长臂同源多聚酶链反应法构建变形链球菌comD基因同源重组DNA片段

目的构建变形链球菌UAl59密度感应相关的comD基因同源重组DNA片段,为利用同源重组原理构建基因功能丧失菌株做准备。方法通过NCBI基因数据库获取变形链球菌的DNA序列,利用聚合酶链反应技术分别扩增变形链球菌UA159comD基因上、下游片段及抗红霉素基因片段,再通过长臂同源多聚酶链反应将这3个片段连接起来,形成同源重组DNA片段。结果经过PCR反应和琼脂电泳分析,得到了一个碱基数为3个单片段总和的连接片段,测序结果显示连接片段为预期的comD同源重组片段。结论成功构建了变形链球菌UA159comD基因同源重组DNA片段,可直接用于细菌转化构建comD基因缺陷菌株。     

电转化法构建变形链球菌UA159 comD缺陷菌株

目的构建变形链球菌UAl59密度感应相关的comD基因缺陷菌株,为进一步研究该基因功能做准备。方法根据同源重组原理,利用变形链球菌UAl59comD基因同源重组DNA片段,采用电击转化方法获取转化菌落,通过形态学观察、生化特性检测、PCR及测序、RT-PCR对缺陷菌进行鉴定。结果在含有红霉素（10μg/mL）的琼脂平板上出现转化菌落,鉴定结果均显示转化菌为comD缺陷菌。结论成功构建了变形链球菌UA159comD基因缺陷菌株。     

变形链球菌耐氟菌株耐酸相关基因ropA的克隆及蛋白表达

克隆并表达变形链球菌耐氟菌株耐酸相关基因ropA。以变形链球菌UA159的耐氟菌株全基因组为模版,PCR扩增ropA基因并与p MD-18T克隆载体连接构建重组克隆质粒,测序鉴定。Bam HⅠ、HindⅢ双酶切重组克隆质粒,回收目的基因片段并与p Pro EX HTa表达载体通过粘性末端连接构建重组表达质粒,转化入大肠埃希菌感受态细胞DH5α,IPTG诱导,SDS-PAGE检测Rop A表达量。测序结果为变形链球菌UA159的耐氟菌株ropA基因碱基序列与亲代菌株UA159完全一致。SDS-PAGE结果显示IPTG成功诱导Rop A蛋白表达,并且随诱导时间的延长蛋白表达增多。变形链球菌UA159耐氟菌株的耐酸相关基因ropA未发生突变,说明变形链球菌耐氟菌株耐酸性增强不是由ropA碱基序列的改变导致。本研究成功诱导Rop A蛋白表达,为后续研究Rop A蛋白功能奠定了基础。     

伊犁黑蜂蜂胶对不同状态下变形链球菌乳酸脱氢酶及其相关基因影响的实验研究

目的目的通过新疆伊犁黑蜂蜂胶乙醇提取物(Ethanol Extract of Propolis,EEP)对不同状态下变形链球菌乳酸脱氢酶活性及其相关基因表达影响的作用,研究伊犁黑蜂蜂胶抑制变形链球菌产酸的原因并探讨其可能的防龋机制。方法 (1)分别培养浮游状态与生物膜状态下生长的变形链球菌,根据实验分组用含梯度浓度EEP的BHI培养基、50 mg/L氟化钠的BHI培养基作用18 h,通过还原性辅酶I氧化法测定乳酸脱氢酶活性。(2)分别培养浮游状态与生物膜状态下生长变形链球菌,根据实验分组用含梯度浓度EEP的BHI培养基、含50 mg/L氟化钠的BHI培养基作用18 h,反转录-实时荧光定量PCR(RTq PCR)法测定各组乳酸脱氢酶编码基因ldh表达情况。结果 (1)在浮游状态与生物膜状态下,EEP组和Na F组乳酸脱氢酶活性均有降低,差异具有统计学意义(P0.05)。(2)浮游状态时,实验组组和阳性对照组ldh表达明显受到抑制(P0.05);生物膜状态下,实验组在1 MBEC、1/2 MBEC、1/4 MBEC浓度时ldh表达受到抑制(P0.05),Na F组ldh表达差异没有统计学意义(P0.05)。结论伊犁黑蜂蜂胶能够抑制浮游状态与生物膜状态下变形链球菌乳酸脱氢酶活性及其编码基因ldh表达,来抑制细菌产酸,伊犁黑蜂蜂胶可能是通过此途径抑制变形链球菌产酸,从而达到防龋的效果。     

