Chicken Embryo Inhibition Test of Recombinant Freeze-drying Chicken Interferon against Newcastle Disease Virus( NDV) F_(48)E_(10)

The paper was to study the inhibitory effect of recombinant freeze-drying chicken interferon against Newcastle disease virus （NDV） F48E10. Nine-day-old chicken embryos were inoculated with recombinant freeze-drying chicken interferon via allaotoic sack, while 10-day-old chicken embryos were inoculated with NDV F48E10, and in vivo protective efficacy of interferon on chichen embryos was studied. The results showed that the recombinant freeze-drying chicken interferon at the dose of 1.28 mg/embryo reached the protection ratio of 90% on chicken embryo infected by F48E10.

Identification of recombination hotspots and quantitative trait loci for recombination rate in layer chickens

Background: The frequency of recombination events varies across the genome and between individuals, which may be related to some genomic features. The objective of this study was to assess the frequency of recombination events and to identify QTL(quantitative trait loci) for recombination rate in two purebred layer chicken lines.Methods: A total of 1200 white-egg layers(WL) were genotyped with 580 K SNPs and 5108 brown-egg layers(BL)were genotyped with 42 K SNPs(single nucleotide polymorphisms). Recombination events were identified within half-sib families and both the number of recombination events and the recombination rate was calculated within each0.5 Mb window of the genome. The 10% of windows with the highest recombination rate on each chromosome were considered to be recombination hotspots. A BayesB model was used separately for each line to identify genomic regions associated with the genome-wide number of recombination event per meiosis. Regions that explained more than 0.8% of genetic variance of recombination rate were considered to harbor QTL.Results: Heritability of recombination rate was estimated at 0.17 in WL and 0.16 in BL. On average, 11.3 and 23.2 recombination events were detected per individual across the genome in 1301 and 9292 meioses in the WL and BL,respectively. The estimated recombination rates differed significantly between the lines, which could be due to differences in inbreeding levels, and haplotype structures. Dams had about 5% to 20% higher recombination rates per meiosis than sires in both lines. Recombination rate per 0.5 Mb window had a strong negative correlation with chromosome size and a strong positive correlation with GC content and with CpG island density across the genome in both lines. Different QTL for recombination rate were identified in the two lines. There were 190 and 199 non-overlapping recombination hotspots detected in WL and BL respectively, 28 of which were common to both lines.Conclusions: Differences in the recombination rates, hotspot locations, and QTL regions associated with genomewide recombination were observed between lines, indicating the breed-specific feature of detected recombination events and the control of recombination events is a complex polygenic trait.

Interferon-γ acts as a regulator in the trade-off between phagocytosis and production performance in dwarf chickens

Background: Interferon-γ(IFN-γ) is critical for innate and adaptive immunity against viral and bacterial infections. IFN-γ reportedly affects the phagocytic ability of monocytes and macrophages as well as regulates pituitary function in humans and mice. The present study analyzed the impact of IFN-γ on monocyte and macrophage phagocytosis, production performance, and pituitary function in vivo and in vitro(in dwarf chickens). IFN-γ was injected into dwarf chickens through a vein, and then, the laying rate, average egg weight, and levels of follicle-stimulating hormone(FSH) and IFN-γ were measured in treatment and control groups. For the in vitro experiment, the pituitary tissues were supplemented with IFN-γ, and the m RNA expression levels of follicle-stimulating hormone beta subunit(FSH-β), interferon gamma receptor 1(IFNGR1),and interferon gamma receptor 2(IFNGR2) in the pituitary were assessed.Results: Monocyte and macrophage phagocytosis product(PP) was decreased by IFN-γ treatment in a dose-dependent manner in vitro. In the in vivo experiment, the level of IFN-γ in the treatment group was higher than that in the control group at 7 d(P < 0.05), 14 d(P < 0.01), and 21 d(P < 0.01) post-injection.Compared with the control group, monocyte and macrophage PP was lower in the treatment group after injection(P < 0.01). The laying rate was higher in the treatment group than in the control group at 2 and3 wk post-injection(P < 0.05). There was a significant difference between the treatment and control groups in the levels of FSH at 1, 3, 7, and 14 d post-injection(P < 0.01). In the in vitro experiment, increased m RNA expression levels of FSH-β, IFNGR1, and IFNGR2 were observed in the treatment group after stimulation with100 U/m L IFN-γ for 24 h compared to those in the control group(P < 0.05).Conclusions: IFN-γ inhibited the phagocytosis of monocytes and macrophages; up-regulated the m RNA expression levels of the FSH-β, IFNGR1, and IFNGR2; enhanced the secretion of FSH; and improved the laying rate. IFN-γ might be an important regulator in the trade-off between the immune effect and production performance in dwarf chickens.

