Both papain-solubilized and detergent-solubilized human histocompatibility antigens have been treated with NTCB (2-nitro-5-thiocyanatobenzoic acid) which cleaves these molecules at cysteine residues. A study of the fragment produced has made it possible to deduce the size and location of the two disulfide loops in these molecules. The sizes of the two loops in HLA-B7 and in the mixture HLA-B7 + 12 are about 5100 and 6600 daltons, a size similar to that of the disulfide loops found in immunoglobulins. The disulfide loops in HLA-A2 may be smaller in size. The two loops are located in middle regions of these molecules; neither the N-terminal nor the C-terminal regions contain disulfide loops. 相似文献
Based on the results of cytological studies, it has been assumed that Cyanidioschyzon merolae does not contain actin genes. However, Southern hybridization of C. merolae cell-nuclear DNA with a yeast actin-gene probe has suggested the presence of an actin gene in the C. merolae genome. In the present study, an actin gene was isolated from a C. merolae genomic library using a yeast actin-gene probe. The C. merolae actin gene has no intron. The predicted actin is composed of 377 amino acids and has an estimated molecular mass of 42003 Da. Southern hybridization indicated that the C. merolae genome contains only one actin gene. This gene is transcribed at a size of 2.4 kb. When Southern hybridization was performed with C. merolae chromosomes separated by pulsed-field gel electrophoresis, a band appeared on unseparated chromosomes XI and XII. A phylogenetic tree based on known eucaryote actin-gene sequences revealed that C. merolae diverged after the division of Protozoa, but before the division of Fungi, Animalia and Chlorophyta. 相似文献
Human 19S IgM was digested with pronase and proteinase K. Proteolysis was relatively fast, producing Fab2 mu-like fragments (approx. mol. wt 114,000) and Fab mu-like fragments (approx. mol. wt 46,500) as major products. Immunochemical analysis indicated that the fragments produced by either enzyme are very similar and that they are produced by cleavage at the C mu 2-C mu 3 and C mu 1-C mu 2 domain junctions respectively. An intermediate species of mol. wt 74,300, immunologically identical to F(ab)2 mu, was also identified. This is thought to represent an F(ab)2 mu fragment with one Fab mu fragment removed. Fc mu-related fragments were not identified in the digestion mixture with either enzyme. Covalently linked and non-covalently linked 7S human IgM (IgMs and IgMr respectively) were digested with pronase and proteinase K. IgMs was degraded very rapidly by either enzyme, producing relatively stable F(ab)2 mu- and Fab mu-like fragments. These fragments were similar in mol. wt and immunochemical properties to those produced from 19S IgM. IgMr was also degraded rapidly by either enzyme, in this case producing Fab mu-like fragments with no detectable F(ab)2 mu-like fragments. The kinetics of digestion and nature of the products suggest that cleavage of 19S IgM by pronase or proteinase K proceeds via an initial attack at the C mu 2-C mu 3 junction, followed by further degradation at the Cmu 1-C mu 2 junction. The results obtained using 7S IgM show that the intersubunit disulphide bonds, and the associated pentameric structure, are responsible for the relative resistance of 19S IgM to proteolysis. The inter-heavy-chain disulphide bonds, in particular the bond at cys 337, are responsible for the limited susceptibility of F(ab)2 mu-like fragments to proteolysis. 相似文献
Enterococci (Enterococcus faecium and Enterococcus faecalis) and streptococci such as Streptococcus pyogenes (Group A streptococcus), Streptococcus agalactiae (Group B streptococcus), and Streptococcus pneumoniae are increasing in importance as both hospital-acquired and community pathogens. Emerging resistance and increasing incidence of these organisms has necessitated the analysis of their epidemiologic mechanisms of spread. Pulsed-field gel electrophoresis (PFGE) has emerged as the one of the most widely applicable, reproducible, and stable methods to examine strain identity in bacterial organisms. The procedure used in our laboratory for PFGE typing of whole cell DNA digested with SmaI for enterococci, S. pneumoniae, S. pyogenes, and S. agalacatiae is presented. Issues regarding interpretation are also reviewed and discussed. 相似文献
We have studied the synthesis and expression of surface proteins in zygotes of Plasmodium gallinaceum during their transformation to mature ookinetes. The cells were biosynthetically labelled in vitro using [35S]methionine and proteins were immunoprecipitated with rabbit anti-ookinete serum or monoclonal antibodies. Early zygotes (approx. 2 h post-gametogenesis and fertilization) synthesized and expressed on their surface a protein of Mr 26 000 as observed under reducing conditions on polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate (SDS-PAGE) (31 000 under non-reducing conditions) and continued to do so for 8-10 h; thereafter synthesis of the Mr 26 000 protein declined and little or none was synthesized in the mature ookinetes (greater than 20 h post-gametogenesis). Between 3-5 h post-gametogenesis, zygotes also began to synthesize a protein of Mr 28 000 (34 000 under non-reducing conditions). Synthesis and expression of this surface protein continued throughout development; and the Mr 28 000 protein was the predominant surface protein synthesized by the mature ookinete. Mr 26 000 and Mr 28 000 proteins have been designated earlier as PgO-1 and PgO-2 respectively (Carter and Kaushal, Mol. Biochem. Parasitol. (1984) 13, 235-241). Neither protein was synthesized in the gametocytes prior to gametogenesis. Both proteins could be labelled with [3H]glucosamine or [3H]mannose. When zygotes were incubated with [3H]palmitic acid both PgO-1 and PgO-2 bound fatty acids in covalent linkage. The two proteins do not otherwise appear to be structurally related. They were differentially immunoprecipitated by different monoclonal antibodies and gave rise to distinct patterns of peptides following digestion with proteases such as Staphylococcus aureus V-8, trypsin and chymotrypsin. 相似文献
