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Inhibition of EGFR and MEK surmounts entrectinib resistance in a brain metastasis model of NTRK1-rearranged tumor cells / EGFRとMEKの阻害は、NTRK1融合遺伝子を有する腫瘍細胞の脳転移においてエヌトレクチニブ耐性を克服するSuzuki, Chiaki 23 May 2023 (has links)
京都大学 / 新制・課程博士 / 博士(医学) / 甲第24781号 / 医博第4973号 / 新制||医||1066(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 中島 貴子, 教授 溝脇 尚志, 教授 武藤 学 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
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Unravelling the Evolution of Allosteric Regulation in 3-Deoxy-D-arabino-heptulosonate 7-phosphate SynthaseCross, Penelope Jane January 2012 (has links)
The enzyme 3-deoxy-D-arabino-heptulosonate 7-phosphate synthase (DAH7PS) catalyses the first reaction in the shikimate pathway, leading to the biosynthesis of aromatic compounds including the aromatic amino acids. The catalytic activity of DAH7PS is regulated through feedback inhibition and is the major control point for the pathway. DAH7PSs are divided into two families, type I and type II, based on molecular weight and amino acid sequence. Type I DAH7PSs can be further divided based on sequence similarity. All DAH7PS enzymes with their crystal structures solved share a basic (β/α)₈-barrel fold in which the key catalytic components are housed. Furthermore, all structurally characterised DAH7PSs, except Pyrococcus furiosus DAH7PS (PfuDAH7PS) and Aeropyrum pernix DAH7PS, have recruited extra structural motifs that are implicated in allosteric regulation. However, there are significant differences in the additional structural elements.
This thesis investigates the hypothesis that the diverse regulation strategies for controlling DAH7PS activity have evolved by domain recruitment, whereby regulatory domains have been added to the catalytic barrel.
Chapter 2 describes the functional characterisation of the type Iβ Thermotoga maritima DAH7PS (TmaDAH7PS), and the exploration of its response to inhibitors. The catalytic activity of TmaDAH7PS was found to be substantially inhibited by tyrosine (Tyr) and to a lesser extent, phenylalanine (Phe). The putative regulatory domain previously identified as a ferredoxin-like domain was recognised as an aspartate kinase-chorismate-mutase-tyrA (prephenate dehydrogenase) or ACT domain.
Chapter 3 describes the characterisation of TmaDAH7PS with the N-terminal domain removed. The truncated enzyme was found to be more catalytically active than wild-type TmaDAH7PS and insensitive to inhibition by the aromatic amino acids, Tyr, Phe and tryptophan. Apart from the truncation of the ACT domain, the crystal structure of truncTmaDAH7PS showed no major changes to the monomer structure when compared to wild-type TmaDAH7PS. However, truncTmaDAH7PS crystallises as a dimer, unlike wild-type TmaDAH7PS.
In Chapter 4, the solution of the crystal structure of TmaDAH7PS with Tyr bound is presented. Tyr binding was shown to induce a significant conformational change, and Tyr is observed to bind at the interface between the ACT domains from two diagonally located monomers of the tetramer. The major reorganisation of the regulatory domain with respect to the barrel observed in the crystal structure, was confirmed by small angle X-ray scattering. The closed conformation adopted by the protein on Tyr binding physically gates the neighbouring barrel and blocks substrate entry into the active site.
Chapter 5 explores the interactions between TmaDAH7PS and the allosteric inhibitor, Tyr. The residues His29 and Ser31, which form hydrogen bonds with the hydroxyl moiety of the Tyr ligand, were examined for their impact on the sensitivity and selectivity of the enzyme for the inhibitors Tyr and Phe. The hydroxyl side chain of Ser31 was found to be important for both the preferential inhibition by Tyr over Phe and the inhibitory mechanism. His29 (the hydrogen-bonding partner of Ser31) appears to play a secondary role in determining ligand selectivity and the relative positioning of these two residues is crucial to the inhibition of the enzyme.
