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1.
用地高辛随机引物法标记外源性exJSRV特异的JSRV-2片段,制备探针,用原位杂交法检测自然感染绵羊肺腺瘤病(oPA)的病肺组织中JSRV-NM的RNA及前病毒DNA,结果表明’OPA患羊肺肿瘤细胞的胞浆和核内都有JSRV-2基因mRNA的表达,同时也检测到了前病毒DNA,而相应的阴性对照无阳性信号,证实外源性JSRV-NM病毒具有特异性的DNA探针在检测致瘤性前病毒在宿主细胞中的整合具有可信度。 相似文献
2.
H9N2亚型禽流感病毒原位杂交检测方法的建立 总被引:4,自引:1,他引:4
根据已知禽流感病毒(Avian influenza virus,AIV)核蛋白(NP)基因序列,选取其中保守区域设计出1时引物。以RT-PR方法扩增出543bp的NP基因片段,采用地高辛标记制备探针。MDCK细胞人工感染H9N2亚型禽流感病毒后,不同时间取样制备细胞涂片,进行原位杂交,研究了禽流感病毒时MDCK细胞的感染。探讨了原位杂交的条件及其应用于检测AIV感染的可行性。结果显示,感染24h后,原位杂交可检测出细胞内的病毒RNA,并且杂交信号的强度与感染时间的长短有关。研究表明。原位杂交检测禽流感病毒,不但能很好地表现病毒和细胞的位置关系,而且具有较好的特异性和灵敏性,为禽流感病毒的组织原位杂交检测奠定了实验基础。 相似文献
3.
兔出血症病毒在细胞培养和组织中的形态发生 总被引:4,自引:2,他引:2
在电镜下系统地观察了感染后的细胞培养和组织中兔出血症病毒( R H D V)的形态发生。感染早期,在细胞核内可见电子致密颗粒(15 nm )和未成熟的病毒颗粒 (25 nm )。中期,在细胞核和胞浆内出现大量成熟的病毒颗粒(34 nm ),并发现部分核内病毒通过扩大的核膜孔、核膜溶解扩大的核孔和乳头状突起的核膜向胞浆释放。感染末期,核染色质消失,核内大量感染病毒清淅可见。最终细胞溶解,病毒颗粒释放至细胞间隙。提示 R H D V 是在核内复制和装配的,应归属于细小病毒科。本试验结果不排除同时存在另一种小 R N A 病毒。 相似文献
4.
REV感染肉种鸡后动态病理学观察与抗原分布及检测 总被引:1,自引:0,他引:1
用网状内皮组织增生病病毒(REV)人工接种1日龄肉种鸡,定期剖杀,通过病理组织学观察病变特征及肿瘤的发生发展;用免疫组化、PCR检测抗原与病毒在体内各器官的分布规律;超薄切片观察肿瘸细胞、病毒的形态.结果显示,肝脏、脾脏、胸腺、法氏囊较早出现明显的肿瘤增生灶,在这些器官内免疫组化阳性信号出现最早,且信号最强,在5周龄时,心肌、腺胃、肺、肾、骨髓等器官才开始出现阳性信号,但呈中度的阳性反应,9周龄后阳性信号开始减弱.肝脏、脾脏、胸腺、法氏囊、骨髓扩增出REV的LTR基因片段,超薄切片显示病毒多分布在胞浆内和细胞间隙内.研究发现病变明显的组织中,阳性反应较强,肿瘤细胞增生明显,即强阳性反应的组织器官易形成肿瘤转移灶及肿瘤结节,同时,抗原最早出现在这些器官说明其中可能存在REV的靶细胞.虽然阳性信号在腺胃出现较晚,但90%以上的腺胃肿大说明腺胃也是REV的主要侵害器官. 相似文献
5.
实验性禽脑脊髓炎中MIP—1β和IL8的mRNA原位杂交实险 总被引:2,自引:0,他引:2
禽脑脊髓炎病毒内蒙古地方毒株NH937株经脑内注射感染。于攻毒后3,5,10,14,20,25,30d,取攻毒组4只,对照组2只。取材大脑、小脑于95%乙醇中固定,经原位杂交染色,结果:着染部位主要在大脑皮层锥体细胞及皮质下各核团的较大神经元的胞浆内,呈现蓝紫色连成片或单独数个较大颗粒,小脑蒲肯野细胞胞浆内也较多见;此外小胶质细胞胞浆内也发现很多呈阳性。在病情严重时的10d开始增多,直到病情恢复的30d时,仍然很普遍。相对于未攻毒的阴性对照组明显增多。说明首脑脊髓炎过程中脑组织细胞内MIP-1β和IL-8的mRNA大量上调,主要与趋化T淋巴细胞到血管外形成管套,再从管套弥散向周围神经组织;同时趋化小胶质细胞到病毒感染的靶细胞形成卫星现象和噬神经元现象等有关。 相似文献
6.
