溶血素 E基因原核表达载体的构建与蛋白诱导表达

目的构建大肠杆菌(Escherichia Coli,E.coli)溶血素E(Hemolysin E)基因的重组质粒pCZN1-hlyE,诱导表达目的蛋白。方法通过NCBI数据库检索获取E.coli Hemolysin E基因序列(NC_000913.3),采用基于PAS(PCR-based Accurate Synthesis)的全基因合成法,设计全长拼接引物,合成目的基因,并成功构建重组质粒pCZN1-hlyE。将构建好的pCZN1-hlyE重组质粒转入大肠杆菌TOP10菌株中,并用异丙基-β-D-硫代半乳糖苷(IPTG)诱导Hemolysin E基因的表达,生成Hemolysin E毒力蛋白。结果经SDS-PAGE凝胶电泳,Western blot分析鉴定目的蛋白Hemolysin E分子量为28.72 kDa,与Hemolysin E基因核酸序列经DNAMAN软件分析所得蛋白分子量一致。结论被诱导表达的Hemolysin E蛋白存在于菌体裂解液上清中,并纯化制备重组蛋白。

单核细胞增生李斯特菌LLO-InlP缺失株的构建及部分生物学特性研究

目的构建单核细胞增生李斯特菌LLO-InlP缺失株,探究LLO、InlP基因对单核细胞增生李斯特菌生物学特性的影响。方法通过温度敏感型(Ts)质粒载体基因敲除法,构建单核细胞增生李斯特菌LM681ΔInlP、LM681ΔLLO-InlP基因缺失株,通过检测不同时间的OD 600 nm值绘制生长曲线分析LM681、LM681ΔInlP、LM681ΔInlP-ΔLLO三株菌的体外生长能力;以感染复数MOI值为10感染细胞,测定LM681、LM681ΔInlP、LM681ΔInlP-ΔLLO对人绒毛膜滋养层细胞(HTR-8/SV40)、人绒毛膜癌细胞(JEG-3)黏附侵袭能力;动物水平上测定小鼠半数致死量、感染后的脑、肝、脾载菌量。结果成功获得片段大小为1125 bp的缺失株LM681ΔInlP、LM681ΔInlP-ΔLLO(亲本株LM681为2292 bp);生长曲线结果显示,各菌OD 600值无统计学差异;3株菌体外感染HTR-8/SV40细胞、JEG-3细胞黏附侵袭试验结果显示,LM681ΔInlP、LM681ΔInlP-ΔLLO较LM681对HTR-8/SV40细胞、JEG-3细胞黏附侵袭率均极显著降低(HTR-8/SV40细胞F LM681ΔInlP-LM681=102.792、F_(LM681ΔInlP-ΔLLO-LM681)=128.459,均P<0.01,JEG-3细胞F LM681ΔInlP-LM681=203.755、F_(LM681ΔInlP-ΔLLO-LM681)=81.279,均P<0.01);LM681亲本株的LD_(50)为10^(6.78),LM681ΔInlP缺失株的LD_(50)为107.45,在攻毒剂量范围LM681ΔInlP-ΔLLO不存在LD_(50),LM681ΔInlP-ΔLLO较LM681的LD_(50)提高了6.78个对数数量级,LM681ΔInlP-ΔLLO组织载菌量整体较亲本株LM681降低。结论LLO、InlP基因缺失在动物感染水平和体外培养细胞感染水平上均极大程度的降低了LM的的毒力,且InlP基因对LM681菌株黏附侵袭滋养层细胞具有一定意义,为研究InlP在单核细胞增生李斯特菌致病中的作用奠定基础。

新型不完全溶血表型金黄色葡萄球菌的微生物学特征

目的探讨一种新型不完全溶血表型金黄色葡萄球菌(SIHP)的微生物学特征。方法采用三点接种法检测溶血表型,共纳入11株新型SIHP和33株随机匹配的完全溶血表型金黄色葡萄球菌(SCHP)。采用微量肉汤稀释法检测新型SIHP和SCHP的耐药特征,冻干兔血浆检测凝固酶活性,玻片法检测触酶活性,实时荧光定量PCR检测溶血素基因mRNA水平,微孔板法检测红细胞毒性,微孔板成膜结晶紫染色法检测生物膜形成能力,微量培养法监测生长曲线。结果与SCHP相比,新型SIHP的hla、hlb、hlc和hld四种溶血素基因表达谱不同;新型SIHP对青霉素、苯唑西林、庆大霉素、喹诺酮类、克林霉素和复方磺胺甲口恶唑的耐药率更高;新型SIHP不仅具有更强的溶血毒性、血浆凝固酶活性和生物膜形成能力,而且对数期生长更快。结论新型SIHP的微生物学特征有别于SCHP,耐药性和致病性更强,应引起临床重视。