Chapter 6 evaluates the transferability of allosteric control of catalytic activity. The ACT domain of TmaDAH7PS was fused onto the barrel of the unregulated PfuDAH7PS. This chimeric enzyme was found to be catalytically active, inhibited by Tyr (although less sensitive) and preliminary crystallographic results show inhibition occurs via the same conformational change observed for wild-type TmaDAH7PS.
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Duplicacions segmentàries a la regió cromosòmica humana 8P23.1: evolució i expansió d'una nova família gènicaBosch Pages, Nina 19 December 2008 (has links)
Les duplicacions segmentàries (DSs), o també anomenades duplicons o Low copy Repeats (LCRs), són regions de coma mínim 1 kb amb un alt nivell d'identitat (>90%), que estan presents almenys dues vegades en el genoma. La regió 8p23.1 consta de 6.5 Mb a la part distal del braç curt del cromosoma 8 i està flanquejada per duplicacions segmentàries. Degut a la seva arquitectura genòmica aquesta regió és susceptible a patir reordenaments mediats per recombinació homòloga no al·lèlica entre les DSs, com per exemple la inversió polimòrfica de 8p23.1 [inv(8)(p23)], present en un de cada quatre individus de la població general europea i japonesa, així com d'altres reorganitzacions menys corrents.El treball realitzat en aquesta tesi doctoral pretén aprofundir en la caracterització de la complexa arquitectura genòmica d'aquesta regió. En la nostra primera aproximació a l'estudi de les DSs que flanquegen la regió cromosòmica 8p23.1, es va identificar una nova família gènica específica de primats, la família gènica FAM90A.Així, bona part d'aquesta tesi doctoral està centrada en l'anàlisi de l'origen, formació, evolució i expansió de FAM90A en els homínids. Per altra banda també s'ha analitzant en detall la variabilitat de FAM90A com a variant en número de còpia (CNV) en diferents poblacions humanes.Finalment, s'ha establert la freqüència de la inversió que afecta a 8p23.1 en població espanyola. També s'ha procedit a genotipar diversos individus homozigots per la inversió i s'ha predit l' estatus de la inversió en 150 individus del projecte HapMap i s'ha analitzat l'efecte que té aquesta reorganització sobre els nivells d'expressió dels gens de la regió. / Segmental duplications (SDs), also known as duplicons or Low Copy Repeats (LCRs), are regions of a minimum of 1 kb with a high sequence identity level (>90%), which are present at least two times in the genome. The 8p23.1 region extends 6.5 Mb at the distal part of the short arm of chromosome 8 and it is flanked by segmental duplications. Due to its genomic architecture the region is prone to suffer rearrangements mediated by non-allelic homologous recombination between these SDs, such as the polymorphic inversion of 8p23.1 [inv(8)(p23)], which is present in one out of every four of European and Japanese general population individuals, as well as other less frequent rearrangements.The aim of the work presented in this doctoral thesis is to get insights in the characterization of the genomic architecture of this complex region. Our first approach to study the SDs flanking 8p23.1 region resulted in the identification of a novel gene family which is primate specific, the FAM90A gene family. Thus, this doctoral thesis is mainly focused on the analysis of the origins, formation, evolution and expansion of FAM90A in hominoids. It has also been analyzed in detail the variability of FAM90A as a copy number variant (CNV) in different human populations.Finally, it has been established the frequency of the inversion affecting 8p23.1 region in the Spanish population. Several homozygous inverted individuals have been genotyped and the status for the inversion has been predicted for 150 HapMap individuals, as well as the effect of this rearrangement on the gene expression levels of the genes contained in the region.
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Examination of Neisseria gonorrhoeae opacity protein expression during experimental murine genital tract infection /Simms, Amy Nicole. January 2005 (has links) (PDF)
Thesis (Ph. D.)--Uniformed Services University of the Health Sciences, 2005. / Typescript (photocopy).
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