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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
121

Studies of the chemical and regulatory mechanisms of tyrosine hydroxylase

Frantom, Patrick Allen 16 August 2006 (has links)
Tyrosine hydroxylase (TyrH) catalyzes the pterin-dependent hydroxylation of tyrosine to form dihydroxyphenylalanine. The enzyme requires one atom of ferrous iron for activity. Using deuterated 4-methylphenylalanine substrates, intrinsic primary and secondary isotope effects of 9.6 ± 0.9 and 1.21 ± 0.08 have been determined for benzylic hydroxylation catalyzed by TyrH. The large, normal secondary isotope effect is consistent with a mechanism involving hydrogen atom abstraction to generate a radical intermediate. The similarity of the isotope effects to those measured for benzylic hydroxylation catalyzed by cytochrome P-450 suggests that a high-valent, ferryl-oxo species is the hydroxylating species in TyrH. Uncoupled mutant forms of TyrH have been utilized to unmask isotope effects on steps in the aromatic hydroxylation pathway which also implicate a ferryl-oxo intermediate. Inverse secondary isotope effects were seen when 3,5-2H2-tyrosine was used as a substrate for several mutant enzyme forms. This result is consistent with a direct attack by a ferryl-oxo species on the aromatic ring of tyrosine forming a cationic intermediate. Rapid-freeze quench Mössbauer studies have provided preliminary spectroscopic evidence for an Fe(IV) intermediate in the reaction catalyzed by TyrH. The role of the iron atom in the regulatory mechanism has also been investigated. The iron atom in TyrH, as isolated, is in the ferric form and must be reduced for activity. The iron can be reduced by a number of one-electron reductants including tetrahydrobiopterin, ascorbate, and glutathione; however, it appears that BH4 (kred = 2.8 ± 0.1 mM-1 s-1) is the most likely candidate for reducing the enzyme in vivo. A one-electron transfer would require a pterin radical. Rapid-freeze quench EPR experiments aimed at detecting the intermediate were unsuccessful, suggesting that it decays very rapidly by reducing another equivalent of enzyme. The active Fe(II) form can also become oxidized by oxygen (210 ± 30 M-1 s-1); this increases the affinity of catecholamine inhibitors. Serine 40 can be phosphorylated to relieve the inhibition; however, results with S40E TyrH show phosphorylation does not have an effect on the rate constant for reduction of the enzyme but causes a 40% decrease in the rate constant of oxidation.
122

Signal transduction pathways of ret receptor tuyrosine kinase

Wong, Wai-lap. January 2000 (has links)
Thesis (M. Phil.)--University of Hong Kong, 2001. / Includes bibliographical references (leaves 130-170).
123

Autoimmunity, immune deficiency and cancer : multiple roles of the protein tyrosine phosphatase SHP-1 /

Joliat, Melissa J., January 2001 (has links)
Thesis (Ph. D.) in Biochemistry and Molecular Biology--University of Maine, 2001. / Includes vita. Includes bibliographical references (leaves 113-165).
124

Proton-coupled electron transfer and tyrosine D of phototsystem II

Jenson, David L. Jenson. January 2009 (has links)
Thesis (Ph. D.)--Chemistry and Biochemistry, Georgia Institute of Technology, 2010. / Committee Chair: Bridgette Barry; Committee Member: Ingeborg Schmidt-Krey; Committee Member: Jake Soper; Committee Member: Nils Kroger; Committee Member: Wendy Kelly. Part of the SMARTech Electronic Thesis and Dissertation Collection.
125

Ligand-induced downregulation of the kinase-dead EphB6 receptor

2015 May 1900 (has links)
Ligand-induced internalisation and subsequent downregulation of receptor tyrosine kinases (RTKs) serve to determine biological outputs of their signalling. Intrinsically kinase-deficient RTKs control a variety of biological responses, however, the mechanism of their downregulation is not well understood and its analysis is focused exclusively on the ErbB3 receptor. The Eph group of RTKs is represented by the EphA and EphB subclasses. Each bears one kinase-inactive member, EphA10 and EphB6, respectively, suggesting an important role for these molecules in the Eph signalling network. While EphB6 effects on cell behaviour have been assessed, the mechanism of its downregulation remains elusive. Our work reveals that EphB6 and its kinase-active relative, and signaling partner, EphB4, are downregulated in a similar manner in response to their common ligand, ephrin-B2. Following stimulation, both receptors are internalised through clathrin-coated pits and are degraded in lysosomes. Their targeting for lysosomal degradation relies on the activity of an early endosome regulator, the Rab5 GTPase, as this process is inhibited in the presence of a Rab5 dominant-negative variant. EphB6 also interacts with the Hsp90 chaperone and EphB6 downregulation is preceded by their rapid dissociation. Moreover, the inhibition of Hsp90 results in EphB6 degradation, mimicking its ligand-induced downregulation. These processes appear to rely on overlapping mechanisms, since Hsp90 inhibition does not significantly enhance ligand-induced EphB6 elimination. Taken together, our observations define a novel mechanism for intrinsically kinase-deficient RTK downregulation and support an intriguing model, where Hsp90 dissociation acts as a trigger for ligand-induced receptor removal.
126

