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1.
为了获得能够携带较大外源基因的犬2型腺病毒E3区缺失性载体,以犬2型腺病毒全基因组质粒pPolyⅡ-CAV-2及E3区重组质粒pVAX-E3为基础,缺失1381bp的E3区片段(92.6%的E3区全序列),插入Linker-NF(内含NotⅠ、ClaⅠ、FseⅠ多克隆位点),获得重组载体质粒pPolyⅡ-CAV-2-ΔE3(NF)(31.9kb)。以AscⅠ和PmeⅠ双酶切,游离重组基因组,在脂质体LipofectamineTM 2000介导下,转染MDCK细胞系,获得了E3区缺失的重组病毒CAV-2-ΔE3(NF)。通过病毒的形态学观察,血凝性、生长特性、感染性实验证明,该重组病毒与母源病毒没有差异。重组病毒CAV-2-ΔE3(NF)可以作为载体表达外源基因,其外源基因插入片段不小于3.3kb。  相似文献   

2.
表达狂犬病病毒糖蛋白的重组犬2型腺病毒的构建   总被引:3,自引:0,他引:3  
本试验以犬2型腺病毒全基因组重组质粒pPolyⅡ-CAV-2及其E3区重组质粒pVAX-E3为基础,通过DraⅢ和SspⅠ双酶切,缺失第25097bp-26141bp共1044bp的E3区片段,按与编码链相同转录方向插入由CMV启动子、狂犬病病毒SRV\-9株糖蛋白基因、SV40 polyA基因构成的总长2424bp的表达盒,获得重组基因组质粒pPolyⅡ-CAV-2-CGS(34.7kb).以AscⅠ和ClaⅠ双酶切,游离重组基因组(32.7kb),在脂质体Lipofectamine TM 2000介导下,转染MDCK细胞系,获得了E3缺失区携带狂犬病病毒糖蛋白表达盒的重组犬2型腺病毒CAV-2-CGS.Western印迹试验表明,CAV-2-CGS表达了狂犬病病毒糖蛋白.初步接种试验显示,重组病毒可以诱导犬产生狂犬病病毒特异性抗体.  相似文献   

3.
本试验以犬2型腺病毒全基因组重组质粒pPolyⅡCAV 2及其E3 区重组质粒pVAX E3 为基础,通过DraⅢ和SspⅠ双酶切,缺失第25097bp 26141bp共1044bp的E3区片段,按与编码链相同转录方向插入由CMV启动子、狂犬病病毒SRV9 株糖蛋白基因、SV40 polyA基因构成的总长2424bp的表达盒,获得重组基因组质粒pPolyⅡCAV 2 CGS(34.7kb)。以AscⅠ和ClaⅠ双酶切,游离重组基因组(32.7kb),在脂质体LipofectamineTM 2000 介导下,转染MDCK细胞系,获得了E3 缺失区携带狂犬病病毒糖蛋白表达盒的重组犬2 型腺病毒CAV 2 CGS。Western印迹试验表明,CAV 2 CGS表达了狂犬病病毒糖蛋白。初步接种试验显示,重组病毒可以诱导犬产生狂犬病病毒特异性抗体。  相似文献   

4.
表达犬细小病毒VP2蛋白重组犬2型腺病毒的构建及鉴定   总被引:4,自引:0,他引:4  
对CAV-2的E3区的Ssp I片段进行缺失构建了E3区缺失载体pVAXΔE3,然后将CPV VP2表达盒连接到pVAXΔE3的E3区缺失处,构建了CPV VP2表达盒的转移载体pΔECPV-VP2,用SalI NruI分别对pPoly2-CAV2和pΔECPV-VP2进行双酶切,分别进行琼脂糖凝胶电泳回收目的片段,将含CPV VP2表达盒的SalI NruI片段定向克隆入pPoly2-CAV-2载体,获得了含CPV VP2表达盒重组CAV-2基因组的质粒pCAV-2/CPV-VP2。用AscI ClaI对pCAV-2/CPV-VP2进行双酶切,释放CAV-2/CPV-VP2重组基因组,将CAV-2/CPV-VP2基因组与去除SalI NruI片段的CAV-2基因组的两个片段混合,利用脂质体介导共转染DK细胞,出现病变,获得重组病毒CAV-2/CPV。并且,从形态学、基因组水平、目的基因的转录及重组病毒的生长特征等方面进行了鉴定。结果证明,CAV-2/CPV具有典型的CAV-2形态特征,CAV-2/CPV在繁殖的过程中没有对CPV VP2表达盒片段进行缺失或重排,并且能够转录CPV VP2的mRNA。CAV-2/CPV的繁殖速度比野生型CAV-2的繁殖速度慢。  相似文献   