表达鸡传染性贫血病毒VP1蛋白的新型重组血清4型禽腺病毒的构建

为研制新型鸡传染性贫血(CIA)高效疫苗以解决国内商品鸡群中普遍存在的鸡传染性贫血病毒(CIAV)感染问题,试验利用CRISPR-Cas9技术和Cre-LoxP系统,以血清4型禽腺病毒(FAdV-4)为载体,构建表达CIAV VP1蛋白的重组FAdV-4。通过间接免疫荧光试验和蛋白免疫印迹试验对重组病毒进行验证,通过体外病毒生长曲线来研究其复制效率。结果显示:该重组病毒构建成功,能有效表达CIAV VP1蛋白,命名为rFAdV-4-CIAV-VP1,且发现rFAdV-4-CIAV-VP1在LMH细胞中的复制效率远低于野生型FAdV-4。研究表明构建的重组病毒rFAdV-4-CIAV-VP1为CIAV和FAdV-4的联防联控提供了二联候选疫苗株。

The Development and Application of an Indirect ELISA Test for the Detection of Chicken Anaemia Virus (CAV) by VP1 in Chicken Flock Serum

Chicken anaemia virus (CAV) causes a viral disease in chickens worldwide and thus has economic importance. The main aim of this study was to develop a rapid, sensitive and specific VP1-CAVI indirect ELISA for the detection of CAV infection. The CAV-VP1, was separately cloned and expressed in recombinant E. coli. The purified recombinant CAV-VP1 protein was then coated as an antigen on an ELISA plates to evaluate its reactivity against chicken sera. The resulting indirect ELISA was then compared with a commercial ELISA. The specificity and sensitivity of the indirect ELISA were measured as 93.3% and 100%, respectively. A t-test produced a t-value of 15.805 for the indirect ELISA and revealed a significant difference between CAV-positive serum and CAV-negative serum (p-value of 0.001). For the second variable (i.e., a commercial ELISA), the t-test yielded a t-value of 5.063, which revealed a significant difference between CAV-positive serum and CAV-negative serum (p-value of 0.015). This intervention produces statistically significant improvements in both variables (p-values < 0.05). The correlation coefficient for the indirect ELISA was r = 0.93. Therefore, this work can be considered as a new achievement in diagnosis for Chicken anaemia virus in chicken flocks.

