Prediction of epitope region and preparation of mouse polyclonal antibody of human Shisa-like protein 1(SHISAL1) / 细胞与分子免疫学杂志

Objective To investigate antigen optimization of Shisa like protein 1 (SHISAL1) for preparing mouse anti-human SHISAL1 polyclonal antibody and to identify the specificity of the prepared antibody. Methods Bioinformatics was employed to predict the antigenic epitope region of SHISAL1 protein, and then a polypeptide composed of amino acid residues from the site of 28 to 97 of SHISAL1, termed SHISAL1-N, was selected as the antigen. The coding region of SHISAL1-N was cloned by molecular cloning technique, and then it was inserted into pET-28a to generate pET28a-SHISAL1-N recombinant plasmid. The two recombinant plasmids pET28a-SHISAL1-N and pET28a-SHISAL1 were transformed into BL21 (DE3) bacteria and induced to express by IPTG. The two proteins were purified and immunized to female Kunming mice, respectively. The specificities and sensitivities of the acquired antibodies were detected by Western blot analysis, immunoprecipitation and immunofluorescent cytochemical staining. Results pET28a-SHISAL1-N recombinant plasmid was successfully constructed, and the two fused proteins, SHISAL1 and SHISAL1-N, were induced to express. Moreover, two types of SHISAL1 mouse polyclonal antibodies, derived from SHISAL1-N and SHISAL1 antigens, were obtained. Western blot results showed that the antibody prepared from SHISAL1 antigen was less specific and sensitive compared with the antibody prepared from SHISAL1-N antigen which could specifically identify different endogenous SHISAL1 protein. Immunoprecipitation results showed that SHISAL1-N antibody could specifically pull down SHIISAL1 protein in hepatocellular carcinoma cells and immunofluorescence results demonstrated that SHISAL1-N antibody could specifically bind to SHISAL1 protein in the cytoplasm. Conclusion We have optimized the SHISAL1 antigen and prepared the mouse anti-human SHISAL1 polyclonal antibodies successfully, which can be used for Western blot analysis, immunoprecipitation and immunofluorescence cytochemical staining.

Construction of human-bovine interspecies embryos and investigation of interspecies embryonic mitochondrial source / 生物工程学报

<p><b>UNLABELLED</b>Obtaining human blastocysts is a prerequisite for cell replacement therapy using embryonic stem cells. We established an interspecies somatic cell nuclear transfer (iSCNT) technique for producing blastocysts without sacrificing human oocytes. Human foetal fibroblasts were used as donor cells injected into the enucleated bovine oocytes in nuclear transfer, whereas bovine foetal fibroblasts were used to produce intraspecies embryos. We also examined the fate of human and bovine mitochondrial DNA (mtDNA) during preimplantation development after nuclear transfer by PCR. PCR analysis for the detection of human and bovine mtDNA was done at the 2,8-morula, and blastocyst stages of the embryos.</p><p><b>RESULT</b>2.8% interspecies embryos developed to blastocysts after cultured in an SOF medium, while blastocyst rate of intraspecies embryos were 10.1%. Both human and bovine mtDNAs existed until the morula stage, whereas only the bovine mtDNA was found at the blastocyst stage. These results indicated that interspecies cloning without using human oocytes could generate human blastocysts. Because of the incoordination between bovine mtDNA and human nuclear gene, developmental rate of interspecies embryos was significantly lower than intraspecie. Whether the embryonic stem cell could be used for cell replacement therapy need further research.</p>

Construction of universal vector for gene targeting and analysis of its function / 生物工程学报

To make a universal gene targeting vector fitting for most gene and delete positive selection gene after targeting successfully, a vector named pA2T was constructed by inserting one neomycin gene (neo) for positive selection and two same herpes simplex virus thymidine kinase gene HSV-tk1 and HSV-tk2 for negative selection into the vector of pGEM-3Z, and two locus of crossing-over (x) in P1 (LoxP) and two different multiple cloning sites (MCS) were inserted into two flanks of neo separately. There were eight rare cloning sites between neo and HSV-tk1 and five rare cloning sites between neo and HSV-tk2, and neo, HSV-tk1 and HSV-tk2 could be translated respectively in the pA2T. Transfection of the pA2T into goat fetus fibroblast cells with Lipofectamine 2000 conferred resistance to geneticin (G418) and resistance to ganciclovir (GAC) in the cells, which suggested the positive and negative selectable markers could express in the cells and thus the vector pA2T could be used as a universal gene targeting vector. Transformation of the pA2T into the BM25.8 expressing Cre recombinase conferred neo was deleted in the pA2T, which suggested the LoxP was active. Thus, this vector can be inserted by most gene sequences as homologous sequences and positive selection gene can be deleted after targeting successfully, which is very convenience for the production of transgenic animals using gene targeting method.