗伊氏乳杆菌的生物学特性进行分析比较,为后期生产应用提供一定的参考。【方法】对实验室保藏的3株罗伊氏乳杆菌的生长曲线、pH曲线、耐受人工胃液能力、耐受猪胆盐能力、黏附能力、抑菌能力和对抗生素的耐药性等特性进行了分析比较。【结果】3株菌生长趋势大致相同;3株菌对人工胃液均具有良好的耐受性,且可以有效地抑制大肠杆菌和金黄色葡萄球菌的生长;菌株L0和L2对高胆盐的环境耐受性较差,菌株L1则对高胆盐环境具有极强的耐受性;菌株L1和L2具有很强的黏附能力;3株菌对20种抗生素表现出不同的耐受性。【结论】菌株L1的生物学特性明显优于其他两株菌株,有利于后期的生产应用。     

耐受微酸性次氯酸水乳酸菌的分离鉴定、耐受特性及益生特性

【背景】次氯酸水具有杀菌性，当其作为饮用水可能会对畜禽肠道内有益菌造成负面影响。【目的】筛选出具有耐受微酸性次氯酸水(slightly acidic hypochlorous acid water, SAHW)能力的乳酸菌并研究其益生特性。【方法】从内蒙古地区传统自然发酵制品中分离筛选出8株乳酸菌菌株，经16SrRNA基因测序进行鉴定。进一步通过耐受SAHW、耐酸、耐胆盐、疏水性及自凝聚能力试验进行耐受特性和益生特性研究。【结果】菌株MBH3-2为副干酪乳杆菌，其经过质量浓度为20mg/L的SAHW处理2h，菌落对数值仅下降0.3lg(CFU/mL)，存活率为50.10%；而且在酸性(pH 2.0、2.5和3.0)、胆盐环境下均可存活；疏水率达62.12%，属于高度疏水性；自凝聚能力在2 h达到97.29%。【结论】最终确定一株具有优良耐受SAHW及基本满足作为微生态制剂要求的菌株，MBH3-2具有作为新型微生态制剂菌株的潜力。     

猪源乳酸菌的分离、鉴定及其生物学特性

【目的】将分离自猪肠道粘膜、食糜和粪便的乳酸菌,通过产乳酸能力、生长性能、耐酸和耐胆盐性能及抑菌能力评价,筛选适应养猪生产的潜在益生特性的菌株。【方法】共分离获得155株乳酸菌纯菌株,从中筛选出4株产酸能力较强的乳酸菌,结合生理生化试验及细菌16S rRNA测序鉴定其种属,评价候选乳酸菌的生长情况、耐酸、耐胆盐及抑菌特性。【结果】综合变色时间(8 h)、pH值(3.9)和乳酸含量(100 mmol/L),筛选出4株(L45、L47、L63和L79)候选菌株,经鉴定依次为罗伊氏乳杆菌、植物乳杆菌、约氏乳杆菌和粪肠球菌。该4株乳酸菌均可在体外快速生长;L47和L79能够耐受pH 2.5的酸性环境,L47能够耐受0.5%胆盐环境;各乳酸菌上清液与指示菌共培养,发现对E coli K88和沙门氏菌均产生了抑制作用,其中L47上清液对指示菌的抑制作用较强。【结论】L47具有较好的产酸性能与生长性能、可耐受猪胃酸和肠道胆盐环境,对E.coli K88和沙门氏菌具有较好的抑制作用,说明该乳酸菌具有潜在的益生特性。     

新疆传统发酵乳品中乳酸菌与 酵母菌的益生特性

目的观察新疆传统发酵乳品中分离的14种菌株的生长特点及产酸能力,筛选出具有较强耐胆盐能力,并能在人工胃肠液中存活的菌株。方法对10株乳酸菌和4株酵母菌进行生长曲线、pH、耐胆盐能力和耐人工胃肠液检测。结果 10株乳酸菌和4株酵母菌具有良好的生长曲线和产酸能力;马乳酒样乳杆菌具有较强的耐胆盐能力;希氏乳杆菌、马乳酒样乳杆菌、乙醇假丝酵母和东方伊萨酵母具有较强的耐人工胃液能力;乳酸乳球菌、哈尔滨乳杆菌、瑞士乳杆菌、马乳酒样乳杆菌、乙醇假丝酵母和东方伊萨酵母具有较强的耐人工肠液能力。结论 10株乳酸菌和4株酵母菌具有优良的益生特性,有望成为益生菌制剂的备用菌株。     