Regulation of hEAG1 and SK1 channels by protein tyrosine kinases and BK channels by cholesterol

Wu, Wei, 吴伟 January 2011 (has links)
published_or_final_version / Medicine / Doctoral / Doctor of Philosophy
127

Mechanistic Implications and Characterization of Anaplastic Lymphoma Kinase (ALK) mutations in Neuroblastoma

Chand, Damini January 2015 (has links)
Anaplastic lymphoma kinase (ALK) is a receptor tyrosine kinase that was first reported as a fusion partner of nucleophosmin in Anaplastic large cell lymphoma in 1994. ALK is involved in myriad of cancers including neuroblastoma which is the most common extracranial solid tumor affecting young children. It arises in the neural crest cells of sympathetic nervous system origin and is responsible for 12% of all childhood cancer deaths. Several point mutations in ALK have been described in both familial and sporadic neuroblastoma. With the aim to understand the role of ALK in neuroblastoma further, we investigated the point mutations in ALK reported in patients. Using cell culture based methods and Drosophila as a model organism; we first characterized these mutations under three broad categories: 1) Ligand independent mutations that were constitutively active, 2) Kinase dead mutation and 3) Ligand dependent mutations that behaved as inducible wild type. Further, to understand the activation mechanism of ALK, we constructed mutations that could potentially alter ALK’s conformation based on the available crystal structure. From the data generated, we were able to provide a new perspective to the activation of full length ALK receptor. This was more in line with activation mechanism of insulin receptor and different from that suggested for ALK fusion protein. From a clinical point of view, all the mutations in the study were blocked to different degrees using the ALK inhibitor, crizotinib. Lastly, we identified potential downstream targets of ALK using phosphoproteomics. From the various targets identified, we focused on STAT3 and confirmed its role as a mediator in ALK initiated MYCN transcription. We showed that STAT3 inhibition led to reduction of MYCN levels and thereby identifying it as a potential therapeutic target in neuroblastoma. Overall, our study highlights clinical relevance of ALK mutations in neuroblastoma and from a basic biology viewpoint; it reveals important mechanistic insight into receptor activation.
128

A Systematic Experimental and Computational Approach to Investigating Phosphotyrosine Signaling Networks

Koytiger, Grigoriy 07 June 2014 (has links)
Mutation and over-expression of Receptor Tyrosine Kinases (RTKs) or the proteins they regulate serve as oncogenic drivers in diverse cancers. RTKs catalyze the transfer of phosphate from ATP to the hydroxyl group on tyrosine. The proximal stretch of amino acids including this post translational modification is then able to be recognized by SH2 and PTB domains. Chapter 1 details our work to better understand RTK signaling and its link to oncogenesis using protein microarrays to systematically and quantitatively measure interactions between virtually every SH2 or PTB domain encoded in the human genome and all known sites of tyrosine phosphorylation on 40 out of the 53 Receptor Tyrosine Kinases. Chapter 2 expands upon this work to study the next layer of binding among SH2 and PTB domain-containing adaptor proteins themselves. We found that adaptor proteins, like RTKs, have many high affinity bindings sites for other adaptor proteins. In addition, proteins driving oncogenesis, including both receptors and adaptor proteins, tend to be highly interconnected via a network of SH2 and PTB domain-mediated interactions. Our results suggest that network topological properties such as connectivity can be used to prioritize new drug targets in these well-studied signaling networks. Despite the extensive work presented here on experimentally determining interactions, we nevertheless are unable to keep up with the discovery of new sites of tyrosine phosphorylation by high throughput mass spectrometry as well as their mutation in cancer discovered by next generation tumor sequencing approaches. Chapter 3 introduces work in progress to build a unified predictive model of SH2 domain interactions via integration of diverse data sets of binding as well as crystal structures of domain-peptide interactions. This model will enable researchers discovering new phosphorylation events or mutations to be able to predict potential interaction partners and thereby elucidate novel functional mechanisms. / Chemistry and Chemical Biology
129

Characterization and regulation of expression of tyrosine kinase receptors rse, axl, mer and their ligand gas6 in the testis

陳志偉, Chan, Chi-wai, Michael. January 1998 (has links)
published_or_final_version / Zoology / Master / Master of Philosophy
130

Characterisation of the G protein controlled tyrosine kinase, ACK1 and its interaction with nucleolar partner proteins

Krishnan, Kadalmani January 2012 (has links)
No description available.

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