青海省英得尔种羊场种羊流产血清学调查

通过间接血凝试验(IHA)和虎红平板凝集试验(RBPT),对来自青海省英得尔种羊场的353份羊血清进行布鲁氏菌、弓形虫和衣原体三种主要疫病的血清抗体检测。结果表明,18.9%(33/174)的山羊血清和3.9%(7/179)的绵羊血清其衣原体抗体血清凝集效价≥1:16(++),被判为阳性;抗布鲁氏菌和弓形虫的血清抗体均未检测到。     

弓形虫卵囊感染小鼠的急性期与慢性期的脑组织蛋白质组变化

弓形虫是一种呈世界性分布的机会性致病原虫,可引起致命性脑炎.人弓形虫病急性感染往往与弓形虫卵囊污染密切相关.探究弓形虫卵囊感染对宿主的致病机制和防控弓形虫病具有重要意义.因此,本研究利用iTRAQ技术,结合2D-LC-MS/MS分析弓形虫PRU虫株卵囊急、慢性感染小鼠后,其脑组织蛋白质的差异表达情况.结果 表明,在急性...     

Toxoplasma gondii virulence prediction using hierarchical cluster analysis based on coding sequences (CDS) of sag1, gra7 and rop18

Toxoplasma gondii consists of three genotypes, namely genotype I, II and III. Based on its virulence, T. gondii can be divided into virulent and avirulent strains. This study intends to evaluate an alternative method for predicting T. gondii virulence using hierarchical cluster analysis based on complete coding sequences (CDS) of sag1, gra7 and rop18 genes. Dendrogram was constructed using UPGMA with a Kimura 80 nucleotide distance measurement. The results showed that the prediction errors of T. gondii virulence using sag1, gra7 and rop18 were 7.41%, 6.89% and 9.1%, respectively. Analysis based on CDS of gra7 and rop18 was able to differentiate avirulent strains into genotypes II and III, whereas sag1 failed to differentiate.     

Toxoplasma gondii antibody prevalence and isolation in free-ranging cats in Okinawa,Japan

Cats are an important host of Toxoplasma gondii from an epidemiological perspective because they are the only definitive hosts that excrete oocysts in their feces. In this study, 201 free-ranging cats in Okinawa were examined for T. gondii infection. Using the latex agglutination test, we detected antibodies against T. gondii in 26.9% (54/201) of the cats. Oocysts of T. gondii were not detected upon microscopic examination of the feces of 128 cats. T. gondii was isolated from the tissues of 9 out of 24 seropositive or pseudo-seropositive cats with a bioassay using laboratory mice. Genotyping for the GRA6 gene revealed that five and four of the isolates were type I and II, respectively.     

分子佐剂鞭毛素对弓形虫SAG1蛋白抗体应答的影响

将沙门氏菌鞭毛素和弓形虫免疫优势表面抗原1(SAG1)融合表达,研究其在小鼠上激发的体液免疫应答.首先,采用PCR扩增SAG1片段.其次,将SAG1连接到原核表达载体pET-28a中构建表达质粒pET-28a-SAG1;连接到实验室已有的pET-28a鞭毛素质粒中构建表达质粒pET-28a-F-SAG1;质粒转化至大肠杆菌BL21(DE3)菌株中并进行表达.将纯化后的蛋白免疫小鼠,每隔2周免疫一次,共免疫3次,第3次免疫后15 d取小鼠血清.最后,采用蛋白印迹检测蛋白的大小;用酶联免疫吸附方法检测血清中多克隆抗体的效价.结果表明,诱导出的SAG1蛋白大小为30 ku,F-SAG1大小为70 ku.酶联免疫吸附方法检测的D450 nm均为阴性对照的两倍,表明该多克隆抗体具有较高效价.可见,鞭毛素可以作为分子佐剂促进弓形虫亚单位疫苗的体液免疫应答.     

Toxoplasma gondii Infections in Chickens (Gallus domesticus): Prevalence,Clinical Disease,Diagnosis and Public Health Significance

Chickens are considered one of the most important hosts in the epidemiology of Toxoplasma gondii infection because they are an efficient source of infection for cats that excrete the environmentally resistant oocysts and because humans may become infected with this parasite after eating undercooked infected chicken meat. The objective of this study is to review worldwide prevalence of T. gondii infection in chickens and to assess the role of infected chickens in the epidemiology of toxoplasmosis in humans. A very high prevalence of the parasite was found in chickens raised in backyards (up to 100%) and free‐range organic (30–50%) establishments.     

