Global ETD Search

1	Sequence analysis of the emm-like gene family of Streptococcus pyogenes Whatmore, Adrian Mark January 1993 (has links) No description available. 579 Antigenic variation
2	Investigations, using antibodies, of the folding of beta-lactamase Benson, Alistair J. January 1986 (has links) No description available. 572 Protein antigenic structures
3	Proteomic analysis of the pre-mRNA splicing machinery utilizing chromosomal locus epitope tagging in metazoans Chen, Yen-I Grace, 1977- 28 August 2008 (has links) Epitope tagging in metazoans is an important tool for biochemical analyses and is generally accomplished by using trans-genes with in-frame epitope tags. However, protein levels from trans-genes are rarely representative of native levels. To overcome the shortcomings using trans-genes, epitope tags were introduced by homologous recombination technology, termed CLEP tagging (Chromosomal Locus EPitope tagging), immediately upstream of the stop codon of targeted genes in chicken B cell line DT40 and mouse embryonic stem (ES) cells. I first demonstrated the feasibility and promise of this technique in DT40 cells by purifying low abundance polypeptides and factors loosely associated with the SmD3 protein, a core protein participating in pre-mRNA splicing and mRNA turnover, with a TAP (tandem affinity purification) tag. Glycerol gradient separation was performed to further characterize the SmD3-associated protein complexes from the 200S fractions, corresponding to the supraspliceosomes. The purification included all five spliceosomal snRNAs. Most known snRNP-associated proteins, 5' end binding factors, 3' end processing factors, mRNA export factors, hnRNPs, and other RNA binding proteins were identified from the protein components. Intriguingly, the purified supraspliceosomes also contained a number of structural proteins, nucleoporins, chromatin remodeling factors, and several novel proteins that were absent from splicing complexes assembled in vitro. I showed that the in vivo analyses provide a more comprehensive list of polypeptides associated with pre-mRNA splicing apparatus as well as those that coupled transcription to the pre-mRNA processing steps. With similar techniques, the TAP tag was inserted into the chromosomal locus of a pre-mRNA splicing factor component, mSART-1 in live mice. Surprisingly, a profound autoimmune response was induced in homozygous-modified mice, due likely to an inappropriate stimulation of the immune system. I believe these mice will serve as a valuable tool for the studies of mammalian autoimmune diseases, especially those resulting from the generation of autoantibodies against RNP components. / text Antigenic determinants Proteomics
4	Evolution of epitope regions in HIV genome delineating selective forces acting on conformational and linear epitopes / Perikala, Satish Kumar. January 2010 (has links) Thesis (M.S.)--Kent State University, 2010. / Title from PDF t.p. (viewed Apr. 28, 2010). Advisor: Helen Piontkivska. Keywords: Conformational Epitopes; Linear Epitopes; HIV; Selective Forces; synonymous changes; nonsynonymous changes; Radical changes; Conservative changes. Includes bibliographical references (p. 81-96). HIV (Viruses) Antigenic determinants.
5	Identification, characterization, and epitope mapping of tree nut allergens Robotham, Jason M. Roux, Kenneth. January 1900 (has links) Thesis (Ph. D.)--Florida State University, 2006. / Advisor: Kenneth H. Roux, Florida State University, College of Arts and Sciences, Dept. of Biological Science. Title and description from dissertation home page (viewed June 7, 2006). Document formatted into pages; contains ix, 85 pages. Includes bibliographical references. Nuts Antigenic determinants.
6	Proteomic analysis of the pre-mRNA splicing machinery utilizing chromosomal locus epitope tagging in metazoans Chen, Yen-I Grace, January 1900 (has links) Thesis (Ph. D.)--University of Texas at Austin, 2007. / Vita. Includes bibliographical references. Antigenic determinants. Proteomics.