口服表达胸腺肽和鸡干扰素融合蛋白的重组乳酸乳球菌对鸡肠道菌群影响的研究

为构建表达胸腺肽和鸡γ干扰素融合蛋白(Tα1-cIFN-γ)的重组乳酸乳球菌并检测其作为口服免疫增强剂对鸡外周血单个核细胞(PBMC)的增殖活性及鸡肠道菌群的影响,本研究将鸡胸腺肽(Tα1)和鸡干扰素(cIFN-γ)的编码基因序列(去除干扰素信号肽编码基因序列),并按照宿主菌乳酸乳球菌NZ3900株的基因组优化密码子后,以经G4S-linker连接的Tα1-cIFN-γ基因为模板,采用PCR扩增携带表达载体p NZ8149同源臂及HA标签的目的基因序列(Tα1-cIFN-γ-HA);通过PCR扩增携带Tα1-cIFN-γ-HA基因序列同源臂的全长p NZ8149载体序列,利用同源重组的方式将这两段基因连接构建重组质粒p NZ8149-Tα1-cIFN-γ-HA,并经PCR和测序鉴定正确后电转化乳酸乳球菌NZ3900感受态细胞中,构建重组乳酸乳球菌p NZ8149-Tα1-cIFN-γ-HA/NZ3900(r L.lactis-Tα1-cIFN-γ)并经PCR和测序鉴定;将重组乳酸乳球菌r L.lactis-Tα1-cIFN-γ经乳酸链球菌素(Nisin)诱导6 h~7 h,离心超声破碎后取上清采用western blot鉴定Tα1-cIFN-γ的表达。结果显示,r L.lactis-Tα1-cIFN-γ经PCR扩增到3185 bp的目的基因片段,测序结果显示目的片段完全正确;且在约25 ku处出现特异性条带,与目的蛋白Tα1-cIFN-γ大小相符,利用BCA蛋白测定试剂盒构建标准曲线,对Tα1-cIFN-γ绝对定量显示其含量为31μg/m L。以重组乳酸乳球菌裂解液(含重组蛋白40μg/m L,重组菌2×10^(9)cfu/mL)经口服免疫21日龄SPF鸡,并于28日龄加强免疫一次,于首免后2周、4周、7周采血分离PBMC,并分别采用Con A+Ionomycin、Con A+PMA及LPS刺激后,采用CCK-8法检测鸡PBMC的增殖活性。结果显示,经刺激后的各实验组鸡于首免后2周、4周、7周PBMC的增殖活性均极显著高于阴性对照组(口服PBS的鸡)(P<0.001、P<0.0001、P<0.0001);7周后剖杀各组鸡取其盲肠粪便样品经PCR扩增16S rDNA基因的保守区V3~V4基因序列,采用高通量测序并采用SIMCA软件、MOTHUR程序、AMDIS软件等对测序结果进行beta多样性、alpha多样性、菌群结构组成以及菌种重要性的LEf Se分析。beta及alpha多样性分析结果显示,实验组和阴性对照组鸡盲肠粪便样品测序结果分散于不同象限;且两组间样品的alpha多样性存在明显差异,表明实验组鸡具有更大的菌种丰度。菌群结构和组成分析结果显示,口服r L.lactis-Tα1-cIFN-γ显著改变了鸡盲肠肠道菌群门水平和属水平的结构和组成,其中厚壁菌门的乳酸杆菌属、普拉梭菌属和黏液真杆菌属等有益菌群显著增加;而拟杆菌门中的瘤胃菌属、另枝菌属等机会致病菌属显著减少。菌种重要性的LEf Se分析结果显示,与阴性对照组相比,口服r L.lactis-Tα1-cIFN-γ对SPF鸡肠道菌群的组成有显著影响,来自杆菌纲、乳杆菌目、乳杆菌科、乳杆菌属和厚壁菌门等有益菌成为肠道菌群内的重要菌种。上述结果首次表明,口服r L.lactis-Tα1-cIFN-γ不仅显著提高鸡PBMC的增殖活性等细胞免疫反应,而且还可以改善肠道菌群结构和组成,提高有益菌属的丰度,降低机会致病菌的丰度。本研究为天然绿色新型口服免疫增强剂和免疫佐剂的研制奠定了基础。

先导编辑在鸡胚成纤维细胞系中的效率研究

为探究先导编辑在鸡细胞系中的基因编辑效率,研究通过点突变和重组连接的方式构建先导编辑的表达质粒,使用在线软件设计并化学合成靶向OVM、MSTN和NHE1基因的先导编辑引导RNA(pegRNA)质粒,脂质体转染上述质粒至鸡胚成纤维细胞系(DF-1)中并进行药物筛选,PCR产物TA克隆测序检测并统计各位点的编辑效率。结果显示:测序和PCR鉴定结果表明先导编辑表达质粒构建成功;DF-1中OVM基因经先导编辑后成功产生错义突变,其中精确编辑效率为41.10%、错误插入与缺失(indel)效率为6.67%,均显著优于对照组的常规基因编辑(P<0.05);MSTN基因的先导编辑精确编辑效率为10.24%、indel效率为13.57%,NHE1基因的先导编辑精确编辑效率为24.88%、indel效率为7.18%。结果验证了先导编辑在鸡细胞系中的有效性和普适性,为其进一步应用于基因编辑鸡的制备奠定基础。

