对双歧杆菌DM9227株的实验研究——Ⅰ.双歧杆菌DM9227株的试管内生物拮抗作用的研究

本文对由健康婴儿分离的双歧杆菌DM9227株进行了试管内的生物拮抗试验。将双歧杆菌DM9227株分别与金黄色葡萄球菌、产毒性大肠杆菌及侵袭性大肠杆菌以一定的比例等量混合接种于PYG液体培养基中进行厌氧培养。试验证明双歧杆菌DM9227株能明显抑制上述3种细菌的生长繁殖,显示出较强的生物拮抗作用。拮抗机制可能与双歧杆菌DM9227株能产生一定量的醋酸和乳酸,降低培养基的pH,从而抑制该3种菌的生长有关。     

对双歧杆菌DM9227株的实验研究 Ⅱ.双歧杆菌DM9227株对小鼠的毒性试验研究

本文采用健康的昆明种小鼠,分别经灌胃、腹腔注射及静脉注射3种途径,对我们自己分离筛选的1株双歧杆菌DM9227株进行了毒性实验研究。菌种双歧杆菌DM9227株,分离自1健康的13个月的女婴的粪便。试验动物为健康昆明种小鼠,体重17—22g,雌雄各半,由大连医学院实验动物中心提供。     

酪酸梭菌与婴双歧杆菌对艰难梭菌体外生物拮抗作用的作用

用酪酸梭菌（Clostridium butyricum)和婴双歧杆菌（Bifidobacterium infantis)单独或联合艰难菌（Clostridium difficile)进行试管内的生物拮抗作用,将酪酸梭菌、婴儿双歧杆菌单独或酪酸梭菌和婴儿双歧杆菌联合分别与艰难梭菌以一定的比例等量混合后,接种于GAM液体培养基中进行厌氧培养。证明酪酸梭菌和婴儿双歧杆菌能明显抑制艰难梭菌的生长,并且两菌联合比各自单独培养时显示出更强的生物拮抗作用。     

酪酸梭菌与双歧杆菌对肠道致病菌的体外生物拮抗作用

目的：探讨酪酸梭菌和婴儿型双歧杆菌对某些肠道致病菌的拮抗作用,方法：将酪酸梭菌和婴和型双歧杆菌单株菌及两株菌混合后分别与几株肠道致病菌混合接种于GAM液体培养其中进行厌氧培养,通过平板菌落计数法计算肠道致病菌的菌数,结果：经混合培养后肠道致病菌的菌数明显下降,结论：酪酸梭菌LCL166株和婴儿型双歧杆菌LCL172株在体外能明显抑制几株肠道致病菌的生长繁殖。     

两歧双歧杆菌86321生长特性的研究

目的研究两歧双歧杆菌86321的生长特性,为该菌生理功能研究和高效发酵剂的研制提供理论依据。方法通过生长曲线、产酸量、最适厌氧方式、最适pH、最适培养温度及最适接种量等一系列实验,对两歧双歧杆菌86321进行生长特性的研究。结果两歧双歧杆菌86321在BL培养基中培养时间可缩短至16 h,最高活菌数的lg值达到9.5;其最适厌氧方式为自然厌氧法或密封法,装液量视实际情况而定;在pH7.08.0生长良好,最适初始pH为8.0;在3742℃生长良好,最适温度为37℃;综合总菌量和生产成本,确定最适接种量为7%（v/v）。结论用BL培养基可以大大提高两歧双歧杆菌86321的产量。细菌产量的高低和发酵速度的快慢与菌种活力、厌氧方式、培养温度及pH等因素密切相关。     

酪酸梭菌与婴儿型双歧杆菌对产气荚膜梭菌试管内生物拮抗作用的研究

用酪酸权菌（Clostridium butyricum）和婴儿型双歧杆菌（Bifidobacterium Infantis）对产气荚膜梭菌（Clostriduim perfringens）进行试管内的生物拮抗试验。将酪酸梭菌、婴儿型双歧杆菌及酪酸梭菌和婴儿型双歧杆菌分别对产气荚膜酸菌以一定的比例等量混合接种于GAM液体培养基中进行厌氧培养。实验证明酪酸梭菌和婴儿型双歧能明显抑制产气荚膜梭菌的生长,并且比各自单独培养时显示了较强的生物拮抗作用。     