基于培养组学的健康人口腔细菌分离鉴定初探CSCD

目的 通过对口腔的不同部位进行细菌分离,扩展对口腔微生物多样性的认识,以期为后续的口腔菌群研究提供参考。方法 通过培养组学方法分离口腔不同部位的细菌,采集2个健康人扁桃体、唾液、牙菌斑3个部位的样本,使用13种培养基并于需氧和厌氧条件下进行培养,采用16S rRNA基因全长测序分析。结果 总计获得144株菌,分属36个种,10个科,3个门。其中,链球菌属细菌种类最多。基于16S rRNA基因全长相似度98.65%的阈值判定,获得5种潜在全新细菌。3个部位中,扁桃体分离的细菌种类多样性最丰富。结论 13种培养基中,BHI培养基获得的口腔细菌多样性最好;BAB培养基与TSA培养基更适合口腔链球菌生长,链球菌的比例更高;LBB培养基上只有较单一的口腔细菌生长,不适于广谱分离口腔细菌。     

单核细胞增生李斯特菌hfq基因缺失株的构建及其生物学特性

【目的】单核细胞增生李斯特菌(Listeria monocytogenes,Lm)为革兰氏阳性的短杆菌,营腐生和寄生生活,是重要的食源性人兽共患病原菌,对低温、酸碱和高渗透压等环境具有较强的抵抗力。Lm在各种环境中适应、生存并表现致病力,是与调控因子的网络调控密切相关,本文初步研究了细菌调控因子hfq的生物学特性。【方法】利用同源重组技术对血清型为1/2 a的EGDe菌株进行hfq基因的敲除,对获得的突变株EGDe△hfq进行生化鉴定及生物学特性研究。【结果】实验结果表明:在4℃低温环境下,缺失株生长显著减慢(P<0.05);在含7%Na Cl高渗BHI培养基及含4.5%乙醇的BHI培养基中生长受到抑制;缺失株形成生物被膜的能力显著下降(P<0.05);对Caco-2细胞系的侵袭能力下降;与野生型菌株相比,EGDe△hfq对BALB/c小鼠的感染能力减弱、半数致死剂量提高。【结论】由此表明,Hfq蛋白对细菌抗胁迫、生物被膜形成及细菌毒力具有重要的调控作用。此缺失株的构建为进一步研究Hfq的功能提供了材料,为研究其在Lm胁迫环境生存及疾病预防控制奠定了基础。     

生物膜定量分析仪对不同细菌早期生物膜形成能力的比较研究

目的通过生物膜定量分析仪来观察铜绿假单胞菌(Pseudomonas aeruginosa PAO1),变形链球菌(Streptococcus mutans UA159)以及大肠埃希菌(Escherichia coli MG1655)生物膜形成能力的不同,并以各菌株的吸光度值A600为参考,对3种菌株早期生物膜形成能力进行比较。方法通过向生物膜培养悬液中加入与细菌直径相近的磁性小珠,利用这些小珠在磁场中受到生物膜的位移约束力的原理,采用生物膜定量分析仪,定量比较3种菌株在生物膜形成上的差别。结果实验发现铜绿假单胞菌PAO1和大肠埃希菌MG1655的细菌增长速度基本相同,但铜绿假单胞菌PAO1的生物膜形成明显快于大肠埃希菌MG1655。大肠埃希菌MG1655和变形链球菌UA159的生物膜形成速度基本相同,但大肠埃希菌MG1655的细菌增长速度明显高于变形链球菌UA159。结论不同细菌有各自的生物膜形成模式。生物膜定量分析仪作为一种高效简便的检测手段,可用于生物膜早期形成的动态分析。     