J亚群白血病的病理学观察及PCR诊断 总被引:4,自引:1,他引:3
从某肉种鸡场取疑似J亚群白血病的自然发病鸡,剖检,观察病理学特征(光镜、电镜)。随后对该场进行ALV-J抗体ELISA检测,发现感染率达28%,从中选取部分抗体阳性鸡及阴性鸡剖检,取肝进行ALV-J特异性PCR检测。结果:自然发病鸡病变明显,在肝、脾、肾、睾丸(卵巢)肺等多种组织肿大,并有大小不等的灰白色结节。镜检:病灶内及肿瘤主要由密集的髓细胞组成,在大脑、小脑坐骨神经中未见。电镜,肿块中的髓细胞样瘤细胞呈圆形、核圆形或椭圆形,体积大小不一、染色质边集,胞浆中溶酶体增多,有些电子密度较高,有些趋于溶解,肝细胞体积增大,核浓缩或淡染,胞浆中线粒体增多,肿胀,嵴减少或消失,在胞浆膜下有病毒粒子存在。PCR结果:6例抗体阳性鸡和部分自然病例PCR阳性而2只对照鸡PCR阴性。通过以上证据可知,病变明显的和抗体阳性的鸡PCR结果全部为阳性,证明鸡体内病毒与抗体共存,而抗体阴性,病毒阳性的结果未出现,说明此肉种鸡场感染的ALV-J大部分是由于水平传播造成的。 相似文献
7.
1 鸡J亚群白血病病毒env基因的克隆和表达
鸡白血病病毒(ALV)env基因编码的囊膜蛋白,位于病毒表面,其与宿主细胞受体相互作用,是亚群表型的决定因素.为研究ALV-J env基因及其表达产物特点,为ALV-J的检测奠定基础,本实验室对ALV-J env基因进行了克隆和真核表达.值得注意的是,在设计env基因引物时,需将env基因前的信号引导序列包涵其内. 相似文献
8.
生长阻滞和DNA损伤诱生蛋白45β(growth arrest and DNA damage 45β,GADD45β)参与多种细胞信号通路,在病毒感染过程中发挥重要作用,但在禽白血病病毒(avian leukosis virus,ALV)感染中研究较少。本研究中,用J亚群禽白血病病毒(ALV-J)感染DF-1细胞,通过荧光定量PCR和Western blot检测GADD45β表达水平。此外,在过表达GADD45β和干扰GADD45β的情况下,通过Western blot、间接免疫荧光试验和ELISA检测GADD45β对ALV-J复制的影响。结果表明,ALV-J感染DF-1细胞能显著上调GADD45β表达水平(P<0.05)。过表达GADD45β后,ALV-J的蛋白表达水平显著降低(P<0.05),荧光信号强度也明显低于对照组。然而,干扰GADD45β后,ALV-J的复制水平显著上调(P<0.05),说明GADD45β可以抑制ALV-J病毒复制。本研究首次发现GADD45β具有抑制ALV-J病毒复制的功能,为抗ALV-J的研究提供了新的思路和理论基础。 相似文献
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10.
《畜牧兽医学报》2020,(8)
为挖掘感染ALV-J汶上芦花鸡的肝差异表达致病相关基因。本研究以汶上芦花鸡为试验素材,分别在42和300日龄进行ALV血液病毒分离检测筛选ALV阴性和阳性个体,对ALV阳性个体有病理变化的肝组织和阴性个体肝组织进行PCR检测,分别选取3只ALV阳性(G1组)和阴性(G2组)个体的肝组织,并对G1组PCR产物测序、聚类分析确定ALV亚型,利用RNA-Seq测序技术筛选差异表达基因,并进行功能分析,利用荧光定量qRT-PCR对部分差异表达基因进行验证。结果表明,G1组样品经PCR检测、PCR扩增产物测序和聚类分析确定ALV为J亚型,转录组分析发现,共有42个差异基因在GO和KEGG中富集,其中,上调基因18个,下调基因24个。随机选取的5个差异表达基因qRT-PCR验证结果与RNA-Seq测序结果相一致。GO分析显示,差异表达基因主要涉及细胞过程、代谢过程、对刺激的反应、免疫系统等;KEGG分析显示,差异表达基因主要富集在细胞过程、信号传导、疾病、新陈代谢等信号通路。本研究通过转录组分析发现了影响ALV-J致病性的多个基因和关键信号通路,为深入了解ALV-J致病的分子机制提供了思路。 相似文献
11.