双歧杆菌试管内生物拮抗作用研究

目的 本实验从正常青少年体内分离出1株双歧杆菌,通过试管内研究双歧杆菌对大肠埃希菌和粪肠球菌的生物拮抗作用.为双歧杆菌临床应用及食品开发提供一定的基础理论依据和广阔的市场前景.方法 本项研究以从佳木斯大学健康学生体内分离出1株双歧杆菌为试材,将大肠埃希菌、粪肠球菌接种于PYG液体培养基中,37℃厌氧培养48 h,将菌液浓度利用分光光度计法调到2麦氏.将大肠埃希菌对照组分为10支,分离的双歧杆菌+大肠埃希菌组10支,分离的双歧杆菌对照组10支,分离的双歧杆菌+粪肠球菌组10支,粪肠球菌对照组10支,将以上50个试管全部置于厌氧培养箱内37℃培养48 h,将培养好的大肠埃希菌和粪肠球菌进行梯度稀释,然后用微量移液器吸取标本于每个培养基上滴3滴,每滴滴上由高稀释度向低稀释度,液体量为10 μL的菌液.晾干滴种好的培养基于适宜条件进行培养并选出适合菌落生长的稀释度,计算同一稀释度平均菌落数(x).结果 双歧杆菌12 h时对大肠埃希菌生长无显著性,在24h时检测不到大肠埃希菌的存在.12和24h时粪肠球菌与双歧杆菌混合组与粪肠球菌对照组相比,差异均无统计学意义(P＞0.05).结论 体外对照实验研究该双歧杆菌对大肠埃希菌和粪肠球菌的生物拮抗作用,此株双歧杆菌只对大肠埃希菌有抑制作用,而对粪肠球菌无抑制作用,机制需要深入研究.     

培养基成分对口腔福赛类杆菌生长影响的研究

目的比较不同培养基成分对福赛类杆菌ATCC43037生长的影响,寻找一种有效促进福赛类杆菌生长的培养基.方法将福赛类杆菌ATCC430 37 接种到5种不同培养基(包括琼脂板和液体培养基)中,在厌氧培养箱内37℃厌氧培养7 d,观察平板上菌落生长情况,在λ=550 nm处每24 h测定液体培养菌液A值.细菌通过革兰染色和PCR法鉴定.结果1.生长在血平板上的福赛类杆菌ATCC43037菌落形态呈粉红色或白色小斑点状,在以BHI 为基础培养基中添加氯化血红素、维生素K3、N-乙酰胞壁酸的No2血琼脂培养基生长最好,而在无氯化血红素、维生素K3及血的No4琼脂板上不生长.2.福赛类杆菌ATCC43037在以TSB 为基础培养基中添加酵母提取物、植物蛋白胨、氯化血红素、维生素K3、N-乙酰胞壁酸和D TT的No1液体培养基生长最好,培养7 d后A值＞0.8,在缺乏N-乙酰胞壁酸的No5液体培养基中几乎不生长.3.菌落细菌革兰染色为G 梭状杆菌,PCR法鉴定为福赛类杆菌.结论福赛类杆菌在血平板和液体培养基中存在不同的生长特性,N-乙酰胞壁酸是福赛类杆菌在液体培养基中生长最重要的成分,DTT有益于细菌生长.     

海带对双歧杆菌促生长作用的研究

探讨海带对双歧杆菌生长的促进作用。选用海带以平板打洞法、试管法对青春双歧杆菌和婴儿双歧杆菌进行了体外生长促进实验。结果发现,两种双歧杆菌在含有海带汁洞口周围,菌苔生长均较为茂盛;随着离洞口的距离渐近,菌苔逐渐增厚;随着海带汁浓度的增加,菌苔茂盛程度增加,活菌数亦增多;在海带培养基中,双歧杆菌增殖１２ 小时基本达到稳定期,与对照管比较,增殖速度快而稳定。结果表明海带对双歧杆菌增殖有稳定的促进作用。     

自病人气管灌洗物中分离出一株嗜肺性军团杆菌

本文报道了用自制的蓝藻军团杆菌选择性培养基从病人气管灌洗物中分离到一株嗜肺性军团杆菌(Legionella pneumophila)并与BCYE及硝酸铁琼脂平板等培养基作了比较,发现该菌在蓝藻军团杆菌选择性培养基上生长最好。生化、动物试验;细菌学、血清学的鉴定和诊断及临床治疗效果观察均与军团病杆菌(LDB)的鉴定标准相符合,证明经分离得的是一株嗜肺性军团杆菌血清6型菌株。     

