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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.
11

Studium poruch cytochrom c oxidasy a ATP synthasy na biochemické a molekulární úrovni / Biochemical and molecular studies of cytochrome c oxidase and ATP synthase deficiencies

Fornůsková, Daniela January 2011 (has links)
Mgr. Daniela Fornuskova PhD thesis Biochemical and molecular studies of cytochrome c oxidase and ATP synthase deficiencies ABSTRACT The mammalian organism fully depends on the oxidative phosphorylation system (OXPHOS) as the major energy (ATP) producer of the cell. Disturbances of OXPHOS may be caused by mutations in either mitochondrial DNA (mtDNA) or nuclear DNA (nDNA). One part of the thesis is focused on the role of early and late assembled nuclear-encoded structural subunits of cytochrome c oxidase (CcO) as well as Oxa1l, the human homologue of the yeast mitochondrial Oxa1 translocase, in the biogenesis and function of the human CcO complex using stable RNA interference of COX4, COX5A, COX6A1 and OXA1L, as well as expression of epitope-tagged Cox6a, Cox7a and Cox7b, in HEK (human embryonic kidney)- 293 cells. Our results indicate that, whereas nuclear- encoded CcO subunits Cox4 and Cox5a are required for the assembly of the functional CcO complex, the Cox6a subunit is required for the overall stability of the holoenzyme. In OXA1L knockdown HEK-293 cells, intriguingly, CcO activity and holoenzyme content were unaffected, although the inactivation of OXA1 in yeast was shown to cause complete absence of CcO activity. In addition, we compared OXPHOS protein deficiency patterns in mitochondria from skeletal...
12

Role of molecular chaperones in G protein B5-Regulator of G protein signaling dimer assembly and G protein By dimer specificity

Howlett, Alyson Cerny 02 April 2009 (has links) (PDF)
In order for G protein signaling to occur, the G protein heterotrimer must be assembled from its nascent polypeptides. The most difficult step in this process is the formation of the Gβγ dimer from the free subunits since both are unstable in the absence of the other. Recent studies have shown that phosducin-like protein (PhLP1) works as a co-chaperone with the cytosolic chaperonin complex (CCT) to fold Gβ and mediate its interaction with Gγ. However, these studies did not address questions concerning the scope of PhLP1 and CCT-mediated Gβγ assembly, which are important questions given that there are four Gβs that form various dimers with 12 Gγs and a 5th Gβ that dimerizes with the four regulator of G protein signaling (RGS) proteins of the R7 family. The data presented in Chapter 2 shows that PhLP1 plays a vital role in the assembly of Gγ2 with all four Gβ1-4 subunits and in the assembly of Gβ2 with all twelve Gγ subunits, without affecting the specificity of the Gβγ interactions. The results of Chapter 3 show that Gβ5-RGS7 assembly is dependent on CCT and PhLP1, but the apparent mechanism is different from that of Gβγ. PhLP1 seems to stabilize the interaction of Gβ5 with CCT until Gβ5 is folded, after which it is released to allow Gβ5 to interact with RGS7. These findings point to a general role for PhLP1 in the assembly of all Gβγ combinations, and suggest a CCT-dependent mechanism for Gβ5-RGS7 assembly that utilizes the co-chaperone activity of PhLP1 in a unique way. Chapter 4 discusses PhLP2, a recently discovered essential protein, and member of the Pdc family that does not play a role in G protein signaling. Several studies have indicated that PhLP2 acts as a co-chaperone with CCT in the folding of actin, tubulin, and several cell cycle and pro-apoptotic proteins. In a proteomics screen for PhLP2A interacting partners, α-tubulin, 14-3-3, elongation factor 1α, and ribosomal protein L3 were found. Further proteomics studies indicated that PhLP2A is a phosphoprotein that is phosphorylated by CK2 at threonines 47 and 52.
13

Molecular chaperones in the assembly of α-Synuclein and Parkinson's Disease

Pemberton, Samantha 09 December 2011 (has links) (PDF)
The formation and deposition of α-Synuclein fibrils in the human brain is at the origin of Parkinson's disease. The objective of my thesis was to document the role of two molecular chaperones on the assembly of α-Syn into fibrils: Hsc70, a constitutively expressed human heat shock protein, and Ssa1p, its yeast equivalent. The aim was to expand the catalogue of known effects of molecular chaperones on the PD implicated protein, which could have therapeutic significance. We showed that Hsc70 inhibits the assembly of α-Syn into fibrils, by binding with high affinity to the soluble form of α-Syn. We documented that Hsc70 binds preferentially to α-Syn fibrils and that this binding has a cytoprotective effect, as it renders the fibrils less toxic to cultured mammalian cells. Similarly to Hsc70, Ssa1p inhibits the assembly of α-Syn into fibrils, and has a higher affinity for fibrils than for the soluble form of α-Syn. On the other hand, binding of Ssa1p to α-Syn fibrils does not have a cytoprotective effect, almost certainly due to differences in the amino acid sequences of the peptide binding sites of the two molecular chaperones, which mean that Ssa1p has a lower affinity than Hsc70 for α-Syn fibrils. We stabilized the complex between Ssa1p and α-Syn using chemical cross-linkers, to then map the interaction site between the two proteins. This is indispensable if a "mini" Ssa1p, comprised of only what is necessary and sufficient of Ssa1p, is to be used as a therapeutic agent to decrease the toxicity of α-Syn fibrils. A therapeutic agent based on exogenous protein Ssa1p is less likely to trigger an autoimmune response than for example the endogenous protein Hsc70.

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