母乳源乳双歧杆菌Probio-M8的遗传特征及基因组差异比较分析

【目的】母乳源乳双歧杆菌（Bifidobacterium animalis subsp. lactis） Probio-M8具有优良的益生特性,本文拟从全基因组水平解析Probio-M8的遗传特征,并与已有益生功效的乳双歧杆菌的基因组进行比较分析。【方法】本研究基于NCBI已公开的21株乳双歧杆菌和1株模式菌株DSM10140^T的基因组数据,构建了核心基因集与泛基因集,解析该群体的系统发育关系,比较分析Probio-M8的遗传特征及功能基因组。【结果】22株乳双歧杆菌的泛基因集包含1 618个基因,其中核心基因1 514个,占泛基因集的93.57%,表明乳双歧杆菌核心基因集高度保守。以1 514个核心基因构建系统发育树,发现22株乳双歧杆菌分为两个分支,AD011单独为一个分支,Probio-M8和其他菌株与模式菌株DSM10140^T聚在同一分支,且Probio-M8与V9、BB-12、Bi-07、HN019的遗传距离极为接近。进一步分析耐药基因和毒力基因,在Probio-M8与V9、BB-12、Bi-07、HN019基因组上均检测到DfrA...     

伯顿毕赤酵母菌在酸性及胆盐环境的抗逆性研究

目的探究伯顿毕赤酵母菌在酸性及胆盐环境下的益生特性,为研制益生菌制剂提供理论依据。方法采用稀释平板计数法,在pH 1.0、1.5、2.0、2.5、3.0和胆盐浓度0.1%、0.2%、0.3%、0.4%的PDA液体培养基以及人工胃液作用0、2、4h,人工肠液作用0、2、4、6、8、10h环境下,分别测定伯顿毕赤酵母菌的活菌数。结果耐酸实验中,各酸性实验组活菌数与对照组比较均下降明显(P0.01),酸度越高,活菌数越少;耐胆盐实验中,胆盐浓度越高,活菌含量越少,其中0.2%、0.3%和0.4%的胆盐浓度与对照组比较活菌数下降明显(P0.01);人工胃液实验中,经过pH 1.5人工胃液处理4h,菌株存活率达42.78%,而经过pH 2.5和3.5的人工胃液处理4h,存活率分别为138.17%和182.90%;人工肠液实验中,随着处理时间的延长,活菌数也增加,且不同时间段的活菌数差异有统计学意义(P0.05)。结论伯顿毕赤酵母菌能够在极高的酸性和较高的胆盐环境以及人工胃肠液环境中存活和定植,符合制备益生菌制剂的条件。     

北疆传统发酵生奶酪中乳酸菌的耐受性及益生特性测定

【背景】北疆乳制品中生奶酪作为发酵乳制品,其中有多种微生物的参与,是优质食品级微生物的宝贵来源,然而其中蕴含的丰富的微生物资源也面临着流失。【目的】研究已筛选出的41株乳酸菌的生长曲线变化规律,并对其在低pH环境的耐酸特性及益生特性进行分析。【方法】通过人工模拟胃肠液和含0.3%、0.5%、1.0%浓度牛胆盐溶液培养,对从生奶酪中分离鉴定的41株乳酸菌菌株进行人工胃肠液、牛胆盐耐受性试验。【结果】41株乳酸菌中有6株乳酸菌(编号为QM-5、QM-27、UM-12、UM-18、NM-11和NM-14)均能在pH值分别为2.0、2.5、3.0、3.5、4.0时生长较好,在pH 2.0的环境下也保持一定程度的生长。菌株存活率大于50%,乳酸菌含量为108 CFU/mL以上。从生奶酪分离的乳酸菌有极强的耐酸、耐胆盐特性,可以预测在胃肠道环境生存。41株菌对大肠杆菌(Escherichia coli)、金黄色葡萄球菌(Staphylococcus aureus)和枯草芽孢杆菌(Bacillus subtilis)均有抑制作用。【结论】通过比较耐酸性、胃肠道模拟、胆盐耐受性和抑菌特性等实验结果,初...     