水生动物病原菌Ⅵ型分泌系统(T6SS)及其溶血素共调节蛋白研究进展

Ⅵ型分泌系统(typeⅥsecretion system,T6SS)是多种革兰氏阴性菌编码的蛋白分泌装置,在毒力因子释放、生物被膜形成、铁离子摄取、囊泡运输、环境压力适应性及细菌胞内存活等方面发挥着重要功能,在副溶血弧菌(Vibrio parahaemolyticus)、溶藻弧菌(Vibrio alginolyticus)、哈维氏弧菌(Vibrio harveyi)、嗜水气单胞菌(Aeromonas hydrophila)和迟钝爱德华氏菌(Edwardsiella tarda)等水生动物病原菌的致病过程中发挥着关键作用。然而,有关水生动物病原菌T6SS组分及其功能的报道还比较匮乏。本文对几种水生动物病原菌T6SS的生物学功能与调控机理,以及T6SS关键调控因子溶血素共调节蛋白Hcp的系统进化关系与功能等最新研究情况进行了综述,并在水生动物病原菌T6SS的生物学功能、T6SS活性调控与环境因素的关联性、T6SS与致病菌代谢之间的调控关系等方面提出未来研究建议,以期为进一步开展水生动物致病机制研究及水产养殖细菌病的防控提供新思路。

回毒银花散中各药及药物不同配比对耐甲氧西林金黄色葡萄球菌的作用研究

目的研究《外科正宗》中回毒银花散对耐甲氧西林金黄色葡萄球菌(methicillin⁃resistant Staphylococcus aureus,MRSA)的抑菌能力以及毒力因子α-溶血素(α⁃hemolysin,Hla)活性和生物被膜形成的抑制作用,同时探究回毒银花散最佳配比为古方新用提供实验支撑。方法通过最低抑菌浓度(minimum inhibitory concentration,MIC)、最低杀菌浓度(minimum bactericidal concentration,MBC)、纸片扩散法(K⁃B法)分析回毒银花散及组方中各味药对MRSA菌株USA300的抑制效果,溶血实验、Hla中和实验、Hla寡聚实验、免疫印记(Western blot)实验验证药物以何种形式抑制毒力因子Hla的活性,生物被膜形成实验评价回毒银花散对生物被膜的抑制效果,最后正交实验探究回毒银花散的最佳配比。结果回毒银花散抑制MRSA菌株,MIC_(90)为64 mg/mL,MBC为256 mg/mL,抑菌圈直径为(7.50±0.50)mm。回毒银花散还通过抑制Hla的释放抑制Hla的活性,最小有效浓度(minimum effective concentration,MEC)为16 mg/mL,抑制生物被膜形成的MEC为8 mg/mL。回毒银花散中金银花、黄芪只影响MRSA溶血活性以及生物被膜形成但不抑制细菌的生长,两药溶血活性MEC以及生物被膜形成MEC均为32 mg/mL;甘草抑菌能力较强,MIC_(90)为8 mg/mL,生物被膜MEC为1 mg/mL,在亚抑菌浓度下未表现出抑制溶血活性。最后正交实验显示,当回毒银花散中金银花、黄芪、甘草比例为1∶2∶4时,MIC_(90)为16 mg/mL,溶血活性MEC为8 mg/mL,生物膜形成MEC为4 mg/mL,均为9组中最低。结论回毒银花散在亚抑菌浓度下可影响MRSA的溶血活性以及生物被膜形成,其中金银花、黄芪、甘草的最佳比例为1∶2∶4。