Detection and localization of naturally transmitted avian leukosis subgroup J virus in egg-type chickens by in situ PCR hybridization 总被引:1,自引:0,他引:1
Li N Xu B Dong W Qiao S Lee LF Zhang HM Li M Du N 《Journal of veterinary medicine. A, Physiology, pathology, clinical medicine》2007,54(10):553-558
Avian leukosis virus (ALV) subgroup J (ALV-J) is an exogenous ALV and causes myeloid leukosis in meat-type chickens. We have previously reported the isolation and identification of ALV-J in commercial layer flocks from 12 farms in northern China. In this report, we further characterized this virus by in situ polymerase chain reaction (PCR) hybridization in various affected organs of chickens from six of the 12 farms. A routine method for hybridization of nucleic acid uses radioactive probe, such as a P32-labelled probe. We found that the non-radioactive digoxigenin (DIG) probe is sensitive enough to detect the nucleic acid of virus in chicken tissues. We used a pair of published primers (H5/H7) specific to the gp85 envelope gene and 3' region of pol gene of prototype ALV-J strain HPRS-103. The total RNA extracted from tumour, bone marrow, oviduct, liver and spleen of the diseased chickens from six commercial flocks, and cDNA was successfully amplified. Using the primers and cDNA, we obtained an ALV-J-specific cDNA probe of 545 bp in length by PCR. In situ PCR with H5/H7 primers was carried out in the paraffin sections from tissues of the diseased chickens, followed by in situ hybridization using the DIG-labelled cDNA probe. Positive hybridization signals were detected in the cytoplasm of paraffin sections of tumours and other organ tissues. The intensity of the signals was documented using an image analysis system measuring integral optical density (IOD). The IOD values for tissue sections treated by in situ PCR hybridization are significantly higher than that by in situ hybridization alone (P < 0.01). These data taken together suggest that in situ PCR hybridization is a more sensitive technique for detection of ALV-J in tissue sections. 相似文献
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13.
Response of white leghorn chickens of various genetic lines to infection with avian leukosis virus subgroup J 总被引:2,自引:0,他引:2
In Experiment 1, chickens from various white leghorn experimental lines were inoculated with strain ADOL-Hcl of subgroup J avian leukosis virus (ALV-J) either as embryos or at 1 day of age. At various ages, chickens were tested for ALV-J induced viremia, antibody, and packed cell volume (PCV). Also, at 4 and 10 wk of age, bursal tissues were examined for avian leukosis virus (ALV)-induced preneoplastic lesions with the methyl green-pyronine (MGP) stain. In Experiment 2, chickens harboring or lacking endogenous virus 21 (EV21) were inoculated with strain ADOL-Hcl of ALV-J at hatch. All embryo-inoculated chickens in Experiment 1 tested positive for ALV-J and lacked antibody throughout the experimental period of 30 wk and were considered viremic tolerant, regardless of line of chickens. By 10 wk of age, the incidence of ALV-J viremia in chickens inoculated with virus at hatch varied from 0 (line 0 chickens) to 97% (line 1515); no influence of ALV-J infection was noted on PCV. Results from microscopic examination of MGP-stained bursal tissues indicate that ALV-J can induce typical ALV-induced transformation in bursal follicles of white leghorn chickens. Lymphoid leukosis and hemangiomas were the most common ALV-J-induced tumors noted in chickens in Experiment 1. At termination of Experiment 2 (31 wk of age), 54% of chickens harboring EV21 were viremic tolerant compared with 5% of chickens lacking EV21 after inoculation with ALV-J at hatch. The data indicate that genetic differences among lines of white leghorn chickens, including the presence or absence of EV21, can influence response of chickens to infection with ALV-J. 相似文献
14.