一株耐受低pH、高浓度乳酸及琥珀酸菌株的筛选与鉴定

【目的】通过构建的人工耐酸系统,筛选耐受低pH值、乳酸及琥珀酸的菌株。【方法】构建人工耐酸系统长期驯化菌株,利用不同p H的酸性平板进行筛选,从环境中筛选出一株对低p H值、高浓度乳酸以及琥珀酸有很好耐受性的菌株。通过形态学特征、生理生化特征研究,并结合18S rDNA基因序列分析及分子系统发育树的构建结果,确定菌株的种类。【结果】经过酸性人工系统的长期驯化,筛选分离出一株耐受低pH值、高浓度乳酸以及琥珀酸的菌株WJ-2,经鉴定该菌株为酿酒酵母(Saccharomyces cerevisiae),其最适生长温度为30°C。酸性平板实验显示该菌株能够耐受pH2.5的酸性环境,同时对9%的乳酸及8%的琥珀酸也有很好的耐受性。另外,耐酸菌株WJ-2在pH 2.5、9%乳酸和8%琥珀酸的培养环境中仍能保持相对中性的细胞内pH值。【结论】通过构建人工酸性系统,成功筛选出一株对低pH值、高浓度乳酸以及琥珀酸具有耐受性的菌株——酿酒酵母菌WJ-2,该方法可为筛选具有特定耐受能力菌株提供一个新思路。     

婴幼儿粪便中双歧杆菌的分离及其菌株特性研究

为筛选具有潜在益生功能的双歧杆菌,本研究采用改良MRS培养基,从婴幼儿粪便中分离到5株菌株:AR499,AR667,AR668,AR669和AR610。通过16S r DNA测序分别鉴定为两歧双歧杆菌,短双歧杆菌,动物双歧杆菌,长双歧杆菌和假小链双歧杆菌。对其耐酸耐胆盐能力和黏附性能进行测试,结果表明,菌株AR499耐酸性较好,菌株AR610有较强的耐胆盐能力,菌株AR499的自动聚集能力和细胞表面疏水性都较高。实验表明,菌株AR499可作为一株耐受性和黏附性能较好的益生菌进一步深入研究,以期应用于优良双歧杆菌产品的开发。     

Probiotic characteristics and in vitro compatibility of a combination of Bifidobacterium breve M-16 V,Bifidobacterium longum subsp. infantis M-63 and Bifidobacterium longum subsp. longum BB536

The consumption of probiotic-based products has risen greatly in recent decades. Due to their probiotic characteristics, microorganisms such as lactobacilli and bifidobacteria are in daily use in the production of food supplements. In the present study, three bifidobacterial strains (Bifidobacterium breve M-16 V, Bifidobacterium longum subsp. infantis M-63 and Bifidobacterium longum subsp. longum BB536) were tested for growth compatibility, resistance to antimicrobial agents, antibacterial activity against pathogens, resistance to gastric acidity, bile salt hydrolysis and adhesion to the human intestinal epithelial cell line HT29. All of these strains were resistant to gentamycin, but none showed in vitro growth incompatibility or the presence of known resistance determinants. B. breve M-16 V had the best probiotic characteristics and, indeed, was the only strain possessing antibacterial activity against Escherichia coli and Klebsiella pneumoniae. All strains were resistant to simulated gastric juice, while only B. longum subsp. longum BB536 and B. breve M-16 V showed a bile salt hydrolytic activity. Interestingly, a strong adhesion to HT29 cells was observed in all Bifidobacterium strains. In conclusion, B. breve M-16 V, B. longum subsp. longum BB536 and B. longum subsp. infantis M-63 showed several promising characteristics as probiotic strains.     

一株具降胆固醇功能乳酸菌的机制研究

目的对动物双歧杆菌SQ-0001的体外环境耐受性及其降胆固醇作用进行研究。方法用邻苯二甲醛法对pH 3.0和0.3%牛胆酸钠有一定耐受性的动物双歧杆菌SQ-0001的体外降胆固醇机制进行了研究。结果动物双歧杆菌SQ-0001对pH 3.0及0.3%胆盐环境具有一定的耐受性;该菌在胆盐浓度为0.2%,培养时间为24 h时,胆固醇脱除率最高,达到91.59%;该菌降胆固醇的作用主要以吸收为主,吸收率达到63.87%,其次是降解率,为23.81%。结论动物双歧杆菌SQ-0001的环境耐受能力良好,具有很好体外降胆固醇作用,该菌株可以作为日后降胆固醇的潜在益生菌。     

Molecular characterization of bile salt hydrolase from Bifidobacterium animalis subsp. lactis Bi30