Separation of the external membranes from freshly converted mechanical schistosomula of Schistosoma mansoni was achieved by osmotic shock under hypertonic conditions, followed by mechanical shearing and ultracentrifugation. Prior to treatment, the schistosomula were surface labeled by introduction of N-DNP-epsilon-aminocaproylphosphatidylethanolamine molecules into their lipid bilayer followed by anti-DNP antibodies and stained with either 125I-protein-A or ferritin labeled secondary anti-DNP antibodies. This label provided a membrane marker by which the purity of the preparation could be assessed at each stage. Fluorescence staining with FITC-conjugated secondary antibodies prior to treatment revealed that the homogeneously stained membrane of the intact schistosomula became swollen and ruptured after the osmotic shock. The isolated membrane pellet was intensely fluorescent. Electron microscopical examination revealed mostly vesicles, some of them with organized multilayer assembly. The vesicles were ferritin labeled, indicating that they originated from the outer surface membrane of the schistosomula. A 100 fold enrichment in the alkaline phosphatase activity and about 300 fold enrichment in acetylcholinesterase activity in the membrane preparations, as compared to the intact schistosomula, was found. The isolated tegument was analyzed by SDS-polyacrylamide gel electrophoresis. The pattern obtained showed three major bands, of molecular weights 69 000, 45 000 and 12 000 alongside with a large number of minor bands. Immunoprecipitation of the isolated 125I-labeled membrane antigens with antisera from chronically infected mice revealed these three major bands together with three other bands of molecular weight 38 000, 23 000 and 16 000. 相似文献
Cell membrane proteins encoded for by the major histocompatibility complex (MHC)1 are associated with the antigenic determinant(s) recognized on trinitrophenyl (TNP)-modified cells by syngeneic murine cytotoxic T lymphocytes and by hapten-reactive guinea pig T cells. To investigate the relationship of the TNP moiety on TNP-modified cells to these major histocompatibility antigens, peritoneal exudate cells or splenocytes from two inbred guinea pig strains and one inbred murine strain were TNP-modified, radioiodinated and lysed in detergent. TNP-derivatized proteins were then isolated using an anti-TNP immunoabsorbent, and the presence on TNP-derivatized histocompatibility antigens in the eluted proteins was determined by immunoprecipitation experiments and SDS-polyacrylamide gel electrophoretic analysis. Whereas most of the various histocompatibility antigens examined were found to be TNP-derivatized in amounts proportional to the degree of membrane protein derivation as a whole, only small amounts of TNP-modified strain 2 guinea pig Ia antigens were found, and no hapten-modified strain 13 guinea pig Ia antigens were detected. It is concluded that, in contrast to most MHC gene products, strain 13 Ia antigens are not derivatized on TNP-modified cells and, thus, represent an important exception demonstrating that histocompatibility antigens need not be directly TNP-derivatized for T cell recognition and activation. 相似文献
Our previous studies suggested that the polymorphism of HLA-DR antigens (the human equivalent of murine I-E antigens) was a result of structural variation in the small (beta) subunit. In order to more accurately define this polymorphism we have expanded these studies to include HLA-DR antigens isolated with monoclonal cells derived from genotypically HLA-homozygous DRw2, DR2w5, and DRw7 lymphoblastoid cells derived from offspring of consanguineous relationships. Our results indicate the large (alpha) subunits of DRw2 and DRw7 antigens are nearly identical, while their beta subunits show many differences. In contrast, both the alpha and beta subunits of the DRw5 antigen differ strikingly from the respective subunits of the DRw2 and DRw7 antigens. The significance of the variability of the DRw5 alpha subunit is in question at this point. One intriguing possibility is that DRw5 actually represents the human counterpart of the mouse I-A subregion antigen and that the monoclonal antibody is reacting with a determinant which is shared by the human equivalents of murine I-A and I-E antigens. 相似文献
Summary: The mechanisms of the Michael addition polymerization of N‐aminoethyl piperazine (AEPZ) with divinyl sulfone (DVS) were clarified based on the reactivity sequence of three different amines in AEPZ: 2° amine in piperazine ring > 1° amine ≫ 2° amine formed in situ. When the feed molar ratio of DVS to AEPZ was 1:1, the polymerization of AB intermediate formed proceeded, and the linear poly(sulfone amine) containing secondary and tertiary amines in the backbones were produced. The linear structure of the product was confirmed by NMR spectra, and the molecular weights, molecular weight distribution, and properties of poly(sulfone amine)s were characterized by GPC, DSC, and TGA.