Several subgroup J-like avian leukosis viruses (ALV-Js) were isolated from broiler breeder (BB) and commercial broiler flocks experiencing myeloid leukosis (ML) at 4 wk of age or older. In all cases, diagnosis of ML was based on the presence of typical gross and microscopic lesions in affected tissues. The isolates were classified as ALV-J by 1) their ability to propagate in chicken embryo fibroblasts (CEF) that are resistant to avian leukosis virus (ALV) subgroups A and E (C/AE) and 2) positive reaction in a polymerase chain reaction with primers specific for ALV-J. The prototype strain of these isolates, an isolate termed ADOL-Hc1, was obtained from an adult BB flock that had a history of ML. The ADOL-Hc1 was isolated and propagated on C/AE CEF and was distinct antigenically from ALV of subgroups A, B, C, D, and E, as determined by virus neutralization tests. Antibody to ADOL-Hc1 neutralized strain HPRS-103, the prototype of ALV-J isolated from meat-type chickens in the United Kingdom, but antibody to HPRS-103 did not neutralize strain ADOL-Hc1. On the basis of both viremia and antibody, prevalence of ALV-J infection in affected flocks was as high as 87%. Viremia in day-old chicks of three different hatches from a BB flock naturally infected with ALV-J varied from 4% to 25%; in two of the three hatches, 100% of chicks that tested negative for virus at hatch had evidence of viremia by 8 wk of age. The data document the isolation of ALV-J from meat-type chickens experiencing ML as young as 4 wk of age. The data also suggest that strain ADOL-Hc1 is antigenically related, but not identical, to strain HPRS-103 and that contact transmission of ALV-J is efficient and can lead to tolerant infection. 相似文献
15.
In Experiment 1, a monoclonal antibody against the envelope glycoprotein (gp85) of subgroup J avian leukosis virus (ALV-J) was used to study the distribution of ALV-J in various tissues of White Leghorn chickens inoculated as embryos with the strain ADOL-Hcl of ALV-J. At 2 and 6 wk of age, various tissues from infected and control uninfected chickens were tested for the presence of ALV-J gp85 by immunohistochemistry. In Experiment 2, using the methyl green-pyronine (MGP) stain, sections of bursa of Fabricius (BF) from chickens of line 15I5 x 7(1), inoculated with ALV-J or Rous-associated virus-1 (RAV-1), a subgroup A ALV, at hatch were examined for transformation of bursal follicles at 4 and 10 wk of age. In Experiment 1, specific staining indicative of the presence of ALV-J gp85 was noted at both 2 and 6 wk of age in the adrenal gland, bursa, gonads, heart, kidney, liver, bone marrow, nerve, pancreas, proventriculus, spleen, and thymus. In Experiment 2, by 10 wk of age, transformed bursal follicles were detected in MGP-stained sections of BF in only one of five (20%) chickens inoculated with ALV-J at hatch, compared with five of five (100%) chickens inoculated with RAV-1. The data demonstrate distribution of ALV-J gp85 in various tissues of White Leghorn chickens experimentally inoculated as embryos with the virus. The data also confirm our previous observation that ALV-J is capable of inducing transformation of bursal follicles, albeit the incidence is less frequent than that induced by subgroup A ALV. 相似文献
16.
White leghorn chickens from seven 15.B congenic lines (genetically similar except for genes linked to the major histocompatibility complex [MHC] B haplotype) and two Line 0.B semicongenic lines were infected at hatch with strain ADOL Hc-1 of subgroup J avian leukosis virus (ALV-J). At 5, 8, 16, and 36 wk of age, chickens were tested for viremia, serum-neutralizing antibody, and cloacal shedding. Chickens were also monitored for development of neoplasia. In the 15.B congenic lines (B*2, B*5, B*12, B*13, B*15, B*19, and B*21) there were no significant differences in the incidence of viremia between B haplotypes. In fact, infection at hatch in all of the 15.B congenic lines induced tolerance to ALV-J because 100% of these chickens were viremic and transient circulating serum-neutralizing antibody was detected in only a few chickens throughout the 36 wk experiment. However, at 16 wk of age more B*15 chickens had antibody and fewer B*15 chickens shed virus than did the 16-wk-old B*2, B*5, or B*13 chickens. Moreover, compared with B*15 chickens, a higher percentage of B*13 chickens consistently shed virus from 8 wk postinfection to termination at 36 wk postinfection. The B haplotype had a transient effect on viral clearance in Line 0.B semicongenics, as more B*13 than B*21 chickens remained viremic through 5 wk of age. Very few (0%-18%) of the Line 0.B semicongenic chickens shed virus. By 36 wk of age, all Line 0 B*13 and B*21 chickens produced serum-neutralizing antibodies and cleared the virus. These results show that following ALV-J infection at hatch the immune response is influenced transiently by the B haplotype and strongly by the line of chicken. Although this study was not designed to study the effect of endogenous virus on ALV-J infection, the data suggest that endogenous virus expression reduced immunity to ALV-J in Line 15I5, compared with Line 0, a line known to lack endogenous virus genes. 相似文献
17.