5.
首次构建了能表达犬冠状病毒纤突糖蛋白(CCVS1)的重组犬2型腺病毒(CAV-2)。用RT-PCR方法从CCVDXMV株细胞培养物中扩增出编码S糖蛋白A、B、C和D4个抗原位点的基因片段S1,将其克隆到pVAX1中,然后将含有CCVS1基因的完整表达盒(CMV-S1-PolyA)进一步定向克隆到含有CAV-2E3区的穿梭质粒pVAXE3中,构建出pVAX△E3S1。通过SalⅠ NruⅠ双酶切pVAX△E3S1回收含有目的基因的表达盒,将其克隆入含有CAV-2全基因组的骨架质粒pPoly2-CAV-2中,获得重组质粒pCAV-2-CCV-S1。ClaⅠ AscⅠ酶切pCAV-2-CCV-S1释放重组基因组,转染MDCK细胞,获得了重组病毒CAV-2-S1。该重组病毒在MDCK细胞上能产生典型的腺病毒细胞病变。通过mRNA水平和Westernblot检测,证实重组病毒能表达CCVS1蛋白。动物免疫试验表明,该重组病毒可以有效地诱导免疫犬产生抗CCV和CAV-2抗体。  相似文献   

6.
为构建能表达FPV VP2蛋白的重组犬2型腺病毒(CAV-2)载体.首先用PCR方法从FPV GT-2株细胞培养物中扩增出了VP2蛋白基因,将其克隆到真核表达质粒pVAX1中构建了含有FPV vp2基因的表达盒(CMV-VP2-PolyA),将该表达盒酶切后定向克隆到含有CAV-2 E3区的穿梭质粒pVAX△E3中,构建出pVAX△E3VP2.用Sal I+Nru I双酶切pVAX△E3VP2,回收含有目的基因表达盒部分,将其定向克隆入含有CAV-2全基因组的骨架质粒pPoly2-CAV-2中,构建了重组质粒pCAV-2-FPV-VP2.Cla I+Asc I酶切pCAV-2-FPV-VP2释放出重组基因组,以此转染MDCK细胞,获得了重组病毒CAV-2-VP2.该重组病毒能使MDCK细胞产生腺病毒样细胞病变.Western blot检测证实,该重组病毒能表达具有免疫学活性的VP2蛋白.该重组病毒可以有效地诱导免疫猫产生抗FPV和CAV-2抗体.本实验表明该重组病毒有可能成为一个FPV的疫苗株.  相似文献   

7.
为构建能表达FPV VP2蛋白的重组犬2型腺病毒(CAV-2)载体。首先用PCR方法从FPV GT-2株细胞培 养物中扩增出了VP2蛋白基因,将其克隆到真核表达质粒pVAX1中构建了含有FPV vp2基因的表达盒(CMV- VP2-PolyA),将该表达盒酶切后定向克隆到含有CAV-2 E3区的穿梭质粒pVAX△E3中,构建出pVAX △E3VP2。用Sal I Nru I双酶切pVAX△E3VP2,回收含有目的基因表达盒部分,将其定向克隆入含有CAV-2 全基因组的骨架质粒pPoly2-CAV-2中,构建了重组质粒pCAV-2-FPV-VP2。Cla I Asc I酶切pCAV-2-FPV- VP2释放出重组基因组,以此转染MDCK细胞,获得了重组病毒CAV-2-VP2。该重组病毒能使MDCK细胞产生 腺病毒样细胞病变。Western blot检测证实,该重组病毒能表达具有免疫学活性的VP2蛋白。该重组病毒可以有 效地诱导免疫猫产生抗FPV和CAV-2抗体。本实验表明该重组病毒有可能成为一个FPV的疫苗株。  相似文献   

