蓝藻抗病毒蛋白 N

蓝藻抗病毒蛋白N(cyanovirin-N)是Boyd等1997年在蓝藻中发现的一种抗病毒蛋白,其抗病毒机制是与病毒表面衣壳蛋白上的甘露寡糖结合,阻止病毒与宿主细胞表面的受体结合。由于近年不断发现它对各种严重的RNA逆转录病毒的抗病毒活性而倍受关注。     

人乳头瘤病毒外壳蛋白研究进展

人乳头瘤病毒（ＨＰＶ）的晚期转录区（Ｌ区）编码病毒的两个外壳蛋白;主要外壳蛋白（Ｌ１）和次要外壳蛋白（Ｌ２）,外壳蛋白具有组装功能,有抗原表位,在宿主细胞表面有蛋白受体。本就ＨＰＶ外壳蛋白的分子特性,组装功能,表达,抗原表位及血清学,受体,病毒外壳蛋白的组织等研究进展作一综述。     

细菌运载蛋白及在表面展示技术中的应用进展

细菌细胞表面展示技术是一项新的蛋白质应用技术,其体系由运载蛋白、靶蛋白和宿主菌三者构成,一般可将其分为革兰阴性菌展示体系和革兰阳性菌展示体系两大类。目前已证实多种具有锚定活性的运载蛋白,并用于不同靶蛋白的细胞表面展示体系。该技术现已被应用于活体重组疫苗的开发、蛋白质文库构建与筛选、生物传感器、全细胞生物催化剂、全细胞生物吸附与降解等多个研发领域。     

InlA和InlB介导单核细胞增生李斯特菌入侵宿主细胞分子机制的研究进展

单核细胞增生李斯特菌(Listeria monocytogenes)是一种革兰氏阳性食源性致病菌。在造成宿主食源性感染的过程中, 单核细胞增生李斯特菌能凭借其独特的表面蛋白入侵宿主的非吞噬细胞。内化素蛋白家族(Internalins)是介导单核细胞增生李斯特菌入侵宿主非吞噬细胞的主要因子。本文根据国内外一些最新的研究成果, 结合作者近几年的工作, 综述了在侵染宿主的过程中, 单核细胞增生李斯特菌主要的内化素蛋白InlA和InlB介导细菌入侵宿主细胞的分子机制, 以期为阐明食源性致病菌致病机理、预防和治疗食源性疾病提供理论基础。     

病毒逃逸补体的机制

补体系统是宿主免疫防御外来病原体的第1道防线,包括对病毒的防御.补体系统可通过黏附在病原体表面利于宿主细胞吞噬、形成膜攻击复合体导致病原体溶解、释放过敏毒素引起炎症反应等多条途径清除外来病原体.然而,在与宿主一起进化的过程中,某些病毒已经建立了逃逸补体系统的策略,这些策略包括编码补体调控蛋白、从宿主获得膜调控蛋白以及利用宿主膜补体受体进入宿主细胞.本文就病毒逃逸补体系统作用的策略的研究进展作一综述.     

蛋白指纹图——一种新的病毒鉴定系统

<正>病毒蛋白可以通过单向SDS—PAGE进行分离而产生蛋白带图谱。这种图型或称指纹图对于不同的病毒是独特的。如果在病毒复制期间,由于病毒本身诱导或外加诱导抑制宿主蛋白合成,从而排除其干扰的情况下,这一规律可作为鉴定病毒的实用方法而加以应用。最近,我们介绍过一个适用于类似单纯疱疹病毒(HSV)鉴定的蛋白指纹图法。这类病毒在复制期可充分持续地抑制宿主蛋白的合成。 这里,我们介绍对于本身并不引起宿主蛋白合成抑制的病毒蛋白指纹图鉴定方法。该法依赖于在病毒复制期,对宿主蛋白的合成加以选择性地外源抑制。以没有宿主细胞蛋白干扰的感染有病毒的细胞培养物、可以直接显现能以重复的蛋白指纹图。     