ComD基因缺陷对变异链球菌生物膜形成的影响

目的观察变异链球菌密度感应信号系统相关基因ComD基因缺失前后变形链球菌生物膜成熟初期的变化情况,探讨ComD基因对变异链球菌形成菌斑生物膜的影响,从而为防治龋病提供实验依据和新方法。方法分别构建标准菌和缺陷菌在离体模型上的培养模型,通过扫描电镜观察两个实验组在6 h、12 h、24 h三个不同时间点的生物膜形成情况。结果在三个不同时间点观察生物膜形成,扫描电镜结果显示培养6 h和12 h两种菌株形成生物膜无明显差异,培养24 h后发现ComD缺陷菌形成的生物膜中细菌定植较少且生物膜孔隙大而疏松。结论与标准菌株相比,ComD基因缺陷的变异链球菌在成熟初期生物膜表型有明显缺陷,因此ComD基因可以作为防治龋病的靶点之一。     

替代失活法构建变形链球菌LuxS基因缺陷株

目的 LuxS基因是变形链球菌生物膜早期形成过程中的关键基因,构建该基因的缺陷菌。方法采用长臂同源多聚酶链反应（LFH-PCR）方法构建含红霉素耐药基因片段的LuxS基因上、下游同源序列的连接片段,转化到变形链球菌中,在红霉素的平板上筛选缺陷菌株,并采用PCR鉴定。结果对变形链球菌LuxS基因缺陷菌株进行PCR和DNA序列测定分析证实构建成功。结论成功构建出变形链球菌LuxS基因的缺陷菌株,为后期针对变形链球菌LuxS基因的相关研究奠定基础。     

赤藓糖醇对主要致龋链球菌及耐氟菌株生长和产酸的影响

目的通过赤藓糖醇对变形链球菌、远缘链球菌及其耐氟菌株混合菌生长和产酸影响的体外研究,为赤藓糖醇防龋作用的机理提供制论依据。方法采用最小抑菌浓度递增法对变形链球菌（S.mutans ATCC 25175,S.m）、远缘链球菌（S.sobrinus 6715,S.s）进行氟化钠体外诱导耐氟菌株（S.m-FR、S.s-FR）,利用液体稀释法配制赤藓糖醇TSB液8个浓度,分别加入含有变形链球菌、远缘链球菌及其耐氟菌株的细菌混悬液48 h,用比浊法观察其对混合菌生长的影响,并用pH计测定培养前后上清液的△pH值。结果吸光度A值和△pH值实验前后与对照组相比最低浓度为12%时差异均有统计学意义（P〈0.05）,且随着浓度的升高A值和△pH值均下降。结论赤藓糖醇能抑制变形链球菌、远缘链球菌及耐氟菌株混合菌生长和产酸,并且随着浓度的升高抑制作用增强。     

LuxS基因缺陷对变形链球菌生物膜形成的影响

目的观察LuxS基因缺失后变形链球菌生物膜成熟初期的变化情况。方法通过扫描电镜观察标准菌和缺陷菌在不同营养环境中生物膜成熟初期的形成情况。结果对不同营养环境中形成的生物膜观察,发现在富含蔗糖的环境中,缺陷菌成熟初期的生物膜形成能力较标准菌弱。结论 LuxS基因缺失后变形链球菌在蔗糖环境中生物膜形成的能力减弱。     