8.
H5N1流感病毒可以对虎和猫产生致死性感染,为研制可用于预防猫科动物流感的新型疫苗,构建了重组虎源H5N1流感病毒HA基因的犬2型腺病毒。将A/Tiger/Harbin/01/2003(H5N1)的HA基因克隆入pVAX1载体中,然后将含有HA基因的表达盒(CMV HA PolyA)克隆入pVAXΔE3的SSPⅠ酶切缺失处,获得含有HA表达盒的穿梭载体pΔEHA。用SalⅠ NruⅠ分别对pΔEHA和pPoly-2-CAV2进行双酶切,将含有HA表达盒的SalⅠ NruⅠ片段克隆入pPoly2-CAV2,获得了在E3区缺失处插入HA表达盒的重组质粒pCAV-2/HA。释放CAV-2/HA重组基因组转染MDCK细胞,获得了重组活病毒CAV2/HA,经Western blot分析表明重组表达产物可被流感病毒HA单克隆抗体3A13所识别。使用该重组病毒免疫猫可以产生效价为1∶8~1∶16的抗H5亚型流感病毒血凝抑制抗体。  相似文献   

9.
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10.
核蛋白基因(N)位于犬瘟热病毒基因组的108—1679位置处,是保守性较强的免疫原性蛋白,因此选择N基因作为目的基因,利用酶切、连接等方法构建了含犬瘟热病毒核蛋白基因的穿梭质粒pVAX?E3LPN。以含CAV-2SY株全基因组的pPoly2-CAV-2为载体,构建了重组质粒pCAV-2-CDVLPN,利用脂质体介导法转染MDCK细胞,转染三次后,细胞出现了典型的腺病毒样病变。电镜负染、切片观察,酶切、PCR扩增及测序鉴定的结果表明表达犬瘟热核蛋白基因的重组犬2型腺病毒构建成功,表达的核蛋白分子量为58kDa。  相似文献   

11.
为了构建改良型痘苗病毒安卡拉株表达系统可删除筛选标记的双表达穿梭载体,利用Cre/LoxP DNA重组系统以及本实验室表达Cre酶的BHK-21细胞系 (BHK-Cre),以大肠杆菌黄嘌呤-鸟嘌呤磷酸核糖转移酶 (Eco gpt) 为筛选标记构建可删除筛选标记的双表达穿梭载体pLR-gpt。将Eco gpt 基因以及调控其表达的启动子基因置于2个同向的LoxP位点之间,2个独立的多克隆位点位于2个LoxP位点之外,最终获得的重组病毒可以在BHK-Cre细胞系上删除筛选标记Eco gpt。为了验证系统的有效  相似文献   

12.
为研制一种预防犬科动物狂犬病的新型疫苗,将含有狂犬病毒ERA株糖蛋白基因(Rabies glycoprotein,Rgp)表达盒的穿梭质粒pVAXΔE3Rgp中的Rgp表达盒克隆入犬2型腺病毒(Canine adenovirus type2,CAV2)骨架质粒pPoly2-CAV2中,获得重组质粒pPoly2-CAV2-ΔE3-Rgp,释放其基因组,转染MDCK细胞系,获得E3缺失区(Deletion of early protein3,ΔE3)含有Rgp表达盒的重组病毒CAV2-ΔE3-Rgp。该重组病毒能在MDCK细胞上产生典型的腺病毒细胞病变。通过酶切、PCR、基因测序,表明该重组病毒含有完整的Rgp表达盒。通过RT-PCR、Western blot等检测,表明该重组病毒能够表达Rgp抗原。用该重组病毒免疫犬,3次免疫后,可以诱导犬产生特异的抗CAV2HI抗体,其效价超过1∶256和抗狂犬病病毒(Rabies virus,RV)中和抗体,其效价超过0.50IU/mL。试验结果表明,获得的重组病毒免疫犬后,能够产生抗狂犬病毒和腺病毒的高效价保护性抗体,是一种有潜力的犬科动物狂犬病毒腺病毒二联疫苗候选株。  相似文献   

