抗绿脓杆菌鸡卵黄免疫球蛋白的制备和实验

取多价绿脓杆菌（Psetltz‘,lll‘,lltlm对川组＿,PA刚成抗原,免疫美国特种母鸡,并从其所产卵的蛋黄中分离制备抗绿脓杆菌鸡卵黄免疫球蛋白。首先采用水稀释法分离得到鸡卵黄免疫球蛋白（imrnUndeulinofyolk;IgY）组提物,进而采用离子交换层析和凝胶过滤层析得到电泳纯IgY此IgY具有抗PA抗体的特异性,fi．免疫应答迅速（免疫2周后送开始产生抗体）,持久性长（达11个月）。免疫母鸡的成功率为100％。取SD大鼠进行烧伤肠源性感染防治实验。大鼠随机分为3组（正常对照组、烧伤对照组及抗一PAlgY预防组）,烧伤后24h－c48h测户］…     

抗胱抑素C鸡卵黄IgY抗体的制备及鉴定

目的:制备高效价、高特异性的抗人胱抑素 C 鸡卵黄 IgY 抗体,并对其基本特性进行分析和鉴定.方法:以人胱抑素 C 为抗免疫产蛋的罗曼鸡,采用水稀释-盐析法提取及纯化 IgY 抗体,采用蛋白质定量、SDS-PAGE、West?ern 印迹和 ELISA 法对 IgY 抗体进行分析和鉴定.结果:免疫后14 d 即可从鸡冠血中检测出抗胱抑素 C 的特异性抗体,抗体效价在28 d 达最高峰(1∶32000),并可维持2个月以上;收集高效价时的免疫鸡蛋,制备鸡卵黄抗体 IgY;还性 SDS-PAGE 显示抗体 IgY 为相对分子质量分别为65×103和21×103的2条带,抗体纯度可达92%,得率为每个鸡蛋36.5 mg,抗体检出敏感度为15.63 ng/mL;Western 印迹证明该抗体具有高度特异性.结论:制备了抗胱抑素 C 的高效价、高特异性 IgY 抗体.     

抗甲型流感鸡卵黄抗体的制备及效价测定

目的:研究抗甲型流感卵黄抗体的制备与纯化,并探讨其效价随免疫时间的变化关系。方法:用灭活甲型流感病毒复合抗原免疫蛋鸡,用PEG6000对卵黄抗体进行分离提取,SDS-PAGE法对其进行分子量测定,考马斯亮蓝法对其含量和纯度进行测定,用微量凝集法检测蛋鸡血清抗体和卵黄抗体的效价。结果:提取得到的卵黄抗体重链分子量为66 kDa、轻链分子量分26 kDa,每毫升卵黄液可得到纯度为95.80%的卵黄抗体9.98mg,回收率93.01%;高效价持续时间90 d以上;免疫蛋鸡血清和卵黄中3种特异性抗体的消长规律基本相似,但抗体水平之间存在明显的差异。结论:采用灭活甲型流感病毒复合抗原免疫蛋鸡可制备高效价、高纯度抗甲型流感卵黄抗体,为卵黄抗体在甲型流感防治中的应用研究奠定了基础。     

三种鸡形目雉科禽类卵黄抗体的纯化及二抗的制备

目的 纯化三种鸡形目雉科的禽类孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY,并且免疫家兔制备抗血清。方法 采用了水稀释法,HiTrap IgYPurification HP免疫亲和层析法和硫酸铵沉淀法纯化IgY。免疫家兔制备抗血清,免疫双扩散法测定效价。Protein-A亲和纯化兔抗IgY血清IgG。结果 经亲和纯化和盐析纯化,得到了孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY,经SDS-PAGE检测为电泳纯,孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY的相对分子质量约为180×10^3。免疫后经Protein-A亲和纯化后获得了兔抗IgY的IgG。结论 证实了孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY的存在及其特性。雉科鸡形目禽类卵黄抗体的纯化方法 相似,可以推广到鸡形目其它禽类的卵黄抗体的纯化中,获得的抗血清可以进一步进行标记和今后抗原的检测。     

