Factors Influencing Genetic Transcription Initiation And
Child Health And Human Development
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Abstract
Research in the Section on Formation of RNA is directed toward understanding and utilization of processes involved in cellular DNA replication, the relationship of HIV replication to these cellular events, and how to use this information for therapeutic purposes. We are examining the formation and resolution of RNA/DNA hybrids formed during DNA replication or transcription. Ribonucleases H are important enzymes participating in removal of the RNA of the RNA/DNA hybrids and are intimately related to DNA replication in cells and in HIV replication, during the conversion of the RNA genome of this virus to DNA. RNases H of cells and HIV share common enzymatic mechanisms of cleavage of RNA utilizing similar protein architectures. Drugs to alter levels of specific disease-related genes are being developed to take advantage of RNases H within the cell. Regulated expression of RNases H could enhance the efficacy of the drugs. Molecular genetic, biochemical, and mouse animal models are employed in these efforts.[unreadable] [unreadable] During transcription, RNA/DNA hybrids can form and are usually cleaved by RNase H. RNase H recognizes and specifically cleaves RNA of hybrids by several contacts to the RNA and interactions with the DNA strand using a two metal ion mechanism as determined in collaboration with Dr. Wei Yang (NIDDK). We now know that the eukaryotic RNases H are more complex than the bacterial enzymes, and that the enzymatic activity of mouse RNase H1 (and presumably other eukaryotic RNases H1) form a complex when binding to an RNA/DNA hybrid that enables the enzyme to be more efficient when degrading certain types of RNA/DNA hybrids. In collaboration with the groups at NCI- Frederick we have been examining inhibitors of RNases H that could prove useful in HIV-AIDS therapy. From our earlier work showing that the mouse RNase H1 is critical for development, we know that it is important to have drugs that specifically target the HIV-AIDS RNase H not the cellular enzyme. Screening of potential drugs now includes use of the human RNase H1 isolated in our laboratory.
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