The present work describes the identification, purification, and characterization of bile salt hydrolase (BSH) from Bifidobacterium animalis subsp. lactis. The enzyme was purified to electrophoretic homogeneity by hydrophobic chromatography, ion-exchange chromatography and ultrafiltration. SDS-PAGE analysis of putative BSH and gel filtration revealed that the analyzed protein is presumably a tetramer composed of four monomers each of about 35 kDa. The purified enzyme was analyzed by liquid chromatography coupled to LTQ FT ICR mass spectrometry and unambiguously identified as a bile salt hydrolase from B. animalis. The isoelectric point of the studied protein was estimated to be around pH 4.9. The pH optimum of the purified BSH is between 4.7 to 6.5, and the temperature optimum is around 50 degrees C. The BSH of B. animalis could deconjugate all tested bile salts, with clear preference for glycine-conjugated bile salts over taurine-conjugated forms. Genetic analysis of the bsh showed high similarity to the previously sequenced bsh gene from B. animalis and confirmed the usefulness of bile salt hydrolase as a genetic marker for B. animalis identification.     

Cell envelope changes in Bifidobacterium animalis ssp. lactis as a response to bile

Bifidobacterium animalis ssp. lactis is a probiotic frequently used as adjunct culture in fermented dairy products. In order to ensure its proper function at the intestinal level, this bacterium has to be tolerant to physiological concentrations of bile. This study examined the influence of bile on the fatty acid composition and the membrane characteristics of B. animalis IPLA 4549 and its mutant with acquired resistance to bile, B. animalis 4549dOx. Bile adaptation triggers in B. animalis 4549dOx a decrease in membrane fluidity and in the protein : phospholipid ratio, as well as a shift in the fatty acid composition of the cell. Remarkably, the presence of bile in the growth medium induced similar changes in both B. animalis cells. Furthermore, transmission electron microscopy analysis showed that bile promotes a severe distortion of the cell surface. This study provides new insights of the action of bile on the cell envelope of bifidobacteria.     

Screening of Lactobacilli derived from chicken feces and partial characterization of Lactobacillus acidophilus A12 as an animal probiotics

This study was performed to screen and select Lactobacillus strains from chicken feces for probiotic use in animals. Of these strains, strain A12 had the highest immunostimulatory effect. Therefore, strain A12 was characterized as a potential probiotic. Strain A12 was tentatively identified as Lactobacillus acidophilus A12, using the API 50 CHL kit based on a 99.9% homology. L. acidophilus A12 was highly resistant to artificial gastric juice (pH 2.5) and bile acid (oxgall). Based on results from the API ZYM kit, leucine arylamidase, crystine arylamidase, acid phosphatase, naphthol-AS-BI-phosphohydrolase, alpha-galactosidase, beta- galactosidase, alpha-glucosidase, beta-glucosidase, and N-acetyl-beta- glucosamidase were produced by strain A12. L. acidophilus A12 showed resistance to several antibiotics (nisin, gentamycin, and erythromycin). The amount of interleukin (IL)-1alpha in 20x concentrated supernatant from L. acidophilus A12 was approximately 156 pg/ml. With regard to antioxidant activity, L. acidophilus A12 supernatant showed 60.6% DPPH radical scavenging activity. These results demonstrate the potential use of L. acidophilus A12 as a health-promoting probiotics.     

Rapid identification of potentially probiotic Bifidobacterium species by multiplex PCR using species-specific primers based on the region extending from 16S rRNA through 23S rRNA

This study aimed at developing a novel multiplex polymerase chain reaction (PCR) primer set for identification of the potentially probiotic Bifidobacterium species B. adolescentis, B. animalis subsp. animalis (B. animalis), B. bifidum, B. breve, B. longum biovar infantis (B. infantis), B. animalis subsp. lactis B. lactis, B. longum biovar longum (B. longum) and B. pseudolongum. The primer set comprised specific and conserved primers and was derived from the integrated sequences of 16S and 23S rRNA genes and the rRNA intergenic spacer region (ISR) of each species. It could detect and identify type strains and isolates from pharmaceuticals or dairy products corresponding to the eight Bifidobacterium species with high specificity. It was also useful for screening of the related strains from natural sources such as the gastro-intestinal tract and feces. We suggest that the assay system from this study is an efficient tool for simple, rapid and reliable identification of Bifidobacterium species for which probiotic strains are known.