不同物质对双歧杆菌胆盐耐受性的影响研究

初步研究不同物质对双歧杆菌的胆盐耐受性的影响。结果表明,脱氧胆酸钠盐对双歧杆菌Blm和Bbm有毒性作用;在培养基中补充一定量的葡萄糖和果糖可以改善Bbm的胆盐耐受性,而菊糖和菊芋粉对提高Blm和Bbm的胆盐耐受性没有明显作用。     

胆盐水解酶产生菌的筛选及其益生潜力研究

目的从健康仔猪肠道及粪便中筛选具有胆盐水解酶活性的优良益生乳杆菌菌株,并对筛选菌株的体外、体内益生潜力进行初步探讨。方法用MRS培养基分别从仔猪新鲜粪便和小肠黏膜分离培养乳酸菌,用筛选鉴别培养基筛选阳性菌株,研究菌株的抗逆能力、黏附特性以及体内益生活性。结果从粪便和小肠黏膜共得到乳酸菌388株和97株,其中胆盐水解酶阳性菌株分别为291株(75%)和86株(89%)。选择5株胆盐水解酶活性最强、能水解游离胆酸的菌株,研究菌株的抗逆能力、黏附特性以及体内益生活性,并对最终选育得到的菌株进行生理生化及16S rRNA分子鉴定,发现菌株罗伊乳杆菌G22-2能耐受pH 3.0的酸度、1.0%的胆盐浓度,在小肠上皮细胞上的黏附效率超过15个以上;通过大鼠体内实验,筛选出的菌株G22-2对大鼠无毒无害,并能显著改善血脂水平。结论罗伊乳杆菌G22-2符合益生菌的要求,可以作为产胆盐水解酶的益生乳杆菌优良的候选菌株。     

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。     

食品微生物本科毕业论文实验的探索与实践——以干酪乳杆菌异源表达胆盐水解酶为例

毕业论文是本科教育教学过程中不可替代的重要环节之一,是检验学生综合素质的重要手段。以干酪乳杆菌异源表达胆盐水解酶为例,从论文选题、实验准备、实验研究和论文撰写等方面介绍上海理工大学食品微生物本科毕业论文实验的有关探索。学生通过综合运用所学理论知识和实验技能,能够顺利完成毕业论文实验,构建出具有工业应用潜力的耐胆盐干酪乳杆菌基因工程菌,达到本科毕业论文实践教学的目的。     

从人胃肠道源乳杆菌株中初步筛选耐酸耐胆盐优良株

目的筛选对酸和胆盐耐受性均较强的优良乳杆菌株。方法模拟人体胃酸环境（pH=3）和十二指肠高胆盐环境（胆盐含量=3‰）测定104株人胃肠道源乳杆菌在酸性及高胆盐环境下作用4h后的存活菌数,并与对照相比较。对结果进行统计学分析。结果16株菌在酸性环境及高胆盐环境下4h后的活菌下降对数值均小于2。筛选出3株具有较强耐酸耐胆盐能力的乳杆菌株。结论大多数人胃肠道源乳杆菌对酸和胆盐的耐受能力均不强,对酸的耐受性普遍强于对胆盐的耐受性。     

鸡源和猪源乳杆菌胆盐水解酶的表达及酶学性质比较

【目的】随着抗生素生长促进剂(AGPs)在动物饲料中逐步禁止使用,AGPs替代物的研究成为热点。由于胆盐水解酶(BSH)在脂类代谢中的关键作用,成为AGPs替代物研究的一个重要方向。在原核表达和纯化的基础上鉴定鸡源和猪源乳杆菌BSH在酶学性质方面的差异性。【方法】分别对鸡源胆盐水解酶(BSHc)和猪源胆盐水解酶(BSHp)基因进行原核表达和蛋白纯化,通过测定对6种甘氨结合胆盐和牛磺结合胆盐的水解效率获得两种酶的酶学动力学性质,进而测定了温度、pH和金属离子对酶活力的影响。【结果】BSHc和BSHp对甘氨结合胆盐的水解效率高于牛磺结合胆盐,BSHc对甘氨结合胆盐的水解效率较BSHp稍高;BSHc和BSHp的最适酶解温度分别为45°C和42°C;BSHc和BSHp的最适反应pH分别为6.0和5.4;含有Cu~(2+)、Fe~(3+)、Mn~(2+)和Zn~(2+)的金属盐对BSHc和BSHp的酶活力均具有不同程度的抑制作用,特别是Cu~(2+)和Fe~(3+)抑制作用比较强;含有Na~+、K~+、Mg~(2+)和Ca2+的金属盐对BSHc和BSHp酶活力的抑制作用相对较弱或无抑制作用,但KIO3对BSHc和BSHp酶活力具有强抑制作用,KI和CaCl_2对BSHp酶活力也具有较强的抑制作用。【结论】原核表达和纯化的BSHc和BSHp对甘氨结合胆盐的水解效率高于牛磺结合胆盐,BSHc的最适酶解温度和pH稍高于BSHp,Cu~(2+)、Fe~(3+)、Mn~(2+)和Zn~(2+)等金属离子对BSHc和BSHp酶活力具有明显抑制作用,试验结果为鉴定BSH抑制物进而研制AGPs替代物奠定了基础。     