对双歧杆菌DM9227菌株的实验研究IV对双歧杆菌DM9227菌株生物学特性的研究

本文对双歧杆菌ＤＭ９２２７菌株进行了形态学、生化反应特性、代谢酸分析及抗生素敏感性的研究。综合有关试验结果,初步认为该菌属婴儿双歧杆菌（Ｂｉｆｉｄｏｂａｃｔｅｒｉｕｍｉｎｆａｎｔｉｓ）。     

DM423菌株诱变前后对吡哌酸的耐药性测定

为了研制一种对腹泻病人疗效快,又不造成菌群失调的药物。我们确定吡哌酸与DM423菌联合应用。首先把DM423菌株诱变成耐药菌株,经多次诱变筛选结果是,耐药量比原菌株提高了2000倍,耐药性相对稳定,耐药株生物学特性与原菌株相同。定名为DM423-1菌株。     

Degradation of 4-aminobenzenesulfonate by a two-species bacterial coculture

The mutualistic interactions in a 4-aminobenzenesulfonate (sulfanilate) degrading mixed bacterial culture were studied. This coculture consisted of Hydrogenophaga palleronii strain S1 and Agrobacterium radiobacter strain S2. In this coculture only strain S1 desaminated sulfanilate to catechol-4-sulfonate, which did not accumulate in the medium but served as growth substrate for strain S2. During growth in batch culture with sulfanilate as sole source of carbon, energy, nitrogen and sulfur, the relative cell numbers (colony forming units) of both strains were almost constant. None of the strains reached a cell number which was more than threefold higher than the cell number of the second strain. A mineral medium with sulfanilate was inoculated with different relative cell numbers of both strains (relative number of colony forming units S1:S2 2200:1 to 1:500). In all cases, growth was found and the proportion of both strains moved towards an about equal value of about 3:1 (strain S1:strain S2). In contrast to the coculture, strain S1 did not grow in a mineral medium in axenic culture with 4-aminobenzenesulfonate or any other simple organic compound tested. A sterile culture supernatant from strain S2 enabled strain S1 to grow with 4-aminobenzenesulfonate. The same growth promoting effect was found after the addition of a combination of 4-aminobenzoate, biotin and vitamin B₁₂. Strain S1 grew with 4-aminobenzenesulfonate plus the three vitamins with about the same growth rate as the mixed culture in a mineral medium. When (resting) cells of strain S1 were incubated in a pure mineral medium with sulfanilate, up to 30% of the oxidized sulfanilate accumulated as catechol-4-sulfonate in the culture medium. In contrast, only minor amounts of catechol-4-sulfonate accumulated when strain S1 was grown with 4ABS in the presence of the vitamins.     

Degradation of 4-aminobenzenesulfonate by a two-species bacterial coculture

The mutualistic interactions in a 4-aminobenzenesulfonate (sulfanilate) degrading mixed bacterial culture were studied. This coculture consisted of Hydrogenophaga palleronii strain S1 and Agrobacterium radiobacter strain S2. In this coculture only strain S1 desaminated sulfanilate to catechol-4-sulfonate, which did not accumulate in the medium but served as growth substrate for strain S2. During growth in batch culture with sulfanilate as sole source of carbon, energy, nitrogen and sulfur, the relative cell numbers (colony forming units) of both strains were almost constant. None of the strains reached a cell number which was more than threefold higher than the cell number of the second strain. A mineral medium with sulfanilate was inoculated with different relative cell numbers of both strains (relative number of colony forming units S1:S2 2200:1 to 1:500). In all cases, growth was found and the proportion of both strains moved towards an about equal value of about 3:1 (strain S1:strain S2). In contrast to the coculture, strain S1 did not grow in a mineral medium in axenic culture with 4-aminobenzenesulfonate or any other simple organic compound tested. A sterile culture supernatant from strain S2 enabled strain S1 to grow with 4-aminobenzenesulfonate. The same growth promoting effect was found after the addition of a combination of 4-aminobenzoate, biotin and vitamin B₁₂. Strain S1 grew with 4-aminobenzenesulfonate plus the three vitamins with about the same growth rate as the mixed culture in a mineral medium. When (resting) cells of strain S1 were incubated in a pure mineral medium with sulfanilate, up to 30% of the oxidized sulfanilate accumulated as catechol-4-sulfonate in the culture medium. In contrast, only minor amounts of catechol-4-sulfonate accumulated when strain S1 was grown with 4ABS in the presence of the vitamins.Abbreviations 4ABS 4-aminobenzenesulfonate - CFU colony forming units - 4CS catechol-4-sulfonate - 4HB 4-hydroxybenzoate     

