四价HCV聚合抗原的克隆,表达及在抗—HCV ELISA试剂中的应用

本研究通过反转录从丙肝病人血清中克隆了丙型肝炎病毒（ＨＣＶ）Ｃ３３ｃ基因,通过ＤＮＡ合成法又分别合成了编码ＨＣＶ核心抗原基因,ＮＳ４抗原及ＮＳ５抗原部分抗原决定簇的基因,利用基因工程手段,在大肠杆菌中表达了含有上述四种抗原的融合蛋白。该融合蛋白具有良好的抗原性和特异性,以该融合蛋白为抗原制备的抗－ＨＣＶＥＬＩＳ试剂检测了中国药品生物制品检定所１９８份标准血清时,其阳性,阴性符合分别达９７％和９８％     

小细胞肺癌肿瘤抗原相关基因的克隆

用肿瘤抗原特异的单抗２Ｆ７筛选人小细胞２肺癌细胞株ＮＣＩ－Ｈ１２８ｃＤＮＡ 士对其中Ｎｏ．４阳性克隆进一步研究。该克隆的溶源菌经４２℃ＩＰＴＧ诱导产生１６５ＫＤ的融合蛋白。它能同时被单抗２Ｆ７和抗－β－半乳糖苷酶抗体识别。     

丙型肝炎病毒核心抗原高效表达及产物抗原性的研究

用含谷胱甘肽转硫酶（ＧＳＴ）基因的ｐＧｅｘ－２Ｔ为表达载体在大肠杆菌中高效表达了含ＨＣＶ核心区部分基因片段（约１２２个氢基酸）的融合蛋白,表达产物Ｃ２７经测定占菌体总蛋白的３０％,Ｃ２７纯化后,用我国ＨＣＶ诊断试剂第二代血清参考品为标准与Ｇ１１核心抗原进行比较,结果显示二者具有相同的总体检出率和近似的抗原活性。因此,推测表达的部分区段基因可能是核心区重要功能区域。另外融合蛋白对提高重组蛋白的抗原活性和分离纯化等均有一定作用。     

丙型肝炎病毒核心区优势抗原表位基因的化学合成及其表达产物的抗原性分析

依据丙型肝炎病毒（ＨＣＶ）多蛋白核心区Ｎ端氨基酸序列和密码子简并性,人为设计并采用半化学半酶促的方法合成了一个ＤＮＡ片段。经核酸杂交检测以及ＤＮＡ序列分析证实,该片段的核苷酸序列与设计完全一致。将合成的ＤＮＡ片段插入融合表达载体ｐＧＥＸ－２Ｔ中,表达产物经亲和层析纯化后进行Ｗｅｓｔｅｒｎ免疫印迹实验和间接ＥＬＩＳＡ分析,结果表明,融合蛋白具有ＨＣＶ核心区抗原的免疫反应性,可望用于ＨＣＶ抗体的检测．此外,编码ＨＣＶ优势抗原表位的化学合成基因有可能为ＨＣＶ嵌合抗原的研究提供一条捷径。     

日本血吸虫26kD抗原基因在BCG中的表达

研究了外源基因日本血吸虫２６ｋＤ抗原（Ｓｊ２６ＧＳＴ）在卡介苗（ｂａｃｉｌｕｓＣａｌｍｅｔｅ－Ｇｕｅｒｉｎ,ＢＣＧ）、耻垢分枝杆菌（Ｍ．ｓｍｅｇｍａｔｉｓ）和大肠杆菌（Ｅ．ｃｏｌｉ）中的表达．运用重组ＤＮＡ和聚合酶链反应（ＰＣＲ）等分子生物学技术,以表达Ｓｊ２６ＧＳＴ的Ｅ．ｃｏｌｉｐＧＥＸ衍生质粒为模板,经ＰＣＲ得到编码Ｓｊ２６ＧＳＴ的全长ｃＤＮＡ片段．将其按正确的阅读框顺序,克隆到人结核杆菌热休克蛋白（ｈｅａｔｓｈｏｃｋｐｒｏｔｅｉｎ,ＨＳＰ）７０的启动子下游,再将ＨＳＰ７０启动子和Ｓｊ２６ＧＳＴ基因一起亚克隆到Ｅ．ｃｏｌｉ－分枝杆菌穿梭质粒ｐＢＣＧ－２０００中,得到Ｅ．ｃｏｌｉ－分枝杆菌穿梭表达质粒ｐＢＣＧ－Ｓｊ２６．ｐＢＣＧ－Ｓｊ２６电转化入ＢＣＧ和Ｍ．ｓｍｅｇｍａｔｉｓｍｃ２１５５中表达Ｓｊ２６ＧＳＴ抗原,所表达的天然重组Ｓｊ２６ＧＳＴ（ｒＳｊ２６ＧＳＴ）为可溶性蛋白,在ＳＤＳ－ＰＡＧＥ上分子量为２６ｋＤ处可见明显的表达蛋白带．其表达量分别占ＢＣＧ和Ｍ．ｓｍｅｇｍａｔｉｓ菌体总蛋白的１５％和１０％．可见,Ｓｊ２６ＧＳＴ基因能在ＢＣＧ中高效表达．     