不同胰蛋白酶在制备腮腺炎减毒活疫苗中的效果比较

目的比较基因重组胰蛋白酶和猪源胰蛋白酶在腮腺炎减毒活疫苗中的使用效果。方法使用浓度为10%、15%、20%基因重组胰蛋白酶制备鸡胚成纤维细胞,通过细胞密度、细胞活性、24 h以及48 h细胞贴壁状态等指标确定基因重组胰蛋白酶使用浓度;与猪源胰蛋白酶进行比较,通过细胞密度、细胞活性、48 h细胞贴壁状态以及病毒滴度等指标比较两种胰蛋白酶的使用效果;使用基因重组胰蛋白酶制备3批腮腺炎减毒活疫苗,检定疫苗的稳定性;规模化放大验证该工艺的稳定性。结果通过研究发现基因重组胰蛋白酶的使用浓度为15%;与猪源胰蛋白酶进行比较,两种胰酶制备的细胞密度水平一致,无显著性差异(P>0.05),48 h后细胞均生长至单层,细胞状态良好,按照同一MOI进行接毒,病毒滴度无显著性差异(P>0.05);使用CF-10进行试验,病毒滴度也无差异(P>0.05);连续3批使用基因重组胰蛋白酶制备的疫苗热稳定性良好,且该工艺可以规模化放大。结论在制备腮腺炎减毒活疫苗中可以使用浓度15%的基因重组胰蛋白酶替代猪源胰蛋白酶,作为鸡胚成纤维细胞消化液使用。

重组禽流感三价灭活疫苗免疫商品肉鸡和蛋鸡效果的研究

研究旨在评价重组禽流感三价灭活疫苗在临床中的效果。将40 000只三黄肉鸡分为A组、B组、C组,A组20 000只,B组19 900只,C组100只。A组与B组分别免疫疫苗A与疫苗B,C组为不免疫对照组。2周龄首免,颈部皮下注射,0.3 mL/羽份。6周龄进行二免,颈部皮下注射,0.5 mL/羽份。20 000只蛋鸡分为D组、E组、F组,D组10 000只,E组9 900只,F组100只。D组与E组分别免疫疫苗A与疫苗B,F组为不免疫对照组。2周龄首免颈部皮下注射,0.3 mL/羽份。6周龄进行二免,颈部皮下注射,0.5 mL/羽份。13周龄进行三免,颈部皮下注射,0.5 mL/羽份。免疫后进行安全性评价,并于不同时间监测抗体水平。结果显示,免疫后14 d,各组三黄肉鸡和蛋鸡均未出现副反应,且2~3次免疫后,疫苗基本吸收完全。免疫效力试验结果显示,三黄鸡首免2周后HI抗体即可达到5.0以上,3周后可达到完全保护水平;蛋鸡在产蛋高峰前可达到7.5 log2以上,2~3次免疫后抗体即可达到峰值9~10 log2。研究表明,不同厂家疫苗免疫后抗体均可产生100%保护,但抗体水平略有差异。

Four recombinant pluripotency transcriptional factors containing a protein transduction domain maintained the in vitro pluripotency of chicken embryonic stem cells

Long-term in vitro maintenance of embryonic stem cell (ESC) pluripotency enables the pluripotency and differentiation of ESCs in animals to be investigated. The ability to successfully maintain and differentiate chicken embryonic stem cells (cESCs) would provide a useful tool for avian biology research and would be a resource directly applicable to agricultural production. In this study, endogenous chicken pluripotency transcription factors, POUV, Sox-2, Nanog and Lin28 were cloned and expressed as recombinant proteins containing a nine consecutive arginine protein transduction domain (PTD). cESCs were cultured with these recombinant proteins to maintain cESC pluripotency in vitro. Cultured cESCs exhibited typical characteristics of pluripotency, even after six generations of rapid doubling, including positive staining for stage-specific embryonic antigen I, and strong staining for alkaline phosphatase. Expression levels of the pluripotency markers, POUV, Nanog, C-Myc, Sox-2 and Lin28 were the same as in uncultured stage X blastoderm cells, and most significantly, the formation of embryoid bodies (EBs) by 6th generation cESCs confirmed the ability of these cultured cESCs to differentiate into cells of all three embryonic germ layers. Thus, transcription factors could be translocated through the cell membrane into the intracellular space of cESCs by using a PTD of nine consecutive arginines and the pluripotency of cESCs could be maintained in vitro for at least six generations.