抗肺炎支原体卵黄抗体的制备及其免疫特性

目的制备抗肺炎支原体卵黄抗体,并研究其免疫特异性。方法以超声粉碎法制备肺炎支原体抗原;以ELISA法测定卵黄抗体的效价及免疫特异性;以水稀释法联合疏水层析的方法分离纯化卵黄抗体;应用SDS-PAGE法测定分子量及鉴定抗体纯度;改良Lowry法测定蛋白含量。结果低、高剂量组均诱导母鸡产生有效免疫应答,高剂量组免疫效价高于低剂量组。高剂量组于初免疫后约50d抗体效价达高峰,持续约2个月;而低剂量组在初免疫后约60d抗体效价达高峰,持续约1个月。之后效价逐渐下降,在免疫约120d,高剂量组由13log2下降到10log2;而低剂量组则由11log2下降到7log2。以水稀释法联合疏水层析法制备了电泳纯抗肺炎支原体IgY,分子量约178KD,平均每1ml卵黄液可获得较纯抗体6.4mg。制备的IgY与肺炎支原体具有较高特异性,与解脲支原体和人型支原体无明显交叉反应,与生殖支原体有轻度的交叉反应。结论本研究初步制备了抗肺炎支原体卵黄抗体,为肺炎支原体的防治与检测提供新的途径。     

特异性高免卵黄抗体与鸡柔嫩艾美尔球虫致病关系的研究

为了探讨体液免疫在鸡球虫病中的作用,通过制备柔嫩艾美尔球虫(E.tenella)特异性高免卵黄抗体,检测卵黄抗体在鸡盲肠中的代谢规律,对E.tenella进行体内外抑制和杀灭实验,观察特异性高免卵黄抗体对E.tenella的作用。结果表明:(1)口服的卵黄抗体在鸡消化道较稳定;(2)口服卵黄液可使感染E.tenella鸡的死亡率降低33.34%,增重率和抗球虫指数分别提高39.19%和73.50;(3)特异性高免卵黄抗体对E.tenella的子孢子具有明显的溶解和致弱作用,但对卵囊的孢子化速率和孢子化球虫卵囊的致病性没有明显影响。     

抗生殖器疱疹病毒卵黄免疫球蛋白(IgY)的研究

检测了鸡卵黄中抗生殖器疱疹病毒(HSV-2)抗体的产量、纯度、来源及稳定性。采用生殖器疱疹病毒(HSV-2)作为抗原免疫广州黄村鸡。通过改良水稀释法提取卵黄中的IgY。双紫外光波长测定抗体含量,SDS-PAGE电泳检测抗体纯度。Western blot免疫印迹法测定该抗体来源。ELISA检测IgY对温度、酸碱度的稳定性。结果,蛋黄液中抗体质量浓度13.6g.L-1,抗体纯度达96.2%。免疫印迹证明IgY与鸡血清中的IgG具有相同的分子量和抗原性。IgY具有良好的热稳定性,对酸碱具有一定的耐受力。WD水稀释法能得到高产量、高纯度的特异性IgY,而且有良好的生物学活性。     

抗MRSA-PBP2a鸡卵黄抗体的制备及乳胶凝集检测法的建立

制备抗耐甲氧西林金黄色葡萄球菌青霉素结合蛋白2a( MRSA- PBP2a)抗原的鸡卵黄免疫球蛋白(IgY),建立检测MRSA的乳胶凝集方法.采用体外诱导的方法制备PBP2a蛋白,胸部肌肉多点注射方式免疫6只海蓝蛋鸡,水稀释法提取IgY,BCA法测定蛋白含量,Western blotting进行特异性分析,用提取的IgY抗体致敏聚苯乙烯乳胶,建立检测PBP2a的乳胶凝集方法.成功诱导并制备获得纯化的PBP2a蛋白,首次免疫后1月每枚鸡蛋提纯后可获得约48 mg IgY抗体,Western blotting结果显示IgY抗体能有效识别纯化的PBP2a蛋白;成功建立检测PBP2a的乳胶凝集法,敏感性达1 mg/L.抗MRSA- PBP2a鸡卵黄抗体具有较高的敏感性和特异性,基于其建立的乳胶凝集检测方法具有较好的灵敏性.     

肺炎支原体抗独特型卵黄抗体的制备与鉴定

目的制备肺炎支原体(M.pneumonia)抗独特型卵黄抗体(vitelline Ab2),鉴定其生物学特性,探讨其作为动物疫苗的潜在应用价值。方法首先制备兔、小鼠抗肺炎支原体抗体(Ab1),筛选出对肺炎支原体有免疫中和性的兔抗体和小鼠抗体,再用兔抗体免疫产蛋鸡,筛选并收集有高效价抗独特型卵黄抗体的鸡蛋,分离蛋黄,破碎蛋黄组织,用蒸馏水稀释和酸化提取抗独特型卵黄抗体。用冷酒精沉淀法纯化抗独特型卵黄抗体。用ELISA检测肺炎支原体抗独特型卵黄抗体(Ab2)的效价、质量浓度和特异性。用竞争抑制试验和动物免疫检测卵黄Ab2β。结果兔抗肺炎支原体抗体的效价为1×10~(-6),Ab1的效价为1×10~(-4)～1×10~(-5);以上抗体均只和肺炎支原体发生免疫反应,不和解脲支原体发生免疫反应;它们和肺炎支原体混合后能中和肺炎支原体的活性,使其不能在条件培养基生长。Ab2效价为1×10~(-5),质量浓度为8 mg/mL。该抗独特型卵黄抗体只和Ab1发生免疫反应,不和小鼠抗解脲支原体抗体发生免疫反应。该Ab2和Ab1结合能被肺炎支原体竞争抑制,且Ab2能诱导小鼠产生肺炎支原体抗体(Ab3),该Ab3能和肺炎支原体发生免疫反应。结论成功制备了特异性强、效价高的β型Ab2,具有作为动物肺炎支原体疫苗的潜在应用价值。     

