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从河南两个地区猪的粪便中分离纯化了猪源隐孢子虫卵囊。参考隐孢子虫Hsp70基因属特异性引物,用PCR分别扩增了卵囊基因组DNA大小均为1 948 bp的片段,PCR产物经电泳鉴定后用试剂盒回收纯化,纯化后PCR产物直接测序。将测得的序列和推测出的氨基酸序列分别用ClustalX软件与已报道的相应序列比对,用DNASTAR中的MegAlign分析其同源性,并用PAUP绘制系统发育进化树。序列分析结果显示河南猪源隐孢子虫两个分离株Hsp70 DNA序列的同源性为99.9%,与其他隐孢子虫相应序列同源性介于81.9%~99.8%之间,其中与猪隐孢子虫(Cryptosporidium suis,AF221533)同源性最高分别为99.8%,97.9%;与安氏隐孢子虫(C.andersoni,AY954592)同源性最低。两个分离株推导Hsp70氨基酸序列的同源性为100%,同其他隐孢子虫相关序列的同源性在92.8%~99.8%之间。本研究为隐孢子虫诊断及流行病学研究打下了良好基础。 相似文献
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火鸡隐孢子虫18S核糖体DNA部分序列测定与系统发育分析 总被引:4,自引:0,他引:4
从长春地区鸭的粪便中分离纯化了火鸡隐孢子虫(Cryptosporidium meleagridis)卵囊,根据隐孢子虫18S rDNA基因序列设计合成引物,用PCR扩增了卵囊基因组DNA大小586bp的片段,PCR产物经电泳鉴定后用试剂盒回收纯化,纯化后PCR产物直接测序,将测得的序列用Dnastar软件分析并与国外已发表的相应序列进行了同源性比较,并绘制了系统发育进化树。结果初步建立了火鸡隐孢子虫的PCR检测方法,序列分析显示长春外国语源火鸡隐孢子虫与国外9株隐孢子虫相应序旬同源性在82.7%-99.8%之间,其中与国外火鸡源火允隐孢子虫相应序列同源性为85.3%;与C.felis同源性最低,与C.muris同源性最高。本研究为火鸡隐孢子虫病诊断及该病分子流行病学研究打下了良好基础。 相似文献
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微小隐孢子虫子孢子表面抗原CP15基因的克隆及核苷酸序列分析 总被引:2,自引:0,他引:2
目的对编码微小隐孢子虫(Cryptosporidium parvum)子孢子表面抗原CP15基因进行克隆和序列分析,并对其编码的氨基酸变异情况进行分析。方法对田间分离的鼠、兔、猪源微小隐孢子虫提取总RNA,经RT-PCR扩增CP15基因,克隆到pMD 18-T载体中,鉴定正确后进行序列测定,并与GenBank上下载的序列进行同源性比对。结果克隆的CP15基因核苷酸序列与GenBank登录的核苷酸序列比较,鼠源微小隐孢子虫同源性为99.23%,兔源微小隐孢子虫为97.96%,猪源微小隐孢子虫为98.72%,氨基酸序列同源性分别为100%、97.7%和98.4%。结论获得微小隐孢子虫子孢子表面抗原CP15基因,不同宿主来源的CP15基因序列高度一致,为利用该基因进行免疫预防和诊断研究奠定了基础。 相似文献
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隐孢子虫不同基因型P23基因的克隆及序列比较 总被引:2,自引:1,他引:1
为克隆隐孢子虫不同基因型子孢子表面抗原P23基因,比较其序列差异,提取上海地区分离的隐孢子虫鼠基因型(Cryptosporidiummouse genotype)、隐孢子虫兔基因型(Cryptosporidiumrabbit geno-type)、隐孢子虫猪基因型Ⅱ(Cryptosporidiumpig genotypeⅡ)总RNA,经RT-PCR扩增P23基因,克隆到pMD18-T载体中,进行序列测定,并与GenBank上下载的微小隐孢子虫(Cryptosporidium parvum)序列进行同源性比对。结果显示,从隐孢子虫3个基因型中均扩增出了P23基因。与微小隐孢子虫P23基因核苷酸序列比较,隐孢子虫鼠基因型、兔基因型、猪基因型ⅡP23基因同源性分别为97.6%、97.3%、97.3%,氨基酸序列同源性分别为97.3%、97.3%和96.4%。获得了隐孢子虫鼠基因型、兔基因型、猪基因型Ⅱ子孢子表面抗原P23基因。 相似文献
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本试验以编码线粒体功能性蛋白Chaperonin 60(CPN60)的核基因作为研究对象,对隐孢子虫分离株CPN60基因进行扩增测序,用Clustal X1.81对扩增序列与GenBank相关参考序列进行比对,然后用PAUP4.0程序中邻接法(Neighbor-joining,NJ)、最大简约法(Parsimony,MP)构建基因树,同时用TREEPUZZLE程序Version4.1构建最大似然树(Maximum likelihood,ML),以确定不同隐孢子虫虫株之间的进化关系,并以18S rRNA和HSP70基因构建的进化树作参照,评价CPN60是否更适合作为隐孢子虫基因分型和进化关系的分子标记。结果显示:基于CPN60构建的进化树将隐孢子虫分为两大类:C.baileyi和C.meleagridis处于一个分枝,C.hominis、C.suis、C.parvum牛基因型和C.parvum鼠基因型处于另一个分枝上。不同隐孢子虫之间的同源性介于96%~100%,能有效区分隐孢子虫不同基因型。因此,CPN60基因序列也可作为隐孢子虫分离株种系发育的遗传标记。 相似文献
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《黑龙江畜牧兽医》2017,(24)
为了解新疆南疆牛隐孢子虫病的感染情况,从而为该病的防控提供理论依据,以新疆南疆某牛场牛粪中的隐孢子虫卵囊DNA为模板,根据隐孢子虫18S rRNA序列设计引物,采用巢式PCR方法鉴定了自然感染的新疆南疆牛源隐孢子虫,并对扩增出的目的片段进行了测序、同源性分析,并运用MEGA 5.0软件构建系统发育进化树。结果表明:检测材料能够扩增出目的片段;新疆南疆牛源隐孢子虫分离株的18S rRNA与广州微小隐孢子虫的同源性达100%,种系发育亲缘关系最近,处于同一分支,与宁夏、河南、黑龙江等地微小隐孢子虫的同源性达99%。说明新疆南疆牛源隐孢子虫分离株在种属上为微小隐孢子虫。 相似文献
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为阐明河南区域隐孢子虫分子流行病学特点,用PCR技术扩增分离虫株的18S rRNA基因全序列和HSP70基因序列,并对扩增片段进行测序。用PAUP 4.0和TREEPUZZLE 4.1构建进化树,试图从分子水平证明河南省不同地区不同宿主来源隐孢子虫的遗传特征,以阐明隐孢子虫病的分子流行病学特点。通过18S rRNA基因全序列和HSP70基因序列分析,其结果:河南人源隐孢子虫分离株为Cryptosporidium parvum鼠基因型;河南鹿源隐孢子虫分离株为C. parvum鹿基因型;河南猪源隐孢子虫的2个分离株均为C. parvum猪基因I型,即C. suis;河南鹌鹑源的隐孢子虫2个分离株分别为C. baileyi和C. meleagridis;河南乌鸡源隐孢子虫和鸵鸟源隐孢子虫分离株均为C. baileyi;河南牛源隐孢子虫分离株为C.andersoni。 相似文献
