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Title: Tyrosine derivatives and their anti-cancer applications
Author: Boys, Sarah K.
ISNI:       0000 0004 2733 1053
Awarding Body: University of Edinburgh
Current Institution: University of Edinburgh
Date of Award: 2012
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The incorporation of a propargyl group to a natural product target allows for a streamlined approach to the investigation of structure activity relationships (SARs) and target identification in forward chemical genetics programmes using a ‘click’-based approach. To this end, an efficient synthesis of O-propargylated tyrosine derivatives was designed, and these have been used in the construction of peptide motifs both (a) derived from phage display libraries and (b) found in natural products. The L-tyrosine derivative Y* (compound I, X=H, R=H) was incorporated into a peptide sequence, PTTIYY, which is known to prevent the inhibition of p53 by the AG-2 protein. Y* has been included as both the terminal and the internal tyrosine in the peptide sequence. ELISA assays were carried out to determine how the binding of PTTIYY* and PTTIY*Y to AG-2 compared to that of the un-marked PTTIYY sequence. The results of these assays allowed new conclusions to be drawn regarding the important binding features of the peptide and possible sites for further optimisation of the AG-2 binding properties of this peptide through ‘click’ functionalisation of the modified tyrosine. The binding of the peptides incorporating Y* was also assessed using MCF-7 breast cancer cell lysate, known to contain the AG-2 protein. These results confirmed those seen for the purified AG-2 ELISA. The related bromo-D-tyrosine derivative (compound I, X=Br, R=Me) has been prepared and employed towards the synthesis of a bisebromoamide derivative. Bisebromoamide is a newly discovered polypeptide, and a promising anti-cancer agent. The bisebromoamide derivative contains a thiazole unit (Tzl), two N-methylated amino acids, and an oxopropyl pyrrolidine (Opp) moiety, which is unique to bisebromoamide in natural products. The activity of this bisebromoamide derivative will be investigated via ‘click’-based affinity chromatography using a new supported linker recently developed within the Hulme group.
Supervisor: Hulme, Alison. ; Bradley, Mark. Sponsor: Biotechnology and Biological Sciences Research Council (BBSRC)
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: tyrosine ; bromination ; peptide ; bisebromoamide