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Interpreting a Giant : Studies of Structure and Function of Tripeptidyl-peptidase IIEklund, Sandra January 2011 (has links)
Tripeptidyl-peptidase II (TPP II) is a subtilisin-like serine peptidase that forms a gigantic homooligomeric complex, and is involved in the degradation of peptides in the cytosol. In addition, TPP II has been implicated in specific cellular processes, such as apoptosis control and adipogenesis, but if this is dependent on its endo- or exopeptidase activity remains to be determined. This work is devoted to the structure and function of TPP II, and to finding connections between the two. Evolutionarily conserved regions of TPP II have been identified, and sequence signatures have been constructed as an aid in identification of TPP II homologues. The conserved regions highlight amino acid residues of potential importance to structure, function or both. In addition, the first TPP II homologue in a prokaryote has been documented, which was likely the result of a horizontal gene transfer. Substrate binding for the exopeptidase activity of TPP II has been studied through mutagenesis of Glu-331, which revealed a molecular ruler mechanism that positions substrates for cleavage at the third peptide bond from the N-terminus. Thus, the well-known tripeptidyl-releasing property of TPP II could be explained. The exopeptidase activity was also probed by pH dependence studies, which revealed that a substrate with a smaller residue in the P1 position could bind non-productively to the active site. Furthermore, a difference in the pH dependence of KM between TPP II from Drosophila and homologues from mammals indicated a difference in the configuration of the binding pockets between these species. The endopeptidase activity of TPP II has also been investigated, and was found to differ from the exopeptidase activity. The endopeptidase activity appeared to be promiscuous and the preference for basic amino acid residues in the P1 position reported earlier could not be substantiated. In conclusion, many structural and mechanistic features have been observed in this work. This might be of value to future drug discovery efforts towards TPP II, and in elucidating the physiological role of this gigantic enzyme. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 721
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