鲤鱼(Cyprinus carpio)生长激素基因克隆及原核表达

采用逆转录—聚合酶链式反应（ＲＴ－ＰＣＲ）方法,从鲤鱼脑垂体总ＲＮＡ中扩增出编码鲤鱼生长激素（ＧＨ）成熟肽基因序列．定向克隆至质粒ｐＵＣ１８,克隆的鲤鱼ＧＨｃＤＮＡ不含信号肽序列并以新的起始密码子ＡＴＧ取代鲤鱼ＧＨｃＤＮＡ第１个密码子ＴＣＡ．序列分析表明,与Ｋｏｒｅｎ报道的鲤鱼ＧＨｃＤＮＡ相比有两个碱基差异,但推断的氨基酸序列完全一致．将鲤鱼ＧＨｃＤＮＡ定向克隆至原核表达载体ｐＢＶ２２０,构建成重组鲤鱼ＧＨ基因表达载体ｐＢＶｃＧＨ８．ＳＤＳ－ＰＡＧＥ和薄层扫描分析表明：经４２℃诱导,ｐＢＶｃＧＨ８在大肠杆菌中可表达一分子量约２２０００的特异蛋白,表达量占细胞总蛋白的２９．２％．该基因重组的鲤鱼ＧＨ添加到饲料中投喂罗非鱼,证实有明显的促进生长作用     

人粒细胞集落激因子cDNA的克隆,序列鉴定及初步表达

利用多聚酶链反应技术,从人膀胱癌细胞系５６３７细胞中快速扩增并克隆了人粒细胞集落刺激因子ｃＤＮＡ,序列分析证明,该ｃＤＮＡ包含人粒细胞集落刺激因子的全部编码基因,全长６１２ｂｐ,编码３０个氨基酸的信号肽和１７４个氨基酸的成熟蛋白。其中第４３位ｃｏｄｏｎ出现一个碱基的突变（ＣＡＣ→ＴＡＣ）导至第４３位氨基酸的改变（组氨酸→酪氨酸）。经逆转录病毒导入ＳＰ２／０细胞并初步表达。结果表明：该基因产物具有Ｇ     

用富集文库克隆人胰岛素基因组基因

通过构建可富集人胰岛素基因的λ噬菌体文库,克隆了人胰岛素基因组基因．首先从中国人血液白细胞中提取到人基因组ＤＮＡ,用ＥｃｏＲⅠ和ＢｇｌⅡ对基因组ＤＮＡ进行全酶切,经０．４％琼脂糖凝胶电泳,特异回收９．５ｋｂ左右的ＤＮＡ片段．将该片段与λＥＭＢＬ３／ＢａｍＨⅠ臂连接,构建成一个特殊的人基因组λ噬菌体文库（富集文库）,效价为２×１０４．同时采用ＰＣＲ方法及用引物Ⅰ：５′ＧＧＡＣＡＧＧＣＴＡＣＡＴＣＡＧＧＡＡＧＡＧＧ３′,引物Ⅱ：５′ＣＴＧＣＧＴＣＴＡＡＴＴＧＣＡＧＴＡＧＴＴＣ３′,从人基因组ＤＮＡ中扩增出一段含胰岛素基因的１．３６ｋｂＤＮＡ片段,做为放射性标记探针,对文库进行了噬菌斑原位杂交筛选,从１×１０４个噬菌斑中筛选到一个含人胰岛素基因组基因的阳性克隆,并进一步完成了亚克隆和该基因１７３２ｂｐＤＮＡ序列的测定．结果该基因的１７３２ｂｐＤＮＡ序列包括部分５′端和３′端与国外发表的人胰岛素α型等位基因的序列相同     