沼泽红假单胞菌培养条件的初步研究

就沼泽红假单胞菌Ｐ３．９菌株的主要培养条件进行了初步研究。Ｐ３．９菌株在厌氧光照条件下能利用多种类型的有机碳源物质;其细胞生长的最适ｐＨ为６．５—８,最佳光照强度为２０００—３０００Ｌｘ;培养基中添加酵母膏能明显促进细胞生长。在适宜的培养条件下,菌液细胞数可高达４８亿个／ｍｌ。     

The production of phenazine antibiotics by the Pseudomonas aureofaciens strain with plasmid-controlled resistance to cobalt and nickel

Plasmid pBS501 responsible for the resistance of the wild-type Pseudomonas sp. BS501 (pBS501) to cobalt and nickel ions was conjugatively transferred to the rhizosphere Pseudomonas aureofaciens strain BS1393, which is able to synthesize phenazine antibiotics and to suppress a wide range of phytopathogenic microorganisms. The transconjugant P. aureofaciens BS1393 (pBS501) turned out to be resistant to cobalt and nickel with an MIC of 8 mM. When grown in a synthetic medium with 0.25 mM cobalt, the transconjugant accumulated 6 times more cobalt than the wild-type strain BS501 (pBS501) (1.2 and 0.2 microgram Co/mg protein). Electron microscopic studies showed that cobalt accumulates on the surface of transconjugant cells in the form of electron-opaque granules. In a culture medium with 2 mM cobalt or nickel, strain BS1393 produced phenazine-1-carboxylic acid in trace amounts. The transconjugant P. aureofaciens BS1393 (pBS501) produced this antibiotic in still smaller amounts. Unlike the parent strain BS1393, the transconjugant P. aureofaciens BS1393 (pBS501) was able to suppress in vitro the growth of the phytopathogenic fungus Gaeumannomyces graminis var. tritici 1818 in a medium containing 0.5 mM cobalt or nickel.     

双歧杆菌的抗癌效应及其机制的初步研究

双歧杆菌是一种重要的革兰氏阳性无芽胞厌氧杆菌,是人类肠道正常菌群中的优势菌种。本文观察了在改变栖生环境的情况下,双歧杆菌作为生物反应调节剂发挥抗肿瘤作用及其对单核巨噬细胞的激活作用。６１５小鼠在腹腔或皮下接种肝癌Ｈ２２／Ｆ２３后,从第１天起每隔３天腹腔或皮下两种途径注射双歧杆菌进行治疗,结果表明在瘤内注射给药时显示显著的抑瘤作用。双歧杆菌激活的腹腔渗出细胞（ＰＥＣ）在形态学上表现为细胞表面积增大,细胞皱褶增多;在功能上则表现为杀瘤活性增强,激活的ＰＥＣ经Ｗｉｎｎａｓｓａｙ证明对肿瘤生长的早期或中期有明显的抑制作用,用ＭＴＴ比色法测定细胞毒进一步证实激活的ＰＥＣ在体外具有直接杀瘤作用。实验结果提示双歧杆菌激活单核一巨噬细胞是其发挥抗肿瘤作用的重要机制。由于该菌为生理性细菌,对宿主无致病性,所以其较目前已在临床上广泛应用的其它非特异性生物反应调节剂如ＯＫ４３２、卡介苗等可能更具优越性,值得深入研究。     

Effects of fructooligosaccharides and their monomeric components on bile salt resistance in three species of bifidobacteria

The influence of fructooligosaccharides (FOS) and their monomeric components on bile salt resistance of Bifidobacterium breve ATCC 15700, Bif. longum ATCC 15707 and Bif. animalis ATCC 25527 was examined. The neosugars induced fructofuranosidase activities for the degradation of these saccharides. For the three strains tested the growth was identical and bile salts had the same inhibitory effect on growth whatever the carbohydrate used. The survival of Bif. breve and Bif. longum, in the presence of glycodeoxycholic acid depended, however, on carbohydrates: the toxic effects of the bile salt could be partly alleviated by the addition of a metabolizable C-source. For Bif. animalis, the presence of any carbohydrate in the incubation medium did not enhance the viability of the strain. But in the three deconjugating strains of bifidobacteria studied, the presence of neosugar during the growth led to improved resistance to the bactericidal effect of the bile salt compared with the monomeric components of these neosugars (glucose and fructose).