宿主细胞内SARS-CoV N蛋白相互作用蛋白的筛选与鉴定

SARS-CoVN蛋白可与病毒RNA形成复合物,也可与病毒或宿丰细胞中多种蛋白质相互作用,影响宿主细胞的多个信号转导通路,干扰宿主细胞的细胞周期,从而改变宿主细胞的生命活动.利用酵母双杂交技术筛选了15个宿丰细胞内与SARS-CoVN蛋白的相互作用蛋白,其中包括信号传导组分7种,蛋白激酶3种,细胞因子2种,未知功能蛋白3种.并利用免疫共沉淀方法进一步证实了趋化因子CXCL16是宿主细胞与SARS-CoV核衣壳蛋白的相互作用蛋白.     

L-型细菌蛋白表达系统

L-型细胞由于缺乏细胞壁以及具有的其它特殊生物学特性,通过连接合适的信号肽,可以用于许多外源蛋白的可溶性,功能活性形式的分泌表达,表达产物在培养基中,表达的产量依赖于不同的基因序列,载体,宿主和诱导表达条件等因素,此外,L-型细菌还能将具有功能活性的蛋白展示在胞浆膜表面。     

棘突蛋白在冠状病毒跨宿主感染中的作用

冠状病毒感染有相对严格的宿主和组织特异性,其中部分病毒演化中会发生细胞嗜性改变。冠状病毒的跨宿主感染能力主要取决于病毒表面棘突蛋白的变异及其与受体相互作用的特异性改变。棘突蛋白的变异主要集中在受体结合域（RBD）,其他区域也与病毒感染的宿主细胞特异性有关。另外,较大的RNA基因组、独特的套氏亚基因组转录、复制过程中模板转换引起的高频率基因重组等使冠状病毒不断出现毒力或宿主变异,而共感染和持续性感染则为病毒重组及跨宿主感染提供了机会。     

囊膜病毒膜融合分子机制研究进展

囊膜病毒通过病毒与宿主细胞膜融合的方式感染宿主,病毒囊膜蛋白介导了膜融合过程。根据这些囊膜蛋白在病毒囊膜表面的排列、蛋白结构及其在融合肽中的位置不同,可将囊膜病毒分为三类,其利用这些囊膜特殊的蛋白分子与受体相互作用完成膜融合。在分子水平上研究这一过程有助于认识病毒侵染的本质和发现关键环节,达到预防与治疗病毒病的目的。     

Genome sequence of Staphylococcus lugdunensis N920143 allows identification of putative colonization and virulence factors

Staphylococcus lugdunensis is an opportunistic pathogen related to Staphylococcus aureus and Staphylococcus epidermidis. The genome sequence of S. lugdunensis strain N920143 has been compared with other staphylococci, and genes were identified that could promote survival of S. lugdunensis on human skin and pathogenesis of infections. Staphylococcus lugdunensis lacks virulence factors that characterize S. aureus and harbours a smaller number of genes encoding surface proteins. It is the only staphylococcal species other than S. aureus that possesses a locus encoding iron-regulated surface determinant (Isd) proteins involved in iron acquisition from haemoglobin.     

Effects of fibronectin on the compact colony formation in staphylococci

Fifty-two unencapsulated strains of Staphylococcus aureus, including strains of Wood 46 and Cowan I, formed compact colonies in fibronectin -soft agar. However, 20 encapsulated strains of Staphylococcus aureus and 50 strains of Staphylococcus epidermidis showed diffuse growth in the medium. The results suggest that another possible cellular factor, other than protein A, is involved in the binding of the cell surface with fibronectin and that it would be one of factors in forming compact colonies in serum-soft agar.     