大鼠脑谷氨酸脱羧酶基因的cDNA克隆及序列分析

胰岛β－细胞自身抗原蛋白之一是脑中谷氨酸脱羧酶（Ｇｌｕｔａｍｉｃａｃｉｄｄｅｃａｒｂｏｘｙｌａｓｅ,ＧＡＤ,ＥＣ４．１．１．１５）同源物。以双链ｃＤＮＡ为模板,用ＰＣＲ方法快速克隆了Ｗｉｓｔａｒ大鼠脑ＧＡＤ基因的ｃＤＮＡ,将此包括编码５９３个氨基酸的全长ＤＮＡ片段重组入ｐＵＣ质粒并用双脱氧末端终止法测定了全部序列,证明其全长为１７７９ｂｐ．经比较发现Ｗｉｓｔａｒ大鼠脑与Ｒｕｓｓｅｌｌ报导的大鼠脑ＧＡＤ基因序列,有一处碱基的差别,但并不涉及氨基酸的改变。同时还对用ＰＣＲ扩增长片段ＤＮＡ进行了方法学上的探讨。     

大鼠脑谷氨酸脱羧酶基因的cDNA克隆及序列分析

胰岛β－细胞自身抗原蛋白之一是脑中谷氨酸脱羧酶（Ｇｌｕｔａｍｉｃａｃｉｄｄｅｃａｒｂｏｘｙｌａｓｅ,ＧＡＤ,ＥＣ４．１．１．１５）同源物,以双链ｃＤＮＡ为模权,用ＰＣＲ方法快速克隆了Ｗｉｓｔａｒ大鼠脑ＧＡＤ基因的ｃＤＮＡ将此包括编码５９３个氨基酸的全长ＤＮＡ片段重组入ｐＵＣ质粒并用双脱的氧末端终止法测定了全部序列,证明其全长为１７７９ｂｐ,经比较发现Ｗｉｓｔａｒ大鼠脑与Ｒｕｓｓｅｌｌ报导的大鼠脑Ｇ     

Influenza A virus M2 protein: monoclonal antibody restriction of virus growth and detection of M2 in virions.

The influenza A virus M2 protein is an integral membrane protein of 97 amino acids that is expressed at the surface of infected cells with an extracellular N-terminal domain of 18 to 23 amino acid residues, an internal hydrophobic domain of approximately 19 residues, and a C-terminal cytoplasmic domain of 54 residues. To gain an understanding of the M2 protein function in the influenza virus replicative pathway, we produced and characterized a monoclonal antibody to M2. The antibody-binding site was located to the extracellular N terminus of M2 as shown by the loss of recognition after proteolysis at the infected-cell surface, which removes 18 N-terminal residues, and by the finding that the antibody recognizes M2 in cell surface fluorescence. The epitope was further defined to involve residues 11 and 14 by comparing the predicted amino acid sequences of M2 from several avian and human strains and the ability of the M2 protein to be recognized by the antibody. The M2-specific monoclonal antibody was used in a sensitive immunoblot assay to show that M2 protein could be detected in virion preparations. Quantitation of the amount of M2 associated with virions by two unrelated methods indicated that in the virion preparations used there are 14 to 68 molecules of M2 per virion. The monoclonal antibody, when included in a plaque assay overlay, considerably showed the growth of some influenza virus strains. This plaque size reduction is a specific effect for the M2 antibody as determined by an analysis of recombinants with defined genome composition and by the observation that competition by an N-terminal peptide prevents the antibody restriction of virus growth.     

Two Novel Human Members of an Emerging Mammalian Gene Family Related to Mono-ADP-Ribosylating Bacterial Toxins

Mono-ADP-ribosylation is one of the posttranslational protein modifications regulating cellular metabolism, e.g., nitrogen fixation, in prokaryotes. Several bacterial toxins mono-ADP-ribosylate and inactivate specific proteins in their animal hosts. Recently, two mammalian GPI-anchored cell surface enzymes with similar activities were cloned (designated ART1 and ART2). We have now identified six related expressed sequence tags (ESTs) in the public database and cloned the two novel human genes from which these are derived (designatedART3andART4). The deduced amino acid sequences of the predicted gene products show 28% sequence identity to one another and 32–41% identity vs the muscle and T cell enzymes. They contain signal peptide sequences characteristic of GPI anchorage. Southern Zoo blot analyses suggest the presence of related genes in other mammalian species. By PCR screening of somatic cell hybrids and byin situhybridization, we have mapped the two genes to human chromosomes 4p14–p15.1 and 12q13.2–q13.3. Northern blot analyses show that these genes are specifically expressed in testis and spleen, respectively. Comparison of genomic and cDNA sequences reveals a conserved exon/intron structure, with an unusually large exon encoding the predicted mature membrane proteins. Secondary structure prediction analyses indicate conserved motifs and amino acid residues consistent with a common ancestry of this emerging mammalian enzyme family and bacterial mono(ADP-ribosyl)transferases. It is possible that the four human gene family members identified so far represent the “tip of an iceberg,” i.e., a larger family of enzymes that influences the function of target proteins via mono-ADP-ribosylation.     