溶血相关基因缺失降低鳗弧菌感染花鲈的致病性

为阐明毒力因子溶血素对鳗弧菌感染花鲈过程中发挥的作用,实验以花鲈为研究对象,通过对花鲈幼鱼分别注射5.0×10^(5)CFU鳗弧菌野生株和缺失株△vah1-vah4-rtxA,评估了溶血相关基因缺失对花鲈的感染能力、花鲈各组织的病理变化情况以及免疫响应的影响。结果显示,花鲈感染野生株后的LD_(50)为2.103×10^(5)CFU/mL,感染缺失株△vah1-vah4-rtxA后LD_(50)为1.837×10^(6)CFU/mL,溶血相关基因缺失使鳗弧菌毒性降到原来的11.44%;鳗弧菌主要定植在花鲈的肠道和鳃中,溶血相关基因缺失降低鳗弧菌在花鲈体内的定植能力,同时降低对鳃和肠道的损伤程度;转录组分析表明vah1、vah4和rtxA缺失后,头肾组织的差异表达基因显著富集到造血细胞谱系、抗原处理和呈递、细胞黏附分子、肠道免疫网络的IgA生产等免疫通路,并用实时荧光定量PCR(qRT-PCR)对表达水平进行了验证。研究表明,溶血相关基因缺失降低了鳗弧菌感染花鲈的致病能力。研究结果有助于进一步了解鳗弧菌的致病机制,并为开发花鲈抗弧菌免疫增强剂或减毒疫苗提供依据。

牛乳腺炎粪肠球菌逃逸巨噬细胞的分子机制研究

为研究牛乳腺炎粪肠球菌β溶血素cylA基因对牛单核巨噬细胞(BMC-7)吞噬功能和免疫调节的分子机制,利用牛乳腺炎粪肠球菌临床分离的野生型菌株(BME1708)及cylA基因缺失突变株(BME1708△cylA)对牛巨噬细胞进行侵染,利用MTT检测法检测细胞活性;在明确细胞活性不受影响的条件下,提取被侵染的BMC-7总mRNA,利用RT-qPCR检测细胞因子IL-4、IL-8、IL-10、IL-12、TNF-α以及NOS2的转录水平差异,采用ELISA法检测相应表达水平;利用Western blot检测牛乳腺炎粪肠球菌cylA基因对BMC-7的p38 MAPK信号通路磷酸化水平的影响;利用p38 MAPK信号通路抑制剂(PD 169316)孵育BMC-7,ELISA法检测相应细胞因子表达水平,以明确cylA基因调控该信号通路的分子机制。结果显示:与BME1708组相比,BME1708△cylA组在IL-10和TNF-α转录水平下调,IL-4、IL-8、IL-12以及NOS2转录水平上调,差异均具有统计学意义(P<0.05);与BME1708组相比,BME1708△cylA组IL-10表达水平下调,IL-4、IL-8、IL-12表达水平上调,差异均具有统计学意义(P<0.05);TNF-α的表达水平降低,但是差异不显著;对p38 MAPK磷酸化检测结果显示,粪肠球菌cylA基因可以激活p38 MAPK信号通路并使其磷酸化;在PD 169316孵育后,与未添加抑制剂组相比,添加抑制剂组的IL-10、TNF-α的表达水平下调,IL-4、IL-8、IL-12的表达水平上调,差异均具有统计学意义(P<0.05)。上述结果表明,p38 MAPK信号通路为粪肠球菌β溶血素cylA基因发挥免疫调节机制的重要通路,该结论为奶牛乳腺炎的治疗及防控提供新的靶位,可通过其毒力的钝化以及对p38 MAPK信号通路进行识别及信号通路封闭,对粪肠球菌感染进行有效防控。

灵芝孢子糖肽对荷瘤小鼠的特异性免疫调节作用研究

为考察灵芝孢子糖肽对荷瘤小鼠的特异性免疫调节作用,建立S180荷瘤小鼠模型,随机设4个处理组(空白组,模型组,阳性药云芝胞内糖肽胶囊组,阳性药环磷酰胺组),灵芝孢子糖肽设低、中、高(130 mg∕kg、260 mg∕kg、520 mg∕kg)三个剂量组。通过对小鼠体重、瘤重、主要脏器的质量、白细胞计数及血清溶血素试验来研究灵芝孢子糖肽对小鼠体内特异性免疫的影响。结果表明:灵芝孢子糖肽对小鼠无明显毒副反应,可以升高小鼠的血清半数溶血值,提高小鼠体内特异性免疫作用,升高白细胞值。灵芝孢子糖肽可以显著降低瘤重。上述结果表明,灵芝孢子糖肽具有一定的抗肿瘤活性,能增强荷瘤小鼠的特异性免疫作用,而无明显毒副作用。