13.
A major hurdle to the successful clinical use of some viral vectors relates to the innate, adaptive, and memory immune responses that limit the efficiency and duration of transgene expression. Some of these drawbacks may be circumvented by using vectors derived from nonhuman viruses such as canine adenovirus type 2 (CAV-2). Here, we evaluated the potential of CAV-2 vectors for gene transfer to the respiratory tract. We found that CAV-2 transduction was efficient in vivo in the mouse respiratory tract, and ex vivo in well-differentiated human pulmonary epithelia. Notably, the in vivo and ex vivo efficiency was poorly inhibited by sera from mice immunized with a human adenovirus type 5 (HAd5, a ubiquitous human pathogen) vector or by human sera containing HAd5 neutralizing antibodies. Following intranasal instillation in mice, CAV-2 vectors also led to a lower level of inflammatory cytokine secretion and cellular infiltration compared to HAd5 vectors. Moreover, CAV-2 transduction efficiency was increased in vitro in human pulmonary cells and in vivo in the mouse respiratory tract by FK228, a histone deacetylase inhibitor. Finally, by using a helper-dependent CAV-2 vector, we increased the in vivo duration of transgene expression to at least 3 months in immunocompetent mice without immunosuppression. Our data suggest that CAV-2 vectors may be efficient and safe tools for long-term clinical gene transfer to the respiratory tract.  相似文献   

14.
Antipathogen immune responses create a balance between immunity, tolerance, and immune evasion. However, during gene therapy most viral vectors are delivered in substantial doses and are incapable of expressing gene products that reduce the host's ability to detect transduced cells. Gene transfer efficacy is also modified by the in vivo transduction of dendritic cells (DC), which notably increases the immunogenicity of virions and vector-encoded genes. In this study, we evaluated parameters that are relevant to the use of canine adenovirus serotype 2 (CAV-2) vectors in the clinical setting by assaying their effect on human monocyte-derived DC (hMoDC). We compared CAV-2 to human adenovirus (HAd) vectors containing the wild-type virion, functional deletions in the penton base RGD motif, and the CAV-2 fiber knob. In contrast to the HAd type 5 (HAd5)-based vectors, CAV-2 poorly transduced hMoDC, provoked minimal upregulation of major histocompatibility complex class I/II and costimulatory molecules (CD40, CD80, and CD86), and induced negligible morphological changes indicative of DC maturation. Functional maturation assay results (e.g., reduced antigen uptake; tumor necrosis factor alpha, interleukin-1beta [IL-1beta], gamma interferon [IFN-gamma], IL-10, IL-12, and IFN-alpha/beta secretion; and stimulation of heterologous T-cell proliferation) were also significantly lower for CAV-2. Our data suggested that this was due, in part, to the use of an alternative receptor and a block in vesicular escape. Additionally, HAd5 vector-induced hMoDC maturation was independent of the aforementioned cytokines. Paradoxically, an HAd5/CAV-2 hybrid vector induced the greatest phenotypical and functional maturation of hMoDC. Our data suggest that CAV-2 and the HAd5/CAV-2 vector may be the antithesis of Adenoviridae immunogenicity and that each may have specific clinical advantages.  相似文献   

15.
童光志  赵永军 《病毒学报》1992,8(4):379-382
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16.
A plasmid containing the mouse dihydrofolate reductase (dhfr) gene was rescued in a human adenovirus in early region 3. Analysis of the insert in the recombinant virus revealed that the dhfr sequences were intact in the viral genome, whereas a part of the ampicillin gene in the plasmid sequences was deleted. The recombinant virus could successfully express this gene in a deficient cell line. A permanent dhfr+ cell line was established by stable transfer of the gene using the recombinant virus.  相似文献   

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