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采进口奶牛粪样200份,收集每份样品中的卵囊液,采用巢式PCR检测隐孢子虫(Cryptosporidium)18S rRNA基因,并用RFLP进行虫种鉴定,将目的片段克隆到pEGM-T easy vector,测序并进行同源性分析以进一步佐证虫种鉴定结果。结果表明,进口奶牛隐孢子虫阳性率为3.5%(7/200),514bp的目的片段不能被EcoT14 Ⅰ酶切。测序分析表明,获得的18S rRNA基因序列与NCBI上公布的微小隐孢子虫(C.parvum)相应序列同源性高达99.4%~100%,与安氏隐孢子虫(C.andersoni)同源性仅为91.1%。说明进口牛粪样中检测出的隐孢子虫为微小隐孢子虫。 相似文献
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《中国兽医学报》2019,(7):1325-1329
本研究从河北省奶牛场有腹泻症状2月龄左右的犊牛粪便中分离卵囊,进行病原分离与虫株鉴定。采集腹泻犊牛的新鲜粪便24份,采用饱和蔗糖溶液漂浮法和抗酸染色法检测隐孢子虫卵囊,观察卵囊形态、大小。提取卵囊基因组DNA,进行18S rRNA基因PCR扩增及琼脂糖凝胶电泳检测。对扩增片段进行序列测定及分析,进一步确定分离虫株隐孢子虫的种类/基因型,根据18S rRNA基因核苷酸序列构建系统发育进化树,确定虫株亲缘关系。结果显示,5份样品检出隐孢子虫卵囊,感染率为20.83%。形态学观察卵囊呈长圆形或椭圆形,大小为(5.0~8.2)μm×(4.2~6.3)μm,平均大小为6.6μm×5.3μm,卵囊指数为1.24,鉴定分离虫株为安氏隐孢子虫。PCR扩增出预期大小为1 188 bp的特异性片段,序列分析和同源性分析结果表明,分离株与安氏隐孢子虫AB089285.2株、AB513856.1株、AY954885.1株的同源性为98.7%~98.8%,进一步表明分离的隐孢子虫虫株为安氏隐孢子虫。在种系进化关系上,分离株与安氏隐孢子虫AB513856.1株亲缘关系最近。本研究为揭示河北省奶牛隐孢子虫病的流行特征,实施有效防制措施提供了科学依据。 相似文献
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Feng Y Karna SR Dearen TK Singh DK Adhikari LN Shrestha A Xiao L 《Veterinary parasitology》2012,185(2-4):309-314
There are very few studies on the diversity and public health significance of Cryptosporidium species in zebu cattle and water buffaloes in developing countries. In this study, PCR-restriction fragment length polymorphism and DNA sequence analyses of the small-subunit (SSU) rRNA gene were used to genotype Cryptosporidium specimens from 12 zebu cattle calves, 16 water buffalo calves, and four swamp deer (Cervus duvaucelii) collected from the buffer zone of the Chitwan National Park, Nepal. All Cryptosporidium specimens from cattle and buffaloes belonged to Cryptosporidium ryanae, whereas those from deer belonged to Cryptosporidium ubiquitum. Comparison of the SSU rRNA gene sequences obtained with those from earlier studies has identified a nucleotide substitution unique to all C. ryanae isolates from Nepal, in addition to some sequence heterogeneity among different copies of the gene. The finding of the dominance of a unique C. ryanae variant in both zebu cattle and water buffaloes in Nepal indicates that there is unique cryptosporidiosis transmission in bovine animals in the study area, and cross-species transmission of some Cryptosporidium spp. can occur between related animal species sharing the same habitats. 相似文献
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Wang R Qi M Jingjing Z Sun D Ning C Zhao J Zhang L Xiao L 《Veterinary parasitology》2011,175(1-2):151-154
Few data are available on the molecular characterization of Cryptosporidium spp. in ostriches. The objective of this study was to determine the prevalence of Cryptosporidium species or genotypes in ostriches. A total of 452 fecal samples from five farms, a zoo, and an animal rescue center in Zhengzhou, Henan Province, China were examined for Cryptosporidium oocysts by microscopy of wet mount of fecal materials concentrated by the Sheather's sugar flotation technique. Fifty-three samples were Cryptosporidium-positive from four farms, with an overall prevalence of 11.7%. The percentage of animals shedding oocysts was 0, 16.2%, 7.2%, and 0 in 1-3 weeks, 4-8 weeks, 3-12 months, and more than 12 months ostriches, respectively (χ(2)=17.74; ρ<0.01). PCR-restriction fragment length polymorphism (RFLP) analysis of the small subunit (SSU) rRNA gene of the 53 Cryptosporidium-positive samples showed the presence of only Cryptosporidium baileyi, which was confirmed by DNA sequencing of the SSU rRNA PCR products from 16 positive samples. Cross-transmission studies demonstrated that the C. baileyi isolate could infect chickens and quails. Thus, ostriches are commonly infected with C. baileyi that is genetically and biologically similar to C. baileyi found in other birds. 相似文献