川乌水提取物及其单体成分对金黄色葡萄球菌α-溶血素分泌的抑制作用

目的探讨川乌水提取物及其单体成分对金黄色葡萄球菌α-溶血素分泌的抑制作用。方法采用转录组测序技术(RNAseq)分析川乌水提取物对金黄色葡萄球菌USA300 hla,psma,isda基因转录水平的影响。采用反转录-实时荧光定量聚合酶链式反应(RT-qPCR)法测定川乌水提取物及质量浓度分别为0.01,0.1,1 mg/mL的乌头原碱、次乌头碱、新乌头碱单体成分对hla,psma,isda基因表达水平的影响,采用溶血定量试验考察溶血活性。采用免疫印迹(Western blot)法考察质量浓度分别为0.01,0.1,1 mg/mL的乌头原碱、次乌头碱、新乌头碱单体成分对金黄色葡萄球菌菌液上清液中α-溶血素分泌的影响。结果USA300经250 mg/mL川乌水提取物处理后,α-溶血素、δ-溶血素、酚溶性调节蛋白等毒力因子相关基因的表达均显著下调(P<0.005)。USA300经250 mg/mL川乌水提取物及1 mg/mL乌头原碱、次乌头碱、新乌头碱单体成分处理后,hla,psma,isda基因转录水平均受到显著抑制(P<0.05),其中对hla基因的抑制作用最显著;金黄色葡萄球菌的溶血活性均受到显著抑制(P<0.01)。USA300经0.01,0.1,1 mg/mL乌头原碱、次乌头碱、新乌头碱单体成分处理后,金黄色葡萄球菌菌液上清液中α-溶血素分泌量与乌头原碱呈浓度依赖性降低,但经次乌头碱、新乌头碱单体成分处理后的趋势不明显。结论川乌水提取物及其单体成分可抑制金黄色葡萄球菌中α-溶血素的分泌,尤其是单体成分乌头原碱有用于抗金黄色葡萄球菌感染的潜能。

副溶血性弧菌不耐热溶血素的生物信息学分析与分子动力学模拟

副溶血性弧菌是一种革兰氏阴性人畜共患致病菌,可引发人类胃肠炎等食源性疾病。副溶血性弧菌具有多种毒力因子,热不稳定溶血素(thermolabile hemolysin,TLH)即是其中之一。该研究对副溶血性弧菌的tlh基因进行了克隆及测序,对tlh基因编码的TLH蛋白进行了生物信息学分析及结构和功能预测。结果表明,TLH蛋白由418个氨基酸组成,预测分子质量为47.36 kDa。在TLH蛋白中确定了几个保守的结构域和基序,包括SGNH水解酶结构域和GDSL基序;对TLH蛋白的三维结构进行了同源建模及验证,在此基础上通过分子动力学模拟分析其稳定性、与4-硝基苯基月桂酸酯(p-nitrophenylaurate,PNPL)的相互作用能力及结合底物对结构紧密度和残基灵活性的影响,揭示了催化三联体Ser153-His390-Asp393周边是一个重要的药物靶点活性口袋,具有高度保守的残基序列,并在底物结合后表现出残基灵活性差异。该研究分析了副溶血性弧菌TLH蛋白的性质和结构,可以为保障水产品的安全性、提高水产品原料安全评价水平提供理论支持。

基于表面等离子体共振的外泌体PD-L1蛋白检测技术

血清中可溶性程序性死亡-配体1(programmed cell death 1 ligand 1,PD-L1)蛋白的存在形式包括外泌体表面、微囊泡表面以及分泌的游离形式等。前期研究表明,血清中外泌体表面PD-L1含量与多种癌症的预后评估显著相关,然而目前的常规检测方法通常将血清中所有可溶性PD-L1蛋白作为一个整体进行检测,无法有效分辨外泌体PD-L1与其他形式的PD-L1。本研究基于表面等离子体共振技术,建立了一种外泌体PD-L1的特异性检测方法。该方法首先通过抗体识别PD-L1蛋白,并将其捕获至检测芯片表面;再利用α-溶血素在外泌体膜上形成多个寡聚体,从而特异性检测外泌体PD-L1。该方法通过α-溶血素结合过程的信号变化对外泌体PD-L1含量进行检测,可以有效降低检测背景噪音并放大信号。使用α-溶血素放大信号前的线性范围为0.035~2.208 pg/mL,信号放大后的线性范围为0.004-0.552 pg/mL。方法学验证实验表明,该方法特异性、灵敏度和精密度良好,具有一定的临床应用前景。