抗中华眼镜蛇毒鸡卵黄抗体的制备及其效价测定

目的探索免疫鸡制备高效价抗眼镜蛇毒抗体的新方法。方法用中华眼镜蛇原毒作抗原免疫22周龄的莱航母鸡,水溶法粗提抗体,DEAE Sepharos FF柱纯化,切向流超滤膜脱盐及浓缩,免疫电泳及双向免疫扩散法进行鉴定及效价测定,采用BCATMProte in Assay K it测定蛋白含量。结果鸡卵黄经水溶法的粗提物与中华眼镜蛇毒即有较明显沉淀反应,其效价随着纯度的提高而增强。将马源性抗血清的蛋白质含量调至与浓缩的IgY相同(2mg/m l),经双向免疫扩散及免疫电泳鉴定,该抗体不但对中华眼镜蛇毒有特异性结合,与孟加拉眼镜蛇毒亦有较强的交叉免疫活性,其效价较马抗眼镜蛇毒血清高4倍以上。结论用中华眼镜蛇原毒制备的IgY抗体,其效价较马抗血清有显著提高,并与孟加拉眼镜蛇毒有高度交叉免疫。本实验为抗眼镜蛇IgY的应用及其它抗蛇毒IgY的制备奠定了基础。     

抗金黄色葡萄球菌卵黄抗体的制备及活性研究

目的:制备金黄色葡萄球菌特异性卵黄抗体并考察其活性。方法:采用灭活的金黄色葡萄球菌免疫产蛋母鸡,通过水稀释法、硫酸铵和硫酸钠盐析及凝胶过滤法分离、纯化抗体。抗体效价测定及体外抑菌试验分别采用酶联免疫吸附法(ELISA)和液体培养基比浊法。结果:纯化所得抗体纯度达95.10%,回收率为20.08%。抗体对金黄色葡萄球菌具有特异性,效价最高可达1:6400。体外抑菌试验表明,抗体抑菌活随IgY浓度的增加而增强,当特异性IgY的浓度为10mg/ml时,能完全抑制细菌生长。结论:抗体制备及纯化所述方法简便、可行,所制抗体具有特异性和抑菌活性。     

60Coγ射线对高免卵黄液中霉形体杀灭作用的研究

用^60Coγ射线处理高免卵黄液,研究了不同剂量、剂量率对霉形体的灭活效果和对卵黄抗体的影响。结果表明,^60Coγ射线可以完全杀灭高免卵黄液中的霉形体,霉形体在卵黄液中的灭活剂量为6．0kGy;10．0kGy以下的辐照剂量不影响卵黄液中蛋白质含量、pH值和活性氧自由基,同时不影响抗体效价。     

Generation and evaluation of anti-mouse IgG IgY as secondary antibody

Abstract

In order to evaluate the possibility of using IgY as the secondary antibody in immunoassay, specific IgY (1: 128,000) was generated by immunizing hens with mouse serum IgG purified by protein A column. IgY was extracted from egg yolk by polyethylene glycol 6000 (PEG-6000), and further purified using protein M affinity chromatography column. The purified IgY was conjugated with horseradish peroxidase (HRP) and fluorescein?isothiocyanate (FITC), in that order. The reactivity of conjugated antibodies was evaluated by ELISA, Western blot and Immunofluorescence, demonstrating that the obtained IgY was able to conjugate with enzymes, react with mouse primary IgG antibody, and subsequently amplify the antigen-antibody signals in different immune reaction conditions, in a comparable secondary effect to conventional goat anti-mouse IgG antibody. The obtained conjugated antibodies showed high stability in broad pH ranges (4–10; >70%) and high thermostability at 37?°C for 84?h (>85%). Despite the need to further consider and evaluate the industrial standardization and production process, our data provided the primary evidence that conjugated IgY antibodies can be used as a secondary antibody for broad immunological analysis.     