唾液乳杆菌BSH1及其突变体的底物特异性

为了解析胆盐水解酶催化中心中关键氨基酸位点与其底物特异性的关系,以大肠杆菌pET-20b(+)表达系统为分子改造平台,采用理性设计,结合氨基酸定点突变的方法,成功构建了唾液乳杆菌Lactobacillus salivarius胆盐水解酶BSH1的7种突变体。通过对比L.salivarius BSH1及其突变体对6种结合胆盐的底物特异性表明,7种突变体对不同的结合胆盐的水解活性有所改变。结果说明,Cys2和Thr264分别是BSH1催化TCA和GCA的关键残基,且对酶的催化活性的保持具有关键作用。其中,高保守性的氨基酸位点Cys2不是BSH1唯一的活性位点,而其他突变的氨基酸位点可能作为BSH1的结合位点参与了底物的结合,也可能影响了底物进入BSH1活性中心的通道或底物结合口袋的体积与形状,进而影响了BSH1对不同结合胆盐的水解活性。     

诱导选育嗜酸乳杆菌的鉴定

对亚硝基胍(NTG)诱变获得的嗜酸乳杆菌菌株的抗酸、抗胆盐及多项酶活力进行测定。亚硝基胍诱变的嗜酸乳杆菌培养于模拟胃肠环境的pH 3.5酸性环境90 min后,再培养于中性0.2%胆盐环境中,对其生长情况进行评估。对抗酸抗胆盐菌株的各项酶活性进行评估。嗜酸乳杆菌突变后筛选的2株菌株都具有良好的抗酸和抗胆盐能力,其中突变株Y48在模拟胃肠环境中生长良好,并具有良好的酶活性。诱变获得的优良嗜酸乳杆菌株,具有良好的抗酸抗胆盐及酶活各项性能,为开发优质的嗜酸乳杆菌新产品提供了条件。     

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。     

高密度共生发酵和强黏附性优势菌株的筛选CSCD

目的 比较10株乳酸菌的活菌数,筛选高密度共生发酵和高黏附性的共培养菌株,为后期开发应用奠定基础。方法 对单个菌株及共培养菌株进行发酵活菌数的筛选,筛选出对Caco-2细胞黏附性强的优势菌株,并比较其耐酸、耐胆盐和抑制肠道致病菌能力。结果 10株益生菌菌株中,鼠李糖乳酪杆菌AI-11与发酵粘液乳杆菌AI-25、两歧双歧杆菌AI-91与动物双歧杆菌乳亚种AI-01的组合菌株较单个菌株具有协同效应,活菌数显著高于单个菌株(均t=8.878 0,P<0.001),且具有较好的抑制肠道致病菌大肠埃希菌和奇异变形杆菌的效果,较好的耐受pH 2.5的酸性环境和胆汁盐环境的特性,较鼠李糖乳酪杆菌GG和发酵粘液乳杆菌CECT 5716具有较好的Caco-2细胞黏附性(t=9.004 1, P<0.001;t=11.301 2,P<0.001)。结论 筛选出的2个共培养组合菌株在发酵能力和细胞黏附性方面具有活菌数高、黏附性强的优势,可应用于食品、功能食品及膳食补充剂中,以增强改善肠道菌群的功效性。     

Bile salt hydrolase and cholesterol removal effect by Bifidobacterium bifidum NRRL 1976

Summary Growing cells of Bifidobacterum bifidum NRRL 1976 exhibited an ability to remove cholesterol in the presence of bile salts. The cholesterol removal by Bifidobacterium bifidum was due to a co-precipitation together with unconjugated bile acids, which was linked to the bile salt hydrolase (BSH) activity of the cells at pH values lower than 5.0 and the cholesterol removed was partially recovered when the cells were washed with phosphate buffer at pH 7, while the remaining cholesterol was extracted from the cells. It is concluded that the removal of cholesterol from the growth medium by Bifidobacterium bifidum strain is due to both bacterial assimilation and precipitation of cholesterol.     

Cloning and sequence analysis of bile salt hydrolase (bsh) gene from Bifidobacterium longum

A pair of PCR primers for the rapid detection of bile salt hydrolase (bsh) gene from Bifidobacterium longum BB536 has been synthesised and have revealed the bsh gene of approx 970 bp in Bifidobacterium longum BB 536 but not in other species of bacteria tested. The bsh gene was cloned and sequenced showing a high similarity to bsh gene previously published. The resulting nucleotide sequence encodes a predicted protein of 317 amino acids, Mw = 35 kDa.     

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.     