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Fifty faecal samples from diarrheic calves between 1 and 6 months old were collected per rectum from 5 farms around Petaling District in Selangor, Malaysia for Cryptosporidium species detection and genotyping investigation. Oocysts were purified using sedimentation and gradient centrifugation, then examined by immunofluorescence assay (IFAT). Genomic DNA was extracted from all samples and nested PCR was performed to amplify the SSU rRNA gene. Eighteen samples (36%) were positive for Cryptosporidium species by PCR. The sequence and phylogenetic analysis of 14 isolates indicated that Cryptosporidium parvum was most common (11 isolates) followed by Cryptosporidium deer-like genotype (3 isolates). The present work reports the first data on Cryptosporidium genotyping from cattle in Malaysia. 相似文献
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Burton AJ Nydam DV Dearen TK Mitchell K Bowman DD Xiao L 《Veterinary parasitology》2010,174(1-2):139-144
To date, little is known about the prevalence, genotypes and zoonotic potential of Cryptosporidium spp. affecting horses, especially in North America. A cross-sectional study was conducted in New York, USA between February 25th and May 1st 2009. Fecal samples were collected from three hundred and forty nine 1-10-week-old foals and their dams on 14 different broodmare farms. All fecal samples were screened for Cryptosporidium spp. using a direct immunofluorescence assay (DFA). DNA extraction and PCR-RFLP analysis of the small-subunit (SSU) rRNA gene were performed on all the foal samples. PCR-positive samples were subtyped by DNA sequencing of the 60-kDa glycoprotein (gp60) gene. On DFA, 13/175 (7.4%) foal samples and 3/174 (1.7%) mare samples were designated positive for Cryptosporidium spp., whereas on SSU rRNA-based PCR, 9/175 (5.1%) foal samples were positive. Cryptosporidium PCR-positive foals were significantly older (13-40 days, median age of 28 days) compared with negative foals (4-67 days, median 18 days, p=0.02). The number of foals with diarrhea or soft feces was not significantly different between positive and negative foals (p=0.09). PCR-RFLP analysis of the SSU rRNA gene and DNA sequencing of the gp60 gene identified the parasite as subtype VIaA14G2 of the horse genotype. This is the first report of a group of foals affected with the Cryptosporidium horse genotype, which has recently been detected in humans. As other contemporary molecular studies have identified C. parvum in foals, it seems that equine cryptosporidiosis should be considered a zoonosis. 相似文献
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Chen Z Mi R Yu H Shi Y Huang Y Chen Y Zhou P Cai Y Lin J 《Veterinary parasitology》2011,181(2-4):113-119