金黄葡萄球菌fnbB基因的克隆及在大肠杆菌中的表达

金黄色葡萄球菌（Staphylococcus aureus）是引起奶牛乳房炎主要致病菌之一,主要通过其菌体表面的黏附素侵入寄主细胞引起疾病,为奶牛业造成巨大损失。金黄色葡萄球菌表面蛋白纤连蛋白结合蛋白(fibronectin-binding protein,FnBP)是其关键的黏附因子,在研制抗金黄色葡萄球菌的新型疫苗中占有重要地位.本文根据GenBank中纤连蛋白结合蛋白B基因（fnbB）序列设计特异性引物,以金黄葡萄球菌基因组DNA为模板,进行PCR扩增,获得3 458 bp 的DNA片段。使用T-A克隆技术,将PCR产物克隆至pGEM T easy Vector中,成功构建出了克隆质粒pGEM-fnbB。以 BamHI和XhoI 双酶切pGEM-fnbB和pET28a(+),并将纯化的基因fnbB 亚克隆至pET28a(+)中,构建出原核表达质粒pET28a-fnbB,并将其转化至E.coli BL21(DE3)感受态细胞中,经1 mmol/L的IPTG诱导和SDS-PAGE分析,在约165 ku 处出现了与预期目的蛋白相一致的外源蛋白带,Western blot分析结果表明该蛋白具有金黄葡萄球菌的抗原性。金黄葡萄球菌pET28a-fnbB成功表达为金黄葡萄球菌引起的奶牛乳房炎的诊断和研究新型疫苗奠定基础。     

Inhibition of virulence factor expression in Staphylococcus aureus by the Staphylococcus epidermidis agr pheromone and derivatives.

The agr quorum-sensing system in Staphylococci controls the production of surface proteins and exoproteins. In the pathogenic species Staphylococcus aureus, these proteins include many virulence factors. The extracellular signal of the quorum-sensing system is a thiolactone-containing peptide pheromone, whose sequence varies among the different staphylococcal strains. We demonstrate that a synthetic Staphylococcus epidermidis pheromone is a competent inhibitor of the Staphylococcus aureus agr system. Derivatives of the pheromone, in which the N-terminus or the cyclic bond structure was changed, were synthesized and their biological activity was determined. The presence of a correct N-terminus and a thiolactone were absolute prerequisites for an agr-activating effect in S. epidermidis, whereas inhibition of the S. aureus agr system was less dependent on the original structure. Our results show that effective quorum-sensing blockers that suppress the expression of virulence factors in S. aureus can be designed based on the S. epidermidis pheromone.     

Adherence of Staphylococcus aureus is enhanced by an endogenous secreted protein with broad binding activity

A novel mechanism for enhancement of adherence of Staphylococcus aureus to host components is described. A secreted protein, Eap (extracellular adherence protein), was purified from the supernatant of S. aureus Newman and found to be able to bind to at least seven plasma proteins, e.g., fibronectin, the alpha-chain of fibrinogen, and prothrombin, and to the surface of S. aureus. Eap bound much less to cells of Staphylococcus epidermidis, Streptococcus mutans, or Escherichia coli. The protein can form oligomeric forms and is able to cause agglutination of S. aureus. Binding of S. aureus to fibroblasts and epithelial cells was significantly enhanced by addition of Eap, presumably due to its affinity both for plasma proteins on the cells and for the bacteria.     

Peptostreptococcus micros coaggregates with Fusobacterium nucleatum and non-encapsulated Porphyromonas gingivalis