7	Antigenic diversity in Theileria parva in vaccine stabilate and African buffalo Hemmink, Johanneke Dinie January 2014 (has links) Theileria parva is a tick-borne intracellular protozoan parasite which infects cattle and African buffalo in Eastern and Southern Africa. Cattle may be immunised against T. parva by the infection and treatment method (ITM), which involves inoculation with live sporozoites and simultaneous treatment with oxytetracycline. One such ITM vaccine is the Muguga Cocktail, which is composed of a mixture of three parasite stocks: Muguga, Serengeti-transformed and Kiambu 5. Although the vaccine has been used with success in the field in several areas in Eastern Africa, there is evidence that vaccination using cattle-derived parasites does not always provide adequate protection against buffalo-derived T. parva. A number of T. parva antigens recognised by CD8+ T cells from cattle immunised by ITM have been identified in previous studies. A proportion of these antigens show a high degree of sequence polymorphism and allelic diversity is believed to be much greater in buffalo-derived T. parva than in cattle-derived parasites. The present study focussed on the development and application of a deep sequencing technique for characterising genotypically heterogeneous T. parva DNA samples. A panel of genes encoding CD8+ T cell antigens was used as the basis of a multi-locus sequence typing system (MLST) built upon Roche 454 amplicon sequencing technology. This system was validated using parasite stocks of known composition and then utilised to investigate genetic and antigenic diversity in vaccine stabilates and samples derived from African buffalo. The MLST profile obtained for the Muguga Cocktail stocks was compared to those of African buffalo in two geographically separated sites and was also compared with micro/mini-satellite DNA profiles of Muguga Cocktail stocks. The three components of the T. parva Muguga Cocktail vaccine were found to have limited genotypic and antigenic diversity using both methods. The composition of vaccine batches produced in a single production run (ILRI0801-ILRI0804) was shown to be relatively consistent. In contrast, the composition of the component stocks was shown to alter following passage through cattle and ticks. The deep multi-locus sequence profile and satellite DNA profile established in this study may be used as a reference for comparison with future vaccine batches. It is suggested that formulation of a new cocktail vaccine containing three parasite clones selected on the basis of genotypic and antigenic divergence may well provide protection comparable to that obtained with the Muguga Cocktail. The components of such a vaccine could readily be distinguished and the composition of vaccine batches monitored, thus allowing improved quality control and greater consistency of the vaccine. Genetic and antigenic diversity was found to be very high in parasite populations from African buffalo from the Kruger National Park, South Africa and the Ol Pejeta conservancy, Kenya. The estimated average genetic ‘distance’ between any two alleles in the Kruger National Park and within the Ol Pejeta conservancy was very similar for all six genes investigated. Many of the identified alleles were ‘private’ to either the buffalo from Ol Pejeta or the Kruger National Park and many of these alleles were present in several individuals in one location. Principal co-ordinate analysis and phylogenetic investigation of several antigen-encoding loci indicated that extant buffalo parasite populations are geographically sub-structured although some of the underlying diversity may reflect ‘ancient’ polymorphism in an ancestral population. A subset of the CD8+ T cell antigens examined exhibited extensive antigenic polymorphism while others were highly conserved at the amino acid level. These conserved genes may represent good candidates for the development of next generation vaccines, as strain specificity may be overcome if protective CD8+ T cell responses could be generated against these conserved antigens. This would enable the use of sub-unit vaccines in areas where cattle co-graze with buffalo. Theileria sp (buffalo) was identified in cell lines isolated from cattle, indicating that this parasite can transform bovine lymphocytes and may therefore be implicated in pathology in cattle. Phylogenetic analysis of T. parva and T. sp (buffalo) clones using the 5S subunit ribosomal RNA gene, Tp6, Tp7 and Tp8 showed a clear distinction between the two parasite species. These genes could thus be considered as candidates for an improved diagnostic test for T. parva in South Africa. 636.2 Theileria parva ; buffalo ; antigenic
8	Cloning and expression of sperm antigens from a human testis lambda (#lambda#) gt11 cDNA library Chen, Yun-Liang January 1999 (has links) No description available. 572.8 Antigenic molecules; Immune infertility
9	Diversity in Plasmodium falciparum with particular reference to the infected erythrocyte Bond, P. M. January 1987 (has links) No description available. 610 Malaria research][Antigenic diversity
10	Synthesis and application of nanoparticles : from materials to biology Rutledge, Ryan D. January 2009 (has links) Thesis (Ph. D. in Chemistry)--Vanderbilt University, May 2009. / Title from title screen. Includes bibliographical references.

Search results