Identification and characterization of three members of the human metallocarboxypeptidase gene family

Amino acid homology searches of the human genome revealed three members of the metallocarboxypeptidase (metallo-CP) family that had not been described in the literature in addition to the 14 known genes. One of these three, named CPA5, is present in a gene cluster with CPA1, CPA2, and CPA4 on chromosome 7. The cDNA encoding a mouse homolog of human CPA5 was isolated from a testis library and sequenced. The deduced amino acid sequence of human CPA5 has highest amino acid sequence identity (60%) to CPA1. Modeling analysis shows the overall structure to be very similar to that of other members of the A/B subfamily of metallocarboxypeptidases. The active site of CPA5 is predicted to cleave substrates with C-terminal hydrophobic residues, as do CPA1, -2, and -3. Using Northern blot analysis, CPA5 mRNA is detected in testis but not in kidney, liver, brain, or lung. In situ hybridization analysis shows that CPA5 is localized to testis germ cells. Mouse pro-CPA5 protein expressed in Sf9 cells using the baculovirus system was retained in the particulate fraction of the cells and was not secreted into the media. Pro-CPA5 was not enzymatically active toward standard CPA substrates, but after incubation with prohormone convertase 4 the resulting protein was able to cleave furylacryloyl-Gly-Leu, with 3-4-fold greater activity at pH 7.4 than at 5.6. Two additional members of the human CP gene family were also studied. Modeling analysis indicates that both contain the necessary amino acids required for enzymatic activity. The CP on chromosome 8 is predicted to have a CPA-like specificity for C-terminal hydrophobic residues and was named CPA6. The CP on chromosome 2 is predicted to cleave substrates with C-terminal acidic residues and was named CPO.     

Structure, chromosomal localization, and expression of the gene for mouse ecto-mono(ADP-ribosyl)transferase ART5

Mono(ADP-ribosyl)transferases regulate the function of target proteins by attaching ADP-ribose to specific amino acid residues in their target proteins. The purpose of this study was to determine the structure, chromosomal localization, and expression profile of the gene for mouse ecto-ADP-ribosyltransferase ART5. Southern blot analyses indicate that Art5 is a single copy gene which maps to mouse chromosome 7 at offset 49.6 cM in close proximity to the Art1, Art2a and Art2b genes. Northern blot and RT-PCR analyses demonstrate prominent expression of Art5 in testis, and lower levels in cardiac and skeletal muscle. Sequence analyses reveal that the Art5 gene encompasses six exons spanning 8 kb of genomic DNA. The 5' end of the Art5 gene overlaps with that of the Art1 gene. A single long exon encodes the predicted ART5 catalytic domain. Separate exons encode the N-terminal leader peptide and a hydrophilic C-terminal extension. Sequencing of RT-PCR products and ESTs identified six splice variants. The deduced amino acid sequence of ART5 shows 87% sequence identity to its orthologue from the human, and 37 and 32% identity to its murine paralogues ART1 and ART2. Unlike ART1 and ART2, ART5 lacks a glycosylphosphatidylinositol-anchor signal sequence and is predicted to be a secretory enzyme. This prediction was confirmed by transfecting an Art5 cDNA expression construct into Sf9 insect cells. The secreted epitope-tagged ART5 protein resembled rat ART2 in exhibiting potent NAD-glycohydrolase activity. This study provides important experimental tools to further elucidate the function of ART5.     

Identification of the region including the epitope for a monoclonal antibody which can neutralize human parvovirus B19.

In this study, we identified a region in the human parvovirus structural protein which involves the neutralization of the virus by a monoclonal antibody and site-specific synthetic peptides. A newly established monoclonal antibody reacted with both viral capsid proteins VP1 and VP2. The epitope was found in six strains of independently isolated human parvovirus B19. The monoclonal antibody could protect colony-forming unit erythroid in human bone marrow cell culture from injury by the virus. The monoclonal antibody reacted with only 1 of 12 peptides that were synthesized according to a predicted amino acid sequence based on nucleotide sequences of the coding region for the structural protein of B19 virus. The sequence recognized by the antibody was a site corresponding to amino acids 328 to 344 from the amino-terminal portion of VP2. This evidence suggests that the epitope of the viral capsid protein is located on the surface of the virus and may be recognized by virus-neutralizing antibodies.