Numerous in vitro studies have demonstrated that Staphylococcus aureus may be internalized and survive in a bovine mammary epithelial cell line. We report here the presence of internalized and living S. aureus in alveolar cells and macrophages in milk samples of bovine mastitis. We used fluorochrome labeled monoclonal antibodies, specifically recognizing surface cell markers of bovine alveolar cells and macrophages, to isolate these two types of cells using fluorescence activated cell sorting. Extracellular bacteria and DNA were previously eliminated to exclude possible contamination. In order to detect intracellular bacterial DNA inside the isolated cells, we used PCR amplification of bacterial DNA and the PCR products were analyzed by Southern blot with a specific probe for Staphylococcus. The results showed the presence of Staphylococcus DNA inside the two isolated populations of cells, confirming that S. aureus could penetrate alveolar cells and macrophages. The demonstration of the presence of intracellular living S. aureus was determined by bacteriological culture of positive samples plated onto blood agar plates and by its further identification. Our results showed for the first time that living S. aureus and its DNA are present in both alveolar cells and macrophages in chronically infected cow milk.     

Electron microscopy study of bacterial adhesiveness

The interaction of Staphylococcus aureus, Yersinia enterocolitica, Y. pseudotuberculosis, Y. intermedia, Y. frederikseni, Y. kristenseni and erythrocytes was studied with the use scanning electron microscopy. Highly adhesive and moderately adhesive Staphylococcus and Yersinia strains displayed both individual coated bacterial cells and groups of cells interconnected by common intercellular matrix on the surface of erythrocytes. In nonadhesive Staphylococcus and Yersinia strains no coating was detected on the surface of bacterial cells. Some of Staphylococcus and Yersinia cells interacting with erythrocytes were at the stage of heteromorphism with different manifestations of L-transformation (cells with cell wall defects, spheroplasts and protoplasts). Heteromorphic cells did not adhere to the surface of erythrocytes.     

Immunity induced by Staphylococcus aureus surface protein A was protective against lethal challenge of Staphylococcus aureus in BALB/c mice

Staphylococcus aureus is the most common cause of hospital-acquired bacteremia. Due to emergence of antibiotic-resistant strains, these infections present a serious public health threat. In this study, to develop a broadly protective vaccine, we tested whether immune responses induced by several proteins associated with S. aureus toxicity could protect mice from lethal challenge with human clinical S. aureus isolate USA300. We found that the surface protein A (SasA) of S. aureus could protect mice from lethal challenge of the bacteria.     

金黄色葡萄球菌所致肺部感染的耐药特点及其Panton—Valentine杀白细胞素基因的携带状况分析

目的分析金黄色葡萄球菌所致肺部感染的耐药性特点及其Panton—Valentine杀白细胞素基因的携带状况。方法回顾性调查了温州医学院第一附属医院2005年1月至2006年1月医院感染的金黄色葡萄球菌所致肺部感染患者132例,对其体外药敏试验进行分析;并利用多重PCR检测其PVL基因,应用多位点基因序列分型（multilocus sequence typing,MLST）技术对PVL基因阳性的菌株进行序列分型。耐甲氧西林金黄色葡萄球菌（methicillin-resistant Staphylococcus aureus,MRSA）的SCCmec基因分型采用多重聚合酶链反应。结果致肺部感染的132株金黄色葡萄球菌的耐药现象较为严重,仅对万古霉素、呋喃妥因及复方新诺明等药物的敏感率较高;其中经多重PCR筛选出10株携带PVL基因的金葡菌,全部为MRSA菌株,3株为ST239-SCCⅢ,2株为ST398-SCCmecⅢ,2株为ST398-SCCmecⅣ,ST25-SCCmecⅢ、ST59-SCCmecⅠ和ST88-SCCmecⅢ各1株。结论肺部感染的金黄色葡萄球菌对多种抗生素耐药,呈多重耐药性;其携带PVL基因占一定比例。     

Staphylococcus aureus adhesion to bone matrix and bone-associated biomaterials

Staphylococcus aureus is a frequent cause of orthopedic infections in humans. The bacterium expresses several adhesins that facilitate bacterial binding to the bone matrix and to bone implant biomaterials coated with host plasma constituents. The relevant S. aureus adhesins are termed microbial surface components recognizing adhesive matrix molecules (MSCRAMMs) and specific MSCRAMMs are involved in bone and joint infections.