Recombinant canarypox virus expressing the VP2 protein of infectious bursal disease virus induces protection in vaccinated SPF chickens

Dear Editor,Infectious bursal disease virus(IBDV)causes infectious bursal disease,a highly contagious immunosuppressive disease that affects young chickens and causes economic losses in the poultry industry worldwide.IBDV replicates mainly in actively dividing B lymphocytes within the bursa of Fabricius(BF),leading to immunosuppression in affected flocks(Mahgoub et al.,2012).Viral protein 2(VP2),the only structural component of the

Molecular assembly of recombinant chicken type II collagen in the yeast Pichia pastoris

Effective treatment of rheumatoid arthritis can be mediated by native chicken type II collagen(n CCII), recombinant peptide containing n CCII tolerogenic epitopes(CTEs), or a therapeutic DNA vaccine encoding the full-length CCOL2 A1 c DNA. As recombinant CCII(r CCII) might avoid potential pathogenic virus contamination during n CCII preparation or chromosomal integration and oncogene activation associated with DNA vaccines, here we evaluated the importance of propeptide and telopeptide domains on r CCII triple helix molecular assembly. We constructed p C-and p N-procollagen(without N-or Cpropeptides, respectively) as well as CTEs located in the triple helical domain lacking both propeptides and telopeptides, and expressed these in yeast Pichia pastoris host strain GS115(his4, Mut+) simultaneously with recombinant chicken prolyl-4-hydroxylase α and β subunits. Both p C-and p N-procollagen monomers accumulated inside P. pastoris cells, whereas CTE was assembled into homotrimers with stable conformation and secreted into the supernatants, suggesting that the large molecular weight p C-or p N-procollagens were retained within the endoplasmic reticulum whereas the smaller CTEs proceeded through the secretory pathway. Furthermore, resulting recombinant chicken type II collagen p Cα1(II) can induce collagen-induced arthritis(CIA) rat model, which seems to be as effective as the current standard n CCII. Notably, protease digestion assays showed that r CCII could assemble in the absence of C-and N-propeptides or telopeptides. These findings provide new insights into the minimal structural requirements for r CCII expression and folding.

鸡新城疫病毒F基因和鸡IL-2重组DNA疫苗的构建

利用已克隆到的新城疫D2 6株F基因和鸡IL_2基因 ,经过载体改建 ,将他们共同克隆于真核表达质粒pCDNA3上 ,经酶切分析、PCR鉴定证实成功构建了共表达鸡新城疫病毒F基因和鸡IL_2的重组质粒 。

重组鸡白细胞介素18(rChIL-18)对MDV感染SPF鸡细胞免疫的影响

用马立克氏病病毒(MDV)感染5日龄SPF鸡后,取21日龄和35日龄鸡的淋巴细胞,运用3H-TdR掺入法检测T淋巴细胞对ConA和重组鸡白细胞介素18(rChIL-18)的反应,并用MTT法检测NK细胞和CTL对MD肿瘤细胞系CU147的杀伤活性及rChIL-18和IFN-γ对它们的作用。结果显示,SPF鸡感染MDV后淋转水平显著下降,NK细胞、CTL杀伤活性在感染后21日龄时升高,而在35日龄时NK细胞杀伤活性显著下降。rChIL-18对对照组和感染组SPF鸡的淋转水平和杀伤活性均有提高作用,同样IFN-γ也具有提高NK细胞和CTL杀伤活性的作用。