植物乳杆菌JPP2胆盐水解酶相关基因克隆和表达

通过PCR方法从植物乳杆菌JPP2中扩增出胆盐水解酶（BSH）相关基因bsh3,利用中间克隆载体pMD19-T将其构建于表达载体pET-28b上,并转化入表达宿主菌E．coli BL21（DE3）,成功构建重组BSH的工程菌。核苷酸及推导的氨基酸序列分析表明,正确克隆出目的基因。诱导表达后,SDS-PAGE电泳结果显示出特异性蛋白质条带,其分子量约为38kDa。此单克隆体系的构建为进一步研究BSH的功能奠定基础。     

Effect of Sodium Taurocholate on the In Vitro Growth of Lactobacilli

Abstract The effect on growth of a conjugated bile salt (sodium taurocholate) at physiological concentration was determined using cultures of Lactobacillus strains of murine origin. The bile salt stimulated the growth of one strain, did not affect the growth of another, but inhibited the growth of strains that produced relatively large amounts of the enzyme bile salt hydrolase. Comparison of the growth of isogenic strains that differed in the ability to produce bile salt hydrolase demonstrated that inhibition of growth was due to the accumulation of cholic acid in the culture medium as a result of the enzyme activity. Received: 15 January 1996; Revised: 26 March 1996; Accepted: 29 March 1996     

Bile salt toxicity to some bifidobacteria strains: role of conjugated bile salt hydrolase and pH

The purpose of this work was to study some aspects of bile salt toxicity towards bifidobacteria. A strain (Bifidobacterium coryneforme ATCC 25911) was selected for its lack of conjugated bile salt hydrolase activity (CBSH-), and was used with three deconjugating strains (CBSH+), for study of their growth and viability in the presence of two dihydroxylated conjugated bile salts (tauro- and glyco-deoxycholic acids). The presence of the glycoconjugate induced a more significant growth inhibition for the four strains than the tauroconjugate. The viability of the strains was measured at several pH levels. Glycodeoxycholic acid, but not taurodeoxycholic acid, exerted a lethal effect, which increased at low pH. This phenomenon was more pronounced for the CBSH- strain. We explain some of these results using an hypothesis based on the consequence of dissociation of conjugated and deconjugated bile salts, and the value of their pKa.     

A New Insight into the Physiological Role of Bile Salt Hydrolase among Intestinal Bacteria from the Genus Bifidobacterium

This study analyzes the occurrence of bile salt hydrolase in fourteen strains belonging to the genus Bifidobacterium. Deconjugation activity was detected using a plate test, two-step enzymatic reaction and activity staining on a native polyacrylamide gel. Subsequently, bile salt hydrolases from B. pseudocatenulatum and B. longum subsp. suis were purified using a two-step chromatographic procedure. Biochemical characterization of the bile salt hydrolases showed that the purified enzymes hydrolyzed all of the six major human bile salts under the pH and temperature conditions commonly found in the human gastrointestinal tract. Next, the dynamic rheometry was applied to monitor the gelation process of deoxycholic acid under different conditions. The results showed that bile acids displayed aqueous media gelating properties. Finally, gel-forming abilities of bifidobacteria exhibiting bile salt hydrolase activity were analyzed. Our investigations have demonstrated that the release of deconjugated bile acids led to the gelation phenomenon of the enzymatic reaction solution containing purified BSH. The presented results suggest that bile salt hydrolase activity commonly found among intestinal microbiota increases hydrogel-forming abilities of certain bile salts. To our knowledge, this is the first report showing that bile salt hydrolase activity among Bifidobacterium is directly connected with the gelation process of bile salts. In our opinion, if such a phenomenon occurs in physiological conditions of human gut, it may improve bacterial ability to colonize the gastrointestinal tract and their survival in this specific ecological niche.     

mCherry红色荧光标记乳酸菌的融合表达系统构建及应用

为开发新型荧光蛋白标记乳酸菌以填补国内研究空白,利用pSIP载体,构建了以红色荧光蛋白mCherry为标记,并以乳酸菌胆盐水解酶基因bsh为报告基因的乳酸菌融合表达系统。在4种不同启动子(P_(sppA)、P_(ldhL)、P_(32)和P_(slpA))调节下,相继实现了融合基因的诱导型和组成型表达,表达的融合重组蛋白mCherry-BSH同时检测出红色荧光活性和胆盐水解酶BSH活性。mCherry红色荧光标记的乳酸菌融合表达系统的成功构建不仅为研究乳酸菌在生物体内的分布、定植及存活情况从而揭示其益生功能的作用机理提供有利条件,也为更多活性蛋白在乳酸菌宿主中的表达、细胞定位、功能鉴定的研究奠定基础。     

Cloning and characterization of a bile salt hydrolase (<Emphasis Type="Italic">bsh</Emphasis>) from <Emphasis Type="Italic">Bifidobacterium adolescentis</Emphasis>

A gene coding for bile salt hydrolase (BSH) from Bifidobacterium adolescentis was cloned and expressed in Escherichia coli, and the nucleotide sequence was determined. The BSH of E. coli transformants was produced intracellularly in the absence of bile salts. A unique bsh promoter (P_bsh) sequence was identified by using a Neural Network Promoter Prediction (NNPP, version 2.2). In spite of their high-level sequence homology with other bsh genes in the Bifidobacterium species, their genetic organization surrounding the bsh gene and their promoter sequences are different depending on the species.