蛋白质组学方法研究TPx在肝风内动证中的表达及关系

目的:从蛋白质组学角度研究中医肝风内动证的可能的标志性蛋白———硫氧环蛋白过氧化物酶(Peroxiredoxin/Thioredoxin peroxidase,TPx)在中医肝风内动三亚型中的表达,探讨其与中医肝风内动证的关系。方法:设肝阳化风证、血虚生风证、阴虚生风证、健康人组4组,抽取外周静脉血淋巴细胞并提取总蛋白行二维凝胶电泳,PDquestV7.3.1软件分析,质谱分析鉴定,找出各组共有的差异蛋白。结果:鉴定硫氧环蛋白过氧化物酶(Peroxiredoxin/Thioredoxin peroxidase,TPx)为中医肝风内动证与健康人组比较共同的差异蛋白。结论:硫氧环蛋白过氧化物酶(TPx)可能是中医肝风内动证的特异的标志蛋白。

细粒棘球绦虫TPx基因的克隆及序列分析

从自然感染病羊肝内收集细粒棘球绦虫(Eg)原头蚴,分别提取总RNA和基因组DNA。根据GenBank数据库中的细粒棘球绦虫硫氧还蛋白过氧化物酶(EgTPx)基因序列设计1对引物,以总RNA为模板,采用RT-PCR技术扩增出EgTPx基因片段,同时以基因组DNA为模板扩增出对应的基因组序列。PCR产物经纯化后连接到pMD18-T载体,转化至大肠杆菌DH5α后,进行序列测定和生物信息学分析。结果表明,成功扩增到中国青海株细粒棘球绦虫EgTPx基因片段,其开放阅读框为582 bp,编码193个氨基酸,与已知的EgTPx基因核苷酸序列及其编码蛋白氨基酸序列的同源性均为99%,有3个碱基发生变异,分别在245,306,318位由C变为T;引起1个氨基酸变异,由Ala82变为Val82。EgTPx具有典型的2-Cys型过氧化物氧还蛋白催化性位点Cys48和Cys169,以及周围保守的FVCP和VCPA序列。EgTPx基因的开放阅读框对应的基因组序列包含2个外显子和1个69 bp的内含子。

细粒棘球绦虫硫氧还蛋白过氧化物酶基因的克隆、表达及鉴定

目的克隆细粒棘球绦虫(Echinococcus granulosus,Eg)硫氧还蛋白过氧化物酶(thioredoxin peroxidase TPx)基因,构建原核表达载体,通过诱导表达,纯化融合蛋白抗原,免疫小鼠制备抗血清。方法从包囊中分离原头蚴,抽提总RNA,采用RT-PCR的方法扩增EgTPx基因,克隆到原核表达载体pET-41b中,转化大肠杆菌BL21,经过IPTG诱导目的基因表达,SDS-PAGE对表达蛋白进行分析,通过谷胱甘肽Sepharose4B层析柱分离纯化获得重组蛋白并免疫小鼠,制备抗血清。Western blot鉴定抗血清的特异性,ELISA测定抗体的效价。结果用PCR方法扩增获得的EgTPx基因长度为582bp,经酶切鉴定和序列测定,插入到原核表达载体的基因片段为EgTPx基因,SDS-PAGE结果显示表达融合蛋白相对分子质量约为54kDa,鼠抗EgTPx抗体能与融合蛋白和天然原头蚴抗原发生特异性反应;间接ELISA法测定该抗体效价为1∶256000。结论成功地制备了鼠抗EgTPx抗体,并能够特异识别原核表达的融合蛋白EgTPx和天然原头蚴抗原,为研制有效的包虫病疫苗及相关诊断试剂盒奠定了基础。

阴道毛滴虫硫氧还原蛋白过氧化物酶的cDNA克隆及序列分析(英文)

