Sökning: "virus genome structure"
Visar resultat 26 - 30 av 34 avhandlingar innehållade orden virus genome structure.
26. Concepts in DNA immunization overcoming viral diversity and enhancing plasmid immunogenicity
Sammanfattning : On April 23, 1984, the prominent scientist Robert Gallo held a historical press conference at the Department of Health and Human Services, Washington D.C., USA. He announced that his laboratory at the National Institutes of Health had over the last months isolated a retrovirus named Human T-cell Leukemia Virus type III (HTLV-III). LÄS MER
27. Alphavirus-host interactions : how to unravel the proviral activity of G3BP
Sammanfattning : The genus Alphavirus belongs to the virus family Togaviridiae, a group of arthropod-borne enveloped RNA viruses with single-stranded, positive-sense genome. Members of this genus can be found worldwide and are geographically distinguished into Old World and New World alphaviruses. LÄS MER
28. Genetic aspects of HIV-1 evolution and transmission
Sammanfattning : HIV-1 is one of the fastest evolving organisms known to man. Its rate of evolution is approximately one million times faster than that of higher organisms such as ourselves, meaning that the amount of changes within the HIV-1 genome in just one year corresponds to the amount of changes within the human genome in one million years. LÄS MER
29. Transcription factor effects on chromatin organisation and gene regulation
Sammanfattning : The intranuclear DNA of all eukaryotic cells is packed into chromatin, generating a repressive environment for the genome. Remodelling of the local chromatin structure is a vital process that allows access to the obscured DNA sequence and may induce the expression of specific genes. LÄS MER
30. Characterization of transcription of genomic regions harboring HERV-W elements
Sammanfattning : Human endogenous retroviruses (HERV) comprise 8% of the human genome and can be classified into at least 31 families. A typical HERV provirus consists of internal gag, pol and env genes, flanked by two long terminal repeats (LTRs). HERV are by nature repetitive and have with few notable exceptions lost their protein-coding capacity. LÄS MER