Seroprevalence of and Risk Factors for Toxoplasma gondii in the US Swine Herd Using Sera Collected During the National Animal Health Monitoring Survey (Swine 2006)

The United States Department of Agriculture (USDA) initiated the National Animal Health Monitoring System (NAHMS) in 1983 to collect, analyse and disseminate data on animal health, management and productivity in US domestic livestock populations, including swine. The programme includes an on‐farm serological sampling component which can be used to monitor seroprevalence of various pathogens, including Toxoplasma gondii. The purpose of this study was to determine the seroprevalence of T. gondii in grower/finisher pigs using sera collected during NAHMS Swine 2006 and to determine farm level factors associated with differences in seroprevalence on farms where sera was collected during the Swine 2006 survey. Sera and data on management practices for this study were collected from 185 grower/finisher swine production sites located in 16 states accounting for >90% of US swine production (Arkansas, Colorado, Iowa, Illinois, Indiana, Kansas, Michigan, Minnesota, Missouri, Nebraska, North Carolina, Ohio, Pennsylvania, South Dakota, Texas and Wisconsin). A total of 6238 sera were tested for T. gondii antibodies using a commercial ELISA assay (Vet. Parasitol. 128 , 2005, 177). Seroprevalence in this study, as determined by ELISA, was 2.6%, with a herd prevalence of 21.6% and a mean within‐herd prevalence of 2.7%. Analysis of swine management practices indicated that rodent control methods and carcass disposal methods were associated with differences in the number of T. gondii positive samples on farm. These results are consistent with current epidemiological knowledge of the transmission of Toxoplasma on the farm (ingestion of organic matter containing oocysts, or ingestion of infected animal tissues). Production practices which eliminate these sources of exposure can reduce the risk of Toxoplasma infection in pigs, and reduce the likelihood of human infection from consumption of infected pork.     

洱源、怒江猫源弓形虫虫株的分离与鉴定

为了分离猫源弓形虫,本试验从云南洱源、怒江两地区捕捉18只野猫,取其心脏、肝脏、肺脏、脑组织用盐酸—胃蛋白酶溶液消化处理后,腹腔接种小白鼠,将分离到的弓形虫虫株至少传3代,用特异PCR方法对所分离的虫株进行鉴定。结果表明,从18只野猫的样品中分离出3株弓形虫虫株,用特异性引物对3株虫株进行PCR鉴定,均得到弓形虫的特异性目的条带,测序结果表明所扩增出的DNA片段确为弓形虫核糖体B1基因部分序列。同源性比对分析结果显示分离株与T.gondii B1的同源性为100.0%。将动物组织用盐酸—胃蛋白酶溶液消化处理后腹腔接种小白鼠是一种分离弓形虫虫株较理想的方法,对弓形虫B1基因进行特异性扩增,可以快速地鉴定弓形虫虫株。     

Population genetics of Toxoplasma gondii: new perspectives from parasite genotypes in wildlife

Toxoplasma gondii, a zoonotic protozoal parasite, is well-known for its global distribution and its ability to infect virtually all warm-blooded vertebrates. Nonetheless, attempts to describe the population structure of T. gondii have been primarily limited to samples isolated from humans and domesticated animals. More recent studies, however, have made efforts to characterize T. gondii isolates from a wider range of host species and geographic locales. These findings have dramatically changed our perception of the extent of genetic diversity in T. gondii and the relative roles of sexual recombination and clonal propagation in the parasite's lifecycle. In particular, identification of novel, disease-causing T. gondii strains in wildlife has raised concerns from both a conservation and public health perspective as to whether distinct domestic and sylvatic parasite gene pools exist. If so, overlap of these cycles may represent regions of high probability of disease emergence. Here, we attempt to answer these key questions by reviewing recent studies of T. gondii infections in wildlife, highlighting those which have advanced our understanding of the genetic diversity and population biology of this important zoonotic pathogen.