为挖掘感染ALV-J汶上芦花鸡的肝差异表达致病相关基因。本研究以汶上芦花鸡为试验素材,分别在42和300日龄进行ALV血液病毒分离检测筛选ALV阴性和阳性个体,对ALV阳性个体有病理变化的肝组织和阴性个体肝组织进行PCR检测,分别选取3只ALV阳性(G1组)和阴性(G2组)个体的肝组织,并对G1组PCR产物测序、聚类分析确定ALV亚型,利用RNA-Seq测序技术筛选差异表达基因,并进行功能分析,利用荧光定量qRT-PCR对部分差异表达基因进行验证。结果表明,G1组样品经PCR检测、PCR扩增产物测序和聚类分析确定ALV为J亚型,转录组分析发现,共有42个差异基因在GO和KEGG中富集,其中,上调基因18个,下调基因24个。随机选取的5个差异表达基因qRT-PCR验证结果与RNA-Seq测序结果相一致。GO分析显示,差异表达基因主要涉及细胞过程、代谢过程、对刺激的反应、免疫系统等;KEGG分析显示,差异表达基因主要富集在细胞过程、信号传导、疾病、新陈代谢等信号通路。本研究通过转录组分析发现了影响ALV-J致病性的多个基因和关键信号通路,为深入了解ALV-J致病的分子机制提供了思路。 相似文献
18.
Feather pulp from experimentally infected chickens was used as a source of DNA for polymerase chain reaction (PCR) amplification of avian leukosis virus subgroup J (ALV-J) proviral DNA. A primer set that produces a large amplicon (approximately 2,125) was used to detect ALV-J proviral DNA. This primer set was used in lieu of previously published primers because it allows for sequencing of the entire envelope gene and because it was able to detect diagnostically a number of North American ALV-J isolates that could not be detected with previously published primers and PCR conditions. ALV-J proviral DNA was detected in feather pulp at 7 days of age in more than 90% of birds infected as embryos and 7 days postinoculation in over 50% of chickens infected at 3 days of age. The results obtained with PCR on feather pulp were compared with those of virus isolation. In the embryo-inoculated birds, the percentages of agreement between PCR and virus isolation were 92.5% at 7 days of age and 100% at 28, 42, 49, and 56 days of age. However, the overall sensitivity of virus isolation in embryo-infected birds was higher, particularly at 7 and 56 days of age. In chickens inoculated at 3 days of age, the percentages of agreement of detection between PCR and virus isolation ranged from 75% at 10 days of age to 100% at 42 days of age. Agreement of negative results of ALV-J detection by PCR and virus isolation in chickens infected posthatch ranged between 66.6% and 100% between the ages of 10 and 42 days. Virus isolation requires chicken embryo fibroblasts of specific genetic lines, and the process takes onaverage 7-9 days. Aseptic collection of blood and tissues for virus isolation and molecular detection of ALV-J requires sterile necropsy instruments as well as syringes and needles for each individual chicken, whereas sterile microcentrifuge tubes and gloves are the only equipment necessary for aseptic feather pulp collection for ALV-J detection by PCR. PCR-based detection of ALV-J in feather pulp is especially suitable when ALV-J infection must be diagnosed rapidly and unequivocally without killing the chicken(s) and in situations where crucial reagents or suitable virus propagation substrates are not readily available for isolation and propagation of ALV-J in cell culture. 相似文献
19.
The novel subgroup J of avian leukosis virus (ALV-J) has emerged as a significant cause of myeloid neoplasia and weight suppression in broiler chickens. We investigated viral tropism using RNA in situ hybridization (ISH) in naturally infected chickens. Formalin-fixed tissues were collected from 12-day-old embryos (seven infected, two control) and from 0-week-old (four infected, one control), 3-week-old (five infected, one control), 6-week-old (five infected, one control), and 9-week-old (10 infected, two control) chickens naturally infected with ALV-J in ovo. A 636-base antisense riboprobe complementary to the 3' and 5' ends of the pol and env viral genes, respectively, was constructed. Strong positive staining was present in cardiac myocytes, Purkinje fibers, vascular and pulmonary smooth muscle, renal glomeruli, distal tubules, and pituitary glands. Light staining was present in gastrointestinal smooth muscle, thyroid and adrenal glands, and follicular medullae in the cloacal bursa. Staining was not present in any hematopoietic precursors. Tissues from newly hatched chicks exhibited the strongest and most consistent staining, whereas staining in embryos was minimal. RNA ISH confirmed the presence of ALV-J-specific nucleic acid within cytoplasmic inclusions in cardiac myocytes, Purkinje fibers, pituitary glands, and renal glomeruli. Viral tropism for cardiac myocytes and Purkinje fibers may relate pathogenetically to the cardiomyopathy and congestive heart failure described in index chicken flocks infected with ALV-J. Viral tropism for endocrine organs may relate pathogenetically to the weight suppression associated with infection. 相似文献