霍乱弧菌溶血素共调节蛋白(Hcp)的原核表达、纯化及多克隆抗体制备

目的原核表达、纯化霍乱弧菌溶血素共调节蛋白(hemolysin coregulatory protein,Hcp),并制备其多克隆抗体。方法PCR扩增霍乱弧菌Hcp基因并克隆入pET28a载体中构建重组表达载体;将重组载体pET28a-hcp转化E.coil BL21(DE3)中,进行表达条件优化及表达形式鉴定。获取可溶性Hcp蛋白行Ni-NTA柱纯化,纯化的Hcp蛋白免疫BALB/c小鼠以制备多克隆抗体,并用间接酶联免疫吸附试验(ELISA)检测抗体效价,以评估其免疫原性。再以Western blot法分析抗体对霍乱弧菌Hcp蛋白的特异性识别。结果重组载体pET28a-hcp的酶切片段与预期相符,测序结果与GenBank数据库中hcp基因序列一致,成功构建pET28a-hcp重组质粒,重组质粒经异丙基-β-D-硫代半乳糖苷(IPTG)诱导表达相对分子量为28kD的目的蛋白;经Ni-NTA柱纯化后获得较纯的Hcp蛋白,免疫小鼠可获得效价为1∶512000的抗Hcp多克隆抗体(anti-Hcp);Western blot鉴定结果显示anti-Hcp具有识别霍乱弧菌Hcp蛋白的特异性。结论成功获得可溶形式表达的Hcp蛋白,免疫小鼠后获得高效价的抗Hcp多克隆抗体,为后续研究Hcp蛋白在非O1/非O139群霍乱弧菌T6SS致病过程中的作用奠定了基础。

Hemolysins of <i>Staphylococcus aureus</i>—An Update on Their Biology, Role in Pathogenesis and as Targets for Anti-Virulence Therapy

Staphylococcus aureus is a dangerous gram positive bacterial pathogen which, not only evades the host’s immune system but also can destroy the leucocytes especially neutrophils. It has an embodiment of virulence factors most of which are secreted. Staphylococcus aureus secretes a number of toxins which cause tissue damage and facilitate spreading and nutrients uptake. Among the toxins, hemolysins α, β, γ, δ and Panton Valentine Leukocidin (PVL) are unique that they drill pores in the membrane, leading to the efflux of vital molecules and metabolites. Hemolysins also help in the scavenging of iron, although many of them also have leucolytic properties. α-hemolysin, also known as α-toxin, is the most prominent cytotoxin which damages a wide range of host cells including epithelial cells, endothelial cells, erythrocytes, monocytes, keratinocytes and it damages cell membrane and induces apoptosis. β-Hemolysin significantly affects human immune cell function. It has Mg2+ dependent sphingomyelinase activity and degrades sphingomyelin of plasma membrane into phosphorylcholine and ceramides. The bi-component leukocidins, which include γ-hemolysin and PVL, attack human phagocytic cells and greatly contribute to immune evasion. Delta toxin is a low molecular weight exotoxin with a broad cytolytic activity. Virulence determinants, quorum sensing and biofilm synthesis provide some attractive targets for design and development of a new group of antimicrobial compounds. This review provides an update on the structure, biological functions of hemolysins and their role in quorum sensing/biofilm synthesis (if any) and as effective therapeutic targets for anti-virulence drug development. We have tried to bring together information available on various aspects of hemolysins and highlighted their distribution among all species of Staphylococcus and other bacteria. We have updated the status of development of candidate drugs targeting the hemolysins for anti-virulence therapy as it offers an additional strategy to reduce the severity of infection and which would, through quorum quenching, delay the development biofilms leading to drug resistance.

Staphylococcus aureusβ-hemolysin-neutralizing single-domain antibody isolated from phage display library of Indian desert camel

