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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Transcript analysis of Feldmannia Sp. virus, FsV : characterization of the major capsid protein gene and its relationship to known viruses

Jia, Yibing 26 April 1996 (has links)
The Feldmannia sp. virus is a large icosahedral virus that persistently infects marine brown alga Feldmannia sp.. So far, there is no information available about viral genome replication, gene structure and gene expression in this unique viral-host system. The purpose of this study was to characterize the general features of viral transcripts in the virus producing sporophyte plants. Northern analysis, using four cosmid clones that cover the entire viral genome, showed that there were six major transcripts and at least eighteen minor transcripts in the virus producing sporophyte plants. These transcripts are not evenly distributed in the viral genome. A 5.7 kb BamHI fragment-R was found to encode a 1.5 kb and a 0.9 kb major transcript, and those two major transcripts were chosen for detailed sequence analysis. The 1.5 kb transcript was identified as the putative major capsid protein (MCP) gene. The FsV MCP has significant similarity with the major capsid protein of Chlorella virus-PBCV-1 and with iridoviruses, fish lymphocystis disease virus, frog virus 3, and with African swine fever virus. / Graduation date: 1996
2

Fine structure of the virus genome in a marine filamentous brown algae, Feldmannia

Lee, Amy M. 18 June 1997 (has links)
Viruses or viruslike particles of eukaryotic algae are ubiquitous in aquatic habitats, however, suprisingly little is known about them. The research presented here focused on one such virus which infects a multicellular filamentous brown alga of the genus Feldmannia. Although preliminary studies had been performed on the genome structure of the Feldmannia sp. Virus (FsV), little was known. The purpose of this study was to analyze the structure of the FsV genome in detail. During the experiments aimed at mapping the FsV genome, cross-hybridization was observed among five BamHI-fragments of the digested FsV DNA. Sequence analysis of one of those fragments revealed the presence of 173 by direct repeats. There are two FsV genomes of different size-classes (158 and 178 kbp). The 173 by repeats in the cross-hybridizing BamHI-fragments were confined to a small region of each virus genome. The number of these repeats in the 178 kbp genome was estimated to be about 109 and in the 158 kbp genome to be about 41. in the 178 kbp genome, the repeats are contained within a 22 kbp region and in the 1.58 kbp genome, the repeats are contained within a 10 kbp region. These viruses are actively replicated in sporophyte plants. A family of related 173 by direct repeats was discovered in an encrypted FsV genome. The family of repeats estimated to be greater than 50 kbp in length were found inserted into a protein kinase gene encoded within the 3.6 kbp viral BamHI-fragment Z. Southern analysis indicates that these repeats in the encrypted FsV genome are distinct from the previously characterized repeats in the amplified FsV genome. The translated protein kinase shares highest homologies to the SNF1 subfamily of serine/threonine protein kinases and contains a potential autophosphorylation site in a region unique to this protein kinase. A DNA polymerase gene was identified in the FsV genome. The predicted peptide sequence of the FsV DNA polymerase gene contains all of the conserved motifs found in B-family (a-like) DNA polymerases. A TTTTTNT sequence motif shown to be a transcription termination signal for Vaccinia virus early genes is found at the 3' end of the DNA polymerase gene. Phylogenetic analysis of the FsV DNA polymerase gene and other viral DNA polymerase genes indicates that FsV belongs to a group of algal viruses recently defined as Phycodnaviridae. / Graduation date: 1998

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