目的 :获取阴道毛滴虫硫氧还原蛋白过氧化物酶的cDNA克隆 ,研究其还原烷基氢过氧化物和氢过氧化物的抗氧化作用 ,以及调节由氢过氧化物介导的信号转换。 方法 :提取阴道毛滴虫的总RNA ,用λTripIEx2噬菌体载体构建cDNA表达文库 ,阳性质粒cDNA克隆进行测序 ,并用生物软件RPS Blast,NCBIBlast和ClustalW等对 6个读码框架进行序列分析。 结果 :获得一株开放阅读框为 5 88对碱基的cDNA克隆 ,推测肽链有 196个氨基酸。序列分析表明 ,该肽链与衣滴虫过氧化物氧化还原酶 (Prx1蛋白 )及人的自然杀伤增强因子B分别有 5 6 %和 6 1%的同源性 ;除了两个高度保守的半胱氨酸作用基序外 ,还有蛋白激酶C磷酸化和酪氨酸激酶磷酸化作用基序 ,N 豆蔻酰化作用位点 ,脂质运载蛋白信号位点等。 结论 :该蛋白有 >5 6 %的可能性位于胞浆 ,和典型 2 CysPrx亚家族有很高 (5 6 %～ 6 2 % )的同源性 ,很可能是其中的一个新成员。

Characterization of two alkyl hydroperoxide reductase C homologs alkyl hydroperoxide reductase C_H1 and alkyl hydroperoxide reductase C_H2 in Bacillus subtilis

AIM: To identify alkyl hydroperoxide reductase subunit C(AhpC) homologs in Bacillus subtilis(B. subtilis) and to characterize their structural and biochemical properties. AhpC is responsible for the detoxification of reactive oxygen species in bacteria.METHODS: Two AhpC homologs(AhpC_H1 and AhpC_H2) were identified by searching the B. subtilis database; these were then cloned and expressed in Escherichia coli. AhpC mutants carrying substitutions of catalytically important Cys residues(C37S, C47 S, C166 S, C37/47 S, C37/166 S, C47/166 S, and C37/47/166 S for AhpC_H1; C52 S, C169 S, and C52/169 S for AhpC_H2) were obtained by site-directed mutagenesis and purified, and their structure-function relationship was analyzed. The B. subtilis ahp C genes were disrupted by the short flanking homology method, and the phenotypes of the resulting AhpC-deficient bacteria were examined.RESULTS: Comparative characterization of AhpC homologs indicates that AhpC_H1 contains an extra C37, which forms a disulfide bond with the peroxidatic C47, and behaves like an atypical 2-Cys AhpC, while AhpC_H2 functions like a typical 2-Cys AhpC. Tryptic digestion analysis demonstrated the presence of intramolecular Cys37-Cys47 linkage, which could be reduced by thioredoxin, resulting in the association of the dimer into higher-molecular-mass complexes. Peroxidase activity analysis of Cys→Ser mutants indicated that three Cys residues were involved in the catalysis. AhpC_H1 was resistant to inactivation by peroxide substrates, but had lower activity at physiological H2O2 concentrations compared to AhpC_H2, suggesting that in B. subtilis, the enzymes may be physiologically functional at different substrate concentrations. The exposure to organic peroxides induced AhpC_H1 expression, while AhpC_H1-deficient mutants exhibited growth retardation in the stationary phase, suggesting the role of AhpC_H1 as an antioxidant scavenger of lipid hydroperoxides and a stress-response factor in B. subtilis. CONCLUSION: AhpC_H1, a novel atypical 2-Cys AhpC, is functionally distinct from AhpC_H2, a typical 2-Cys AhpC.

华支睾吸虫硫氧还蛋白过氧化物酶对脓毒症小鼠的保护作用

目的探讨华支睾吸虫(Cs)硫氧还蛋白过氧化物酶(TPx)对脂多糖(LPS)致脓毒症小鼠的保护作用。方法 80只Balb/c雄性小鼠随机分成两组,腹腔注射LPS(4 mg/kg)制备脓毒症小鼠模型,造模后30 min尾静脉分别注射PBS、rCsTPx(2.5 mg/kg),观察注射后各组小鼠72 h死亡率;重复实验,每组分别于实验后的3、6、9、12、24、48、72 h"安乐死"处死小鼠,收集血清并取24 h组织用于病理切片观察。结果尾静脉注射CsTPx治疗的小鼠生存率由10%提高到40%;检测血清谷草转氨酶(AST)和谷丙转氨酶(ALT)水平在造模后6、9、12、24 h明显下降,并且血清中炎症因子IL-6在3、6、9 h也明显下调,差异均有统计学意义;组织HE染色揭示CsTPx治疗组小鼠肾组织损伤减轻,炎症细胞浸润也减少。结论 rCsTPx对LPS致脓毒症小鼠有较好的保护作用。