Objective:To isolate and characterize Staphylococcus aureus(S.aureus)β-hemolysinneutralizing dAbs from phage display library of Indian desert camel.Methods:Phage display library of 5×10 dAb clones of LPS-immunized Indian desert camel constructed in our laboratory was used for selection of S.aureus exotoxin-specific clones by panning technique.Enrichment of Ag-specific clones in successive rounds of panning was assessed by phage-ELISA and phage titration.Different dAb clones binding to S.aureus exotoxin Ags were expressed with C-terminal 6×His tag in E.coli and purified by Ni-chelate chromatography.The expression was verified by SDS-PAGE and western blotting.The purified clones were tested for inhibition of ’hot-cold’ hemolytic activity in vitro.Resistance to thermal inactivation of the dAb clones was studied by observing the effect of heat treatment from 50℃to 99℃for 30 min on the ’hot-cold’ hemolytic activity in vitro.Results:Several dAb clones binding to S.aureus exotoxins were isolated and enriched by three rounds of panning.The soluble dAb clones were approximately～16 kDa in size and reacted with 6×His tag specific murine monoclonal antibody in western blot.One of the Ni-chelate affinity purified dAb.6×His clones,inhibited S.aureusβ-hemolysin activity in vitro and resisted thermal inactivation upto 991.Conclusions:An S.aureusβ-hemolysinneutralizing dAb clone of possible therapeutic potential has been isolated.

Studies on Hemolysis of Hemolysin Produced by Synechocystis sp. PCC 6803

Hemolysin produced by various bacteria,may destroy erythrocyte membranes via a pore-forming mechanism,a deter-gent action,or a lipase activity.Previous to this experiment,the mode of action used by cyanobacterial hemolysin had not been re-ported.To characterize the action mode of hemolysin produced by the wild-type strain of Synechocystis sp.PCC6803,hemolysis of erythrocytes originating from human,mouse,sheep,rabbit and goldfish was studied.The erythrocytes of mouse,sheep and rabbit were sensitive,while those of human and fish were resistant,to this hemolysin.Using rabbit erythrocytes,it was shown that hemoly-sis occurred in two steps:a binding step within the first 10 min of treatment and a lytic step after 30 min.Both binding and lysis were highly temperature-dependent.Effects of erythrocyte density on hemolysis suggest that the hemolysin might target erythrocytes via a multiple-hit mechanism.In the osmotic protection experiment,all tested osmotic protectants,with molecular diameters ranging from 0.9 ?5.66 nm,failed to effectively inhibit hemolysis.Scanning electron micrographs showed that the hemolysin caused protuberances or echinocytes in rabbit erythrocytes,and then disrupted and ruptured the erythrocytes.Characteristics of hemolysis showed distinct differences from other pore-forming mechanisms,suggesting that this hemolysin might act through a detergent-like or lipase mecha-nism,rather than a pore-forming mechanism.

Virulence properties of a peptide hemolysin produced by Enterococcus faecalis

The characterization and prevalence of virulence factors associated with enterococcal invasiveness and severity of disease are important areas to be investigated. Recently, we described the production of a heat-stable hemolysin by clinical isolates of Enterococcus faecalis cultived in BHI-GA (BHI with glucose and L-arginine). Now, we purified the hemolysin from the culture supernatant by ultra-filtration (PM-10 membrane) and ethanol extraction followed by chromatography in a mBondapak C18 and Superdex Peptide columns. The hemolytic activity was not affected by the proteolytic enzymes. Cholesterol, phospholipids, EDTA and also bivalent ions did not inhibit the hemolytic activity. Among the various carbohydrates, only dextran 4 protected the erythrocytes against lyse. Scanning electron microscopy showed that lyse of erythrocytes occured at once after the exposure to the hemolysin. The mito-chondrial activity and the cell membrane integrity were significantly affected by the hemolysis, within 20 min of exposure and caused apoptosis after 12 h incubation, 51.92% in HeLa and 68% in HEp-2 cells, analyzed by flow cytometry. These results suggest that the heat-stable pore forming hemolysin might be a putative virulence factor in enterococci infections.

Elaboration of Simplest Folding Structures in 2-Dimensional Lattice with Delta-Hemolysin and Its Variants in HP Model

Although the advanced 3-dimensional structure measurements provide more and more detailed structures in Protein Data Bank, the simplest 2-dimensional lattice model still looks meaningful because 2-dimensional structures play a complementary role with respect to 3-dimensional structures. In this study, the folding structures of delta-hemolysin and its six variants were studied at 2-dimensional lattice, and their amino acid contacts in folding structures were considered according to HP model with the aid of normalized amino acid hydrophobicity index. The results showed that: 1) either delta-hemolysin or each of its variants could find any of its folding structure in one eighth of 1,129,718,145,924 folding structures because of symmetry, which reduces the time required for folding, 2) the impact of pH on folding structures is varying and associated directly with the amino acid sequence itself, 3) the changes in folding structures of variants appeared different case by case, and 4) the assigning of hydrophobicity index to each amino acid was a way to distinguish folding structures at the same native state. This study can help to understand the structure of delta-hemolysin, and such an analysis can shed lights on NP-problem listed in millennium prize because the HP folding in lattice belongs to a sub-problem of NP-problem.

