SwePub - search: WFRF:(Marcus Patrick)

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1.	Masson, Patrick, 1974- (author) Investigating the activation and regulation of the proteasome : an essential proteolytic complex 2004 Doctoral thesis (other academic/artistic)abstract The proteasome is a major non-lysosomal proteolytic complex present in eukaryotic cells and has a central role in regulating many protein levels. The complex has been shown to participate in various intracellular pathways including cell cycle regulation or quality control of newly synthesized proteins and many other key pathways. This amazing range of substrates would not be possible without the help of regulators that are able to bind to the 20S proteasome and modulate its activity. Among those, the PA700 or 19S regulator and the PA28 family are the best characterized in higher eukaryotes. The 19S regulatory particle is involved in the recognition of ubiquitinated proteins, targeted for degradation by the proteasome. The PA28 (also termed 11S REG) family is composed of two members the PA28αβ and PA28γ. The function of PA28αβ is related to the adaptive immune response with a proposed contribution in MHC class I peptide presentation whereas the biological role PA28γ remains unknown. The main objectives of the laboratory, and subsequently of this thesis are to use Drosophila melanogaster model system and its advantages to better understand the precise contribution of these different activators in the regulation of the proteasome. Using genomic resources, a unique Drosophila PA28 member was identified, characterized and was shown to be a proteasome regulator with all the properties of PA28γ. Through site-directed mutagenesis we identified a functional nuclear localization signal in the homolog-specific insert region. Study of the promoter region revealed that transcription of Drosophila PA28γ (dPA28γ) gene is under control of DREF, a transcription factor involved in the regulation of genes related to DNA synthesis and cell proliferation. To confirm that dPA28γ has a role in cell cycle progression, the effect of removing dPA28γ from S2 cells was tested using RNA interference. Drosophila cells depleted of dPA28γ showed partial arrest in G1/S cell cycle transition confirming a conserved function between Drosophila and mammalian forms of PA28γ. Finally, characterization of the Dictyostelium regulator, an evolutionarily distant member of the PA28γ, was carried out using fluorogenic degradation assays. We are currently knocking-out the gene in order to determine the biological function of the activator. A second part of my work consisted in the generation of a Drosophila assay used to identify in vivo substrates of the 19S regulator, an assay system that has been originally engineered by Dantuma and coworkers in human cell lines. This was achieved by cloning of GFP behind a series of modified ubiquitins that create substrates degraded through different pathways involving the proteasome pathways. The last project of my thesis concerns the characterization of the mechanism for upregulation of proteasomal gene mRNA after MG132 (proteasome inhibitor) treatment. So far, we found that the 5´-UTR of the genes is responsible for this induction. We are now looking for the precise motif involved in this regulation.
2.	Palmqvist, Anders, 1966, et al. (author) LOTUS: A co-operation for low temperature urea-based selective catalytic reduction of NOx 2004 In: SAE Technical Papers. - 400 Commonwealth Drive, Warrendale, PA, United States : SAE International. - 0148-7191 .- 2688-3627. ; 20014 Journal article (peer-reviewed)abstract The European research co-operation Lotus is presented. The main objectives of the project were i) to show the potential for a urea-based SCR system to comply with the EU standard of years 2005 and 2008 for heavy-duty Diesel engines for different driving conditions with optimal fuel consumption, ii) to reach 95 % conversion of NOx at steady state at full load on a Euro III. engine, iii) to reach 75 % NOx reduction for exhaust temperatures between 200-300°C, and 85 % average NOx reduction between 200-500°C. The energy content of the consumed urea should not exceed 1.0 %, calculated as specific fuel consumption. These targets were met in May 2003 and the Lotus SCR system fulfilled the Euro V NOx legislative objectives for year 2008. Copyright © 2004 SAE International.

Masson, Patrick, 1974- (author)
Investigating the activation and regulation of the proteasome : an essential proteolytic complex
2004
Doctoral thesis (other academic/artistic)abstract
- The proteasome is a major non-lysosomal proteolytic complex present in eukaryotic cells and has a central role in regulating many protein levels. The complex has been shown to participate in various intracellular pathways including cell cycle regulation or quality control of newly synthesized proteins and many other key pathways. This amazing range of substrates would not be possible without the help of regulators that are able to bind to the 20S proteasome and modulate its activity. Among those, the PA700 or 19S regulator and the PA28 family are the best characterized in higher eukaryotes. The 19S regulatory particle is involved in the recognition of ubiquitinated proteins, targeted for degradation by the proteasome. The PA28 (also termed 11S REG) family is composed of two members the PA28αβ and PA28γ. The function of PA28αβ is related to the adaptive immune response with a proposed contribution in MHC class I peptide presentation whereas the biological role PA28γ remains unknown. The main objectives of the laboratory, and subsequently of this thesis are to use Drosophila melanogaster model system and its advantages to better understand the precise contribution of these different activators in the regulation of the proteasome. Using genomic resources, a unique Drosophila PA28 member was identified, characterized and was shown to be a proteasome regulator with all the properties of PA28γ. Through site-directed mutagenesis we identified a functional nuclear localization signal in the homolog-specific insert region. Study of the promoter region revealed that transcription of Drosophila PA28γ (dPA28γ) gene is under control of DREF, a transcription factor involved in the regulation of genes related to DNA synthesis and cell proliferation. To confirm that dPA28γ has a role in cell cycle progression, the effect of removing dPA28γ from S2 cells was tested using RNA interference. Drosophila cells depleted of dPA28γ showed partial arrest in G1/S cell cycle transition confirming a conserved function between Drosophila and mammalian forms of PA28γ. Finally, characterization of the Dictyostelium regulator, an evolutionarily distant member of the PA28γ, was carried out using fluorogenic degradation assays. We are currently knocking-out the gene in order to determine the biological function of the activator. A second part of my work consisted in the generation of a Drosophila assay used to identify in vivo substrates of the 19S regulator, an assay system that has been originally engineered by Dantuma and coworkers in human cell lines. This was achieved by cloning of GFP behind a series of modified ubiquitins that create substrates degraded through different pathways involving the proteasome pathways. The last project of my thesis concerns the characterization of the mechanism for upregulation of proteasomal gene mRNA after MG132 (proteasome inhibitor) treatment. So far, we found that the 5´-UTR of the genes is responsible for this induction. We are now looking for the precise motif involved in this regulation.

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