Graduate Thesis Or Dissertation

 

Analyses of noncanonical DNA structures 公开 Deposited

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  • The structural polymorphic nature of DNA has been long been recognized since the model of the right-handed B-DNA duplex proposed by James Watson and Francis Crick was accepted. Its malleability is thought to be critical in protein recognition and manipulation. In particular, it can form Holliday junctions, four-way DNA structural intermediates of homologous recombination mediated events in which four nucleic acid strands complex to give rise to double-helical arms extending from a central point. The variable recognition specificities of resolvases, a group of proteins that dissociate Holliday junctions into discrete duplexes, are addressed in this dissertation as related to the different structural conformations that can be adopted by junctions. We also describe an unusual base pair observed in the crystal structure of a Holliday junction. The wobbled adenine-thymine base pair can be best ascribed to the assumption of a rare tautomeric form by one of the bases. Such observation provides unique and physiologically relevant evidence for a rare nucleotide base tautomerization, with profound biological and chemical implications that deserve further investigation. Finally, the evolutionary emergence of another known DNA structure, the left-handed Z-DNA, is also studied along with three other GC-rich genomic elements. The possible functions of Z-DNA have only been recently elucidated though it was the first single-crystal X-ray structure of a DNA double helix. In our phylogenomic analysis of the genomes of sixteen organisms, ranging from cyanobacteria to complex eukaryotes, we offer new insights into its evolutionary emergence near the transcription start site. A model is derived which correlates its emergence with other transcriptional regulatory sequences and evolutionary gain of function. Thus, the studies presented in this thesis expand our knowledge of noncanonical DNA structures and provoke questions about their functions in the cell.
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