细胞溶素HlyE变体对禽致病性大肠杆菌致病力的影响

为了探究细胞溶素HlyE突变体(HlyE-V)对禽致病性大肠杆菌(APEC)致病力的影响,采用Red同源重组法构建了APEC菌株CBE59的HlyE-V基因缺失株CBE59ΔHlyE-V和回补株CBE59CΔHlyE-V,测定缺失株生长曲线、溶血活性、胞内存活曲线,并用细胞毒性试验和动物试验来评估HlyE-V对APEC致病力的影响。结果表明∶缺失HlyE-V基因对APEC的生长速率影响较小,野生株、缺失株和回补株均无溶血活性,证明HlyE-V不是孔道形成毒素,不能溶解哺乳动物的红细胞;HlyE-V缺失株致细胞毒性和对雏鸡的致病力显著降低,缺失株的半数致死量(LD50)值为4.9×10^(6)CFU/只,而野生株和回补株的LD50分别为8.2×10^(5)CFU/只、4.2×10^(5)CFU/只;在HD11巨噬细胞内的存活能力显著下降,在野生株CBE59感染的HD11中有一半的细胞中含有6~8个细菌,且有56.7%的细胞中观察到超过6个细菌;而在观察缺失株CBE59ΔHlyE-V时,菌量超过6个的仅为10.7%,相较野生株下降了46%。研究表明,HlyE-V对APEC的致病力起着关键作用。

链球菌的危害及天然化合物抗链球菌作用的研究进展

链球菌种类众多,对人类危害严重的三种链球菌为肺炎链球菌、变异链球菌与猪链球菌。目前,肺炎链球菌是导致儿童、老人死亡的重要病原菌,变异链球菌是龋齿的主要病因,而猪链球菌是人畜共患病原菌,上述三种链球菌对畜牧业和人类健康造成重大危害。然而,随着抗生素的不合理使用,这三种链球菌的耐药性逐年升高。天然化合物有毒副作用较小、不易产生耐药性的特点,是开发抗链球菌药物的重要资源宝库。文章综述了不同种类天然化合物(茶多酚类、生物碱类、黄酮类、抗菌肽类、精油类等)抗链球菌的作用(结合溶血素、作用于ATP酶、抑制拓扑异构酶、影响细菌生长分裂等),以期为研发抗链球菌的天然化合物提供参考。

湖南部分地区乳源金黄色葡萄球菌耐药性及溶血性分析

为调查湖南省部分地区奶牛场生鲜乳源金黄色葡萄球菌的耐药性及耐甲氧西林金黄色葡萄球菌(methicillin-resistant Staphylococcus aureus,MRSA)的检出情况,同时调查金黄色葡萄球菌溶血素基因型与溶血表型的分布情况及二者的关系。采用肉汤稀释法对分离自湖南省部分地区奶牛场生鲜乳的54株金黄色葡萄球菌进行18种常见抗菌药物耐药性检测,采用绵羊血琼脂平板检测细菌溶血性,并采用PCR方法扩增分离菌株mecA基因及5个溶血素基因。结果显示,54株金黄色葡萄球菌均表现不同程度的耐药,耐药谱型达21种;21株金黄色葡萄球菌表现为多重耐药,最高耐药重数为9重;对青霉素耐药最严重,耐药率达85.19%,对头孢西丁、苯唑西林、克林霉素、庆大霉素及大环内酯类药物(红霉素、替米考星)耐药率在20%~30%之间,对多西环素与万古霉素敏感;从24株分离菌中检出mecA基因,鉴定为MRSA。54株分离株在羊血琼脂平板上主要以β和γ溶血为主,α、β及γ溶血率分别为12.9%、44.4%和42.6%;各溶血素基因检出率分别为98.1%(hla)、94.4%(hlb)、96.3%(hld)、40.7%(hlg1)和98.1%(hlg2),所有菌株均能检测到3种及以上的溶血素基因。结果表明,湖南省部分地区生鲜乳源金黄色葡萄球菌耐药情况较为严重,存在部分比例的MRSA,且金黄色葡萄球菌溶血素基因型与溶血表型之间无明显对应关系。