罗伊乳杆菌对致龋变形链球菌拮抗作用的研究

目的研究罗伊乳杆菌对变形链球菌的拮抗作用,初步了解产生拮抗作用的原因。方法利用罗伊乳杆菌无菌上清液,应用双层平板打孔法测定其抑菌效果,再通过滤纸片抑菌法对罗伊乳杆菌发酵的酸乳制品与普通酸乳制品对变形链球菌的抑菌作用进行比较,用饱和硫酸铵沉淀法分析产生拮抗作用的原因。结果罗伊乳杆菌有显著抑菌活性（P〈0.05）,仅罗伊乳杆菌的发酵乳样品对变性链球菌产生直径为6.3mm抑菌圈,80%饱和硫酸铵沉淀的细菌素抑菌活力最强,蛋白酶K处理后无明显抑菌圈。结论本研究证明了罗伊乳杆菌的代谢产物以及罗伊乳杆菌发酵的酸奶制品对致龋菌变形链球菌有着明显的拮抗作用。     

Influence of Incubation Atmosphere on Growth and Amino Acid Requirements of Streptococcus mutans

The growth response of Streptococcus mutans representing antigenic type a or d in a chemically defined medium was influenced by the oxygen concentration of the growth atmosphere. Under controlled aerobic (1.5% O(2)) conditions these cultures attained a greater density than when the atmosphere contained 0.006% O(2) or less. The growth of S. mutans strains representing antigenic types b or c in the defined medium was independent of the oxygen concentration of the growth environment. Under the conditions used in this study, none of the strains tested could utilize ammonium ion as a sole source of nitrogen for growth. The requirement for certain amino acids and inhibition by other amino acids varied with antigenic type and relative oxygen concentration of the growth environment. Under conditions where the atmospheric oxygen was reduced to 0.0006% O(2) or less, the amino acid requirements of the cultures became either more numerous or more stringent. S. mutans strains of type c generally required the least number of amino acids, whereas cultures of type d had more numerous requirements. Nearly every culture tested under the anaerobic atmosphere was inhibited by one of the branched-chain amino acids, leucine, valine, or isoleucine. Methionine and lysine were also found to be inhibitory, particularly toward the type c strains.     

Comparison of extracellular protein profiles of seven serotypes of mutans streptococci grown under controlled conditions

Extracellular proteins produced by the four human commensal species of mutans streptococci were analysed. The organisms used were Streptococcus mutans, serotypes c, e and f, Streptococcus cricetus, serotype a, Streptococcus rattus, serotype b, and Streptococcus sobrinus, serotypes d and g. They were grown in continuous culture at different generation times and pH values in media containing either glucose or fructose to determine the extent of variation in extracellular protein production that could occur for an individual strain. The results for different organisms grown under the same conditions were then compared. The total amount of protein of molecular mass greater than or equal to 60 kDa varied considerably with the growth conditions and with the strain. Generally more protein was present at a higher pH, conditions under which the organisms also form more lipoteichoic acid. With respect to individual protein components SDS-PAGE proved better than isoelectric focusing for detecting phenotypic responses by a particular strain to environmental changes and differences between the different strains. Differences in the molecular masses of protein components were particularly pronounced in the regions designated P1 (185-200 kDa), P2 (130-155 kDa) and P3 (60-95 kDa). Every strain produced at least one component in the P1 region that cross-reacted with antiserum to the purified protein from S. mutans serotype c, a protein which is indistinguishable from antigens B and I/II. Two components in the P2 region were dominant in the case of S. cricetus and S. sobrinus strains and showed glucosyltransferase (GTF) activity. GTF activity was also detected in the P3 region, particularly with S. mutans strains.     