A survey on prevalence of Cryptosporidium spp. in pigs at 12 farms in 8 suburban districts and 1 county of Shanghai was conducted under Sheather's sucrose flotation protocol and modified acid-fast stain methods from 2006 to 2009. A total of 2323 faecal samples were collected and Cryptosporidium spp. oocysts were detected in 800 samples (34.4%). Cryptosporidium was found in all 12 pig farms. Significant variations of prevalence were observed in different farms ranging from 14.1% to 90.6%. A follow-up survey on a positive pig farm for 13 consecutive months revealed that the most serious infection of Cryptosporidium spp. in pigs happened in winter and spring, and the lowest infection season was summer. Cryptosporidium spp. infection was mainly found in piglets within 2 months and no infection was found among those pigs of 90-180 days of age. The genotype analyses were carried out through PCR-RFLP and partial sequences analysis of small subunit ribosomal RNA (SSU rRNA) in some of the positive samples. Cryptosporidium suis (57/69, 82.6%), Cryptosporidium pig genotype II (6/69, 8.7%) and mixed infection of above two species/genotype (6/69, 8.7%) were found to be the main species/genotype in pigs in Shanghai area. 相似文献
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Paul S Chandra D Ray DD Tewari AK Rao JR Banerjee PS Baidya S Raina OK 《Veterinary parasitology》2008,153(1-2):143-146
A survey based on PCR assay of 18S SSU rRNA gene revealed a 30.2% infection with Cryptosporidium spp., out of 457 faecal samples collected from neonatal bovine calves across three different regions of India. The PCR-RFLP pattern of the gene in all the positive cases established the species as Cryptosporidium parvum. Highest prevalence was recorded in the monsoon months (37.3%) and in the calves showing acute diarrhoea (32.3%). The calves below 15 days of age were mostly affected (45.1%). The infection was more prevalent in the northern parts (35.4%) of the country than in the eastern or southern parts. Results indicated that C. parvum was the only species of Cryptosporidium prevalent in bovine calves in three different geographical regions of India. 相似文献
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The morphology, infraciliature, silverline system, and the small subunit ribosomal RNA (SSU rRNA) of the little-known marine scuticociliate Pseudocohnilembus longisetusThompson, 1965 from the diseased black rockfish Sebastes schlegelii in Korea were studied. This scuticociliate possessed the typical characteristics of the genus Pseudocohnilembus, but could be discriminated from Pseudocohnilembus hargisi, and Pseudocohnilembus persalinus in terms of the body size, shape, the number of somatic kineties and kinetids in somatic kinety 1, and the number/position of contractile vacuole pores. The SSU rRNA gene of P. longisetus was sequenced in order to gain a better understanding of appropriate phylogenetic classification. The SSU rRNA was 1754 bp and the sequence was deposited in GenBank under accession number FJ899594. The SSU rRNA gene sequences of P. longisetus had an identity of 98.1%, 96.8% and 95.3% with P. hargisi, P. persalinus, and Pseudocohnilembus marinus SSU rRNA sequences, respectively. Our population of P. longisetus belonged to the genus Pseudocohnilembus and was in an isolated position based on the SSU rRNA gene tree, which was consistent with the conclusions based on the morphological studies. However, further investigation is required to determine the pathogenicity of this species. 相似文献
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应用巢式聚合酶链反应(Nested PCR)-限制片段长度多态性 (restriction fragment length polymorphism, RFLP)方法对微小隐孢子虫(C.parvum)、安氏隐孢子虫(C.andersoni)和火鸡隐孢子虫(C.meleagrides)的鉴别进行了研究。结果显示C.parvum BOCC2、C.andesoni BOCC2和C.meleagrides CHCC1扩增产物片段大小分别为830bp、828bp和828bp,扩增产物分别经VspI酶切后形成3种不同的RFLP图谱,根据RFLP图谱可鉴别C.parvum、C.andersoni和C.meleagrides。本研究为我国隐孢子虫的分类和隐孢子虫病的分子流行病学研究打下了良好基础。 相似文献