重组鸡γ-干扰素在昆虫细胞中的高效表达

将鸡γ-干扰素(ChIFN-γ)基因克隆到载体pFASTBAC1中,构建转移载体pFASTBAC1-ChIFN-γ,然后转化DH10Bac感受态大肠杆菌,通过位点特异性转座,将ChIFN-γ基因整合到Bacmid穿梭载体中,构建表达质粒Bacmid-ChIFN-γ;通过脂质体将表达质粒转染Sf9昆虫细胞,用间接免疫荧光试验鉴定重组鸡γ-干扰素(rChIFN-γ)的表达;通过水泡性口炎病毒感染鸡胚成纤维细胞(CEF)的细胞病变抑制试验,检测rChIFN-γ的活性.研究结果表明,感染重组杆状病毒的Sf9细胞能高效表达rChIFN-γ,且当每个细胞的感染量为1个病毒时,细胞在感染96h后,rChIFN-γ基因表达产物的活性最高,达到106～107.2U/mL.以rChIFN-γ进行对新城疫病毒(NDV)F48E8株、禽流感H5N1病毒(AIV-H5)和马立克氏病病毒(MDV)GA株的抗病毒活性试验,发现rChIFN-γ对AIV-H5和MDV GA株病毒有明显的抑制其致细胞病变作用,但对NDV F48E8株病毒在体外不能抑制其致细胞病变作用,仅能在病毒滴度上表现抑制效果.

共表达H_9亚型禽流行性感冒病毒血凝素基因和鸡Ⅱ型干扰素基因的重组鸡痘病毒及其免疫效力

为了构建更为安全有效的抗低致病性H9亚型禽流行性感冒 (流感 )的基因工程疫苗 ,将包含有H9亚型禽流感病毒分离株的血凝素 (HA)基因、鸡Ⅱ型干扰素 (IFN Ⅱ )全长cDNA序列及调控其转录的鸡痘病毒早晚期启动子 (PE/L)的基因片段 ,定向插入鸡痘病毒转移载体 1175的痘苗病毒启动子P7.5的下游 ,得到HA和IFN Ⅱ基因分别处于P7.5及PE/L转录调控下的重组转移载体 1175HAIFN。以脂质体转染法将 1175HAIFN转染至已感染鸡痘病毒 2 82E4疫苗株 (wt FPV)的鸡胚成纤维细胞 (CEF)中。 1175HAIFN与wt FPV基因组DNA之间的同源重组产生了重组鸡痘病毒rFPV HA IFN Ⅱ。通过在含X gal的营养琼脂上连续挑选蓝色病毒蚀斑获得并纯化rF PV HA IFN Ⅱ。以间接免疫荧光法和细胞病变抑制试验证实 ,纯化的rFPV HA IFN Ⅱ感染的CEF能以非融合的方式同时表达HA和具有抗VSV活性的鸡IFN Ⅱ。动物试验表明 ,rFPV HA IFN Ⅱ能显著抑制静脉攻毒后 1日龄SPF鸡及含抗FPV母源抗体的商品鸡从泄殖腔排毒 ,且能减轻单表达HA的重组鸡痘病毒 (rFPV HA)抑制 1日龄SPF雏鸡增重的副作用。

表达鸡γ-干扰素和传染性支气管病毒S1基因的重组鸡痘病毒疫苗对鸡外周血T淋巴细胞动态分布影响的研究

机体的免疫应答是一个复杂的生物学过程,它以体液和细胞免疫为主,二者相互影响,相互作用,而构成了一个动态整体。本研究通过FACS技术检测SPF鸡接种共表达IBVS1基因和鸡γ-干扰素基因的重组鸡痘病毒疫苗后外周血中CD4+、CD8+和TCRδγ+三种亚类T淋巴细胞的数量的变化,初步探讨了干扰素对鸡外周血中T淋巴细胞亚类动态分布的影响。结果表明,含有干扰素基因的重组鸡痘病毒能显著增高机体特异性的CD8+和TCRδγ+T淋巴细胞水平,CD4+T淋巴细胞比例则要低于其他的疫苗免疫组。