Physiologic effects of forced down-regulation of dnaK and groEL expression in Streptococcus mutans

Strains of Streptococcus mutans lacking DnaK or GroEL appear not to be isolable. To better distinguish the roles played by these chaperones/chaperonins in the physiology of S. mutans, we created a knockdown strategy to lower the levels of DnaK by over 95% in strain SM12 and the level of GroEL about 80% in strain SM13. Interestingly, GroEL levels were approximately twofold higher in SM12 than in the parent strain, but the levels of DnaK were not altered in the GroEL knockdown strain. Both SM12 and SM13 grew slower than the parent strain, had a strong tendency to aggregate in broth culture, and showed major changes in their proteomes. Compared with the wild-type strain, SM12 and SM13 had impaired biofilm-forming capacities when grown in the presence of glucose. The SM12 strain was impaired in its capacity to grow at 44 degrees C or at pH 5.0 and was more susceptible to H(2)O(2), whereas SM13 behaved like the wild-type strain under these conditions. Phenotypical reversions were noted for both mutants when cells were grown in continuous culture at a low pH, suggesting the occurrence of compensatory mutations. These results demonstrate that DnaK and GroEL differentially affect the expression of key virulence traits, including biofilm formation and acid tolerance, and support that these chaperones have evolved to accommodate unique roles in the context of this organism and its niche.     

Application of a competition model to the growth of Streptococcus mutans and Streptococcus sanguis in binary continuous culture

Streptococcus mutans 6715-15 and Streptococcus sanguis 10558 were grown together in continuous culture with glucose as the limiting carbon source. The relationship of growth rate to substrate concentration was determined for pure cultures of each organism in continuous and batch cultures. A model based on competition for a growth-limiting substrate (glucose) was used to predict the proportions of each organism when grown in binary cultures. The results indicate that interactions other than competition for glucose carbon exist between S. mutans and S. sanguis grown under these conditions.     

Application of a competition model to the growth of Streptococcus mutans and Streptococcus sanguis in binary continuous culture.

Streptococcus mutans 6715-15 and Streptococcus sanguis 10558 were grown together in continuous culture with glucose as the limiting carbon source. The relationship of growth rate to substrate concentration was determined for pure cultures of each organism in continuous and batch cultures. A model based on competition for a growth-limiting substrate (glucose) was used to predict the proportions of each organism when grown in binary cultures. The results indicate that interactions other than competition for glucose carbon exist between S. mutans and S. sanguis grown under these conditions.     

Functions of Two Types of NADH Oxidases in Energy Metabolism and Oxidative Stress of Streptococcus mutans

We have previously identified two distinct NADH oxidases corresponding to H(2)O(2)-forming oxidase (Nox-1) and H(2)O-forming oxidase (Nox-2) induced in Streptococcus mutans. Sequence analyses indicated a strong similarity between Nox-1 and AhpF, the flavoprotein component of Salmonella typhimurium alkyl hydroperoxide reductase; an open reading frame upstream of nox-1 also showed homology to AhpC, the direct peroxide-reducing component of S. typhimurium alkyl hydroperoxide reductase. To determine their physiological functions in S. mutans, we constructed knockout mutants of Nox-1, Nox-2, and/or the AhpC homologue; we verified that Nox-2 plays an important role in energy metabolism through the regeneration of NAD(+) but Nox-1 contributes negligibly. The Nox-2 mutant exhibited greatly reduced aerobic growth on mannitol, whereas there was no significant effect of aerobiosis on the growth on mannitol of the other strains or growth on glucose of any of the strains. Although the Nox-2 mutants grew well on glucose aerobically, the end products of glucose fermentation by the Nox-2 mutant were substantially shifted to higher ratios of lactic acid to acetic acid compared with wild-type cells. The resistance to cumene hydroperoxide of Escherichia coli TA4315 (ahpCF-defective mutant) transformed with pAN119 containing both nox-1 and ahpC genes was not only restored but enhanced relative to that of E. coli K-12 (parent strain), indicating a clear function for Nox-1 as part of an alkyl hydroperoxide reductase system in vivo in combination with AhpC. Surprisingly, the Nox-1 and/or AhpC deficiency had no effect on the sensitivity of S. mutans to cumene hydroperoxide and H(2)O(2), implying that the existence of some other antioxidant system(s) independent of Nox-1 in S. mutans compensates for the deficiency.