Preparation of Immunoglobulin Y (IgY) Against Lipopolysaccharide using Gel Chromatography from the Yolks of Eggs Laid by Immunized Hens

The objective is to prevent and treat injuries caused by lipopolysaccharide (LPS) from gram negative bacteria in animals and humans, we produced antibodies against LPS from egg yolk. LPS from E. coli (O111:B4) mixed with Freund’s Adjuvant was used as the immunogen to immunize Roman hens. Immunized eggs were collected, and immunoglobulin Y (IgY) was purified using a water solution, salt precipitation and gel chromatography. The molecular weight and purity were determined by SDS–PAGE, the antibody titer by noncompetitive enzyme-linked immunosorbent assay (ELISA) and antibody activity against LPS by the mortality of mice intraperitoneally injected with LPS or LPS-IgY solutions. IgY against LPS showed two protein bands at 68 and 26 kDa on the gel; the antibody titer was almost 1:25,600. After incubation with LPS, IgY decreased the mortality of mice challenged with LPS. This study provided an efficient way to produce high-titer egg yolk antibodies, which could attenuate lethal effects of LPS, by immunizing hens. Furthermore, the LPS antibody was purified well using a water solution, salting-out and gel chromatography.     

鸡血清与卵黄中抗中华眼镜蛇毒IgY动态变化研究

目的探索特异性IgY的产生和变化规律。方法用眼镜蛇毒原毒免疫产蛋母鸡,ELISA定期检测卵黄中的抗体效价变化,小鼠体外中和实验检测其生物活性。第1次免疫40周后,眼镜蛇毒攻击已免疫母鸡,检测攻击前后鸡血清中抗体效价变化情况,未经眼镜蛇毒免疫的母鸡作阴性对照。结果经免疫后第7天蛋黄中即可检测到抗体,经多次加强免疫,40周时蛋黄中还能保持高效价的抗体,通过分离纯化,此抗体可保护实验小鼠免受4 LD50眼镜蛇毒的攻击;同时,鸡血清中也保留着较高效价的抗体,可中和4 LD50以上的眼镜蛇毒。结论用眼镜蛇毒免疫鸡,经多次加强免疫,卵黄和鸡血清中可持久保持高效价的特异性抗体,初步检测此抗体可中和4 LD50的蛇毒。     

Passive protection of shrimp against white spot syndrome virus (WSSV) using specific antibody from egg yolk of chickens immunized with inactivated virus or a WSSV-DNA vaccine

White spot syndrome virus (WSSV) causes high mortality and large economic losses in cultured shrimp. The VP28, VP19 and VP15 genes encode viral structural proteins of WSSV. In this study, hens were immunized with recombinant plasmid (pCI-VP28/VP19/VP15) with linkers or with inactivated WSSV, which used CpG oligodeoxynucleotides (CpG ODNs) and Freund's adjuvant as adjuvant, respectively. Egg yolk immunoglobulin (IgY) from hens immunized with inactivated vaccine and DNA vaccine was obtained, purified and used for protection of Metapenaeus ensis shrimp against WSSV. The data showed that the antibody response of the hens immunized with the DNA vaccine was improved by CpG ODNs as adjuvant, but was still inferior to inactivated WSSV in both sera and egg yolks. Using specific IgY from hens immunized with inactivated WSSV and DNA vaccine to neutralize WSSV, the challenged shrimp showed 73.3% and 33.3% survival, respectively. Thus, the results suggest that passive immunization strategy with IgY will be a valuable method against WSSV infection in shrimp.     

Polyclonal antibodies against rat liver cytosolic casein kinase II (CK-2) cross-react with CK-2 from other tissues and nuclear form (PK-N2) of the enzyme

Casein kinase II (CK-2) is a ubiquitous serine/threonine protein kinase, and is localized to both the cell nucleus and cytoplasm. Despite extensive biochemical similarities in their properties, there is evidence that the two forms of the enzyme exhibit certain distinctions (1). This prompted us to produce antibodies against CK-2, which could be utilized as a possible tool for investigations of the various forms of this enzyme. Specific polyclonal antibodies against the rat liver cytosolic CK-2 were raised in egg yolk of laying hens; the enzyme had repeatedly failed to elicit an immunogenic response in rabbits. The purified polyclonal antibody (egg yolk immunoglobulin, IgY) recognized all three subunits (42, 38, and 28 kDa) of the enzyme in immunoblots. The antibody when bound to a matrix was capable of removing CK-2 from solution, and the bound enzyme could be recovered from the immunoaffinity matrix with 0.1 M diethylamine. The antibody exhibited a high affinity towards CK-2 prepared from cytosol of liver, ventral prostate, and several other rat tissues, but no immunoreactivity was detected towards a number of other protein kinases tested. The subunits of the nuclear form of CK-2 (PK-N2) migrated differently when electrophoresed in parallel in the same gel. However, the antibody did cross-react with the various subunits of PK-N2 suggesting a significant homology in the immunogenic domains in the various subunits of the two forms of the enzyme.