重组鸡IL-2增强鸡四联灭活苗免疫效果的研究

使用在原核表达系统中表达的重组鸡白细胞介素 2 (IL 2 )蛋白 ,经过初步的分离纯化 ,与鸡新城疫 禽流感 法氏囊 传染性支气管炎四联油乳剂灭活苗同时使用 ,检测其对疫苗的免疫增强效果。试验共分 5组 ,每组 1 0只鸡。其中对照组只注射四联油乳剂灭活苗 ;4个试验组 ,在注射疫苗的同时分别注射重组鸡IL 2蛋白 0 0 5mg、 0 0 1mg、 0 1 5mg、 0 2 0mg。试验组与对照组同时各注射新城疫等多联油苗 0 5mL。采用HA、HI试验测定鸡新城疫、禽流感抗体滴度。结果表明 :重组鸡IL 2对该四联油乳剂灭活苗有较强的免疫增强作用。以第 3、 4组的增强效果较为明显 ,其中对鸡新城疫病毒和禽流感抗原的抗体效价 ,与对照组相比分别提高 2 42 8和 2 2 3 0个滴度。重组鸡IL 2在使用的过程中 ,没有发现任何毒副作用 ,证明是一种安全高效的免疫增强剂。

鸡传染性支气管炎病毒S1基因和鸡II型干扰素基因在重组鸡痘病毒中的共表达

将鸡II型干扰素(ChIFNγ)基因和鸡传染性支气管炎病毒S1基因同时插入到鸡痘病毒转移载体中,构建含有这2个基因的鸡痘病毒转移载体pSY-ChIFNγS1。采用脂质体法将该质粒转染鸡痘病毒感染的鸡胚成纤维细胞(CEF),经过8轮蓝斑筛选,得到纯化的能够同时表达鸡II型干扰素和鸡传染性支气管炎病毒S1基因的重组鸡痘病毒rFPV-ChIFNγS1。rFPV-ChIFNγS1接种28日龄的SPF鸡1周后,可以检测到针对传染性支气管炎病毒S1基因的ELISA抗体,重组病毒接种鸡的CD4+、CD8+和γδTCR阳性T淋巴细胞的百分比含量显著高于非免疫对照鸡(P<0.05);免疫4周后用传染性支气管炎LX4强毒株攻击,rFPV-ChIFNγS1免疫组仅有1只出现轻微的呼吸道症状(1/16),而非免疫对照组则有16只发病(16/16),并有2只出现死亡(2/16),表明rFPV-ChIFNγS1对接种鸡可以产生良好的保护效果。

鸡催乳素和抑制素-α亚基重组蛋白的构建及表达

将鸡催乳素 (PRL)和抑制素 - α亚基 (INB- α)基因编码序列重组为融合基因 ,制备了同时包含这 2种激素基因的融合蛋白。通过 PCR和分子克隆的方法首先将全部粤黄鸡 PRL成熟肽 c DNA克隆到载体 p RSET A的 Bgl 和 Eco R 克隆位点之间 ,获得重组质粒 p PRL- RSET。鸡 INB- α片段经扩增后分别被克隆到质粒 p RSET A和 p PRL- RSET的 Nhe 和 Xho 克隆位点之间 ,获得重组质粒 p INB- RSET和 p INB- PRL。以上重组质粒构建的正确性分别由各特定引物组合扩增的 PCR产物长度、特定限制性内切酶消化各重组质粒所得产物长度以及对各质粒的测序结果得到验证。重组质粒 p PRL- RSET和 p INB- PRL 转化 E.coli BL2 1(DE3)株 ,IPTG诱导后所表达的产物经 SDS- PAGE显示 ,其分别与所预期的重组蛋白分子大小相符。质粒 p PRL - RSET和 p INB- PRL的表达产物和用 Ni- NTA凝胶纯化的 2重组蛋白产物都可与抗鸡 PRL 抗体产生特异的免疫印迹 ,并且表达菌裂解液和相应纯化蛋白的免疫印迹处于同一位置。结果说明 ,试验已成功完成了鸡 PRL、INB-α及 2者融合蛋白的构建。