Global ETD Search

1	Assembly of Iron-Sulfur Clusters In Vivo O'Carroll, Ina Puleri 01 April 2009 (has links) Iron-sulfur [Fe-S] clusters are protein cofactors that facilitate various life-sustaining biological processes. Their in vivo assembly is accomplished by three different systems known to date. These are: the NIF system which provides [Fe-S] clusters for nitrogenase and other nitrogen-fixing proteins, the SUF system which is induced during conditions of oxidative stress and iron starvation in E. coli, and the ISC system which serves as the housekeeping assembly apparatus. The latter is the focus of this dissertation and includes the proteins IscR, IscS, IscU, IscA, HscB, HscA, Fdx, and IscX. IscU is purified in its cluster-less (apo) form, but can serve as a scaffold to assemble [Fe-S] clusters in vitro in the presence of excess iron and sulfide. To test the scaffold hypothesis and gain insight into the events that occur during [Fe-S] cluster assembly and delivery, we developed two methods that allow the isolation of IscU and other ISC proteins in vivo. In the first method, Azotobacter vinelandii IscU is isolated from its native host, whereas in the second, it is isolated recombinantly from E. coli using a vector that allows expression of the entire isc operon. We found that IscU exists in vivo in two forms: apo-IscU and [2Fe-2S]2+ cluster-loaded IscU which are believed to be conformationally distinct. Both transient and stable IscU-IscS complexes were identified, indicating that the two proteins interact in vivo in a manner that involves their association and dissociation. The [2Fe-2S]2+-IscU species was present as a single entity, whereas significant amounts of apo-IscU were found associated with IscS, suggesting that IscU-IscS dissociation is triggered by the completion of [2Fe-2S] clusters. Both apo and [2Fe-2S]2+-IscU were predominantly monomeric whereas IscU-IscS complexes were determined to have an Î±2Î²2 composition. IscU was purified in the absence of the chaperones HscA and HscB and was also shown to accommodate a [2Fe-2S]2+ cluster similar to the one bound to IscU isolated from wild type cells. The findings suggest that [2Fe-2S]2+-IscU exists in one conformation in vivo and that any conformational changes on IscU are exerted after [2Fe-2S] cluster formation. In silico studies showed that a flexible loop containing the conserved LPPVK motif, which is responsible for interactions with HscA, may facilitate cluster exposure to either mediate its delivery to acceptor proteins or participation in the construction of [4Fe-4S] clusters. Experiments with NfuA, a protein similar to the C-terminal domain of NifU, demonstrated that NfuA and similar proteins might serve as [Fe-S] cluster carriers to accomplish the efficient delivery of nascent cofactors to the various recipient proteins. / Ph. D. ISC [Fe-S] clusters Azotobacter vinelandii
2	Isolation of in vivo intermediates in iron sulfur cluster biogenesis Raulfs, Estella Callie 07 May 2009 (has links) Iron-sulfur clusters are simple inorganic cofactors that are ubiquitous in living systems. The assembly of iron sulfur clusters is an essential process and must be carefully controlled in order to limit the release of toxic free iron or sulfide. Thus far there are three known protein systems for iron sulfur cluster assembly including the <i>nif, suf,</i> and <i>isc</i> systems. The <i>nif</i> system makes iron-sulfur clusters for nitrogenase production, while both the <i>suf</i> and <i>isc</i> systems provide iron-sulfur clusters for general cellular use. In <i>Azotobacter vinelandii</i> the isc operon contains eight genes which are transcribed together as a single operon: <i>iscR iscS iscU iscA hscB hscA fdx iscX</i>. The two central <i>isc</i> players include IscS, a cysteine desulfurase, and IscU the proposed site of iron-sulfur cluster assembly. Using <i>A. vinelandii</i> as a model organism, we have sought to better understand the mechanism of <i>in vivo isc</i> cluster assembly. In order test the scaffold hypothesis, we constructed strains that allowed for quick and rapid isolation of IscU. The purification of IscU with a bound [2Fe-2S] cluster strongly supports the model that IscU serves as the site of cluster synthesis <i>in vivo</i>. Additionally, using this same genetic system we isolated an IscU39DA variant with an oxygen stable bound [2Fe-2S] cluster. The IscU39<sup>DA</sup> scaffold came in tight α₂β₂ complex with IscS and was not separated by high salt, size exclusion, or reducing conditions. On the other hand, wild-type IscU also associated with IscS in a α₂β₂ complex, but readily dissociated upon increased salt concentration. The tight association of IscU39<sup>DA</sup> and IscS was found to occur regardless of the presence of a bound [Fe-S] cluster. We conclude that the IscU Asp-39 residue is essential for mediating the dissociation of IscU and IscS. In addition to studying IscS and IscU, we were interested to further understand how the isc system is regulated in response to external factors. Previous work has demonstrated that IscR controls expression of the isc operon in <i>Escherichia coli</i>. When IscR is holo this protein represses <i>isc</i> expression, while in its apo-form it allows <i>isc</i> expression. In <i>A. vinelandii</i> we found that ∆<i>iscR</i> strains exhibit in a 5 – 7 fold elevation of isc expression. Additionally, ∆<i>iscR</> strains reveal a small growth phenotype on plates, and a tendency to form spontaneous suppressor mutations allowing reversion to wild-type growth. Loss of apo-IscR function was found to cause a more severe effect on growth than the loss of holo-IscR function, suggesting IscR has cellular roles in addition to the regulation of the <i>isc</i> operon. / Ph. D. ISC Azotobacter vinelandii iron sulfur clusters scaffold
3	Maturation de sites métalliques de protéines par les protéines à radical S-Adénosyl-L-méthionine et la machinerie de fabrication des centres fer-soufre / Maturation of protein active sites containing metals by the radical S-Adenosyl-L-methionine proteins and the iron-sulfur cluster assembly machinery. Marinoni, Elodie 09 December 2011 (has links) Les centres FeS sont un des cofacteurs protéiques majeurs, ils se trouvent aussi bien chez les bactéries que chez les eucaryotes. Ils ont des rôles essentiels de transfert d'électron, liaison de substrat et son activation, régulation d'expression de gènes, donneur de soufre etc. Leur agencement est très varié, allant du centre [2Fe-2S] à l'agrégat plus complexe MoFe7S9X (X = C, N ou O) de la nitrogénase. L'assemblage de ces centres se fait par des machineries protéiques. Nous avons étudié le système ISC (Iron-Sulfur Cluster) chez les bactéries, qui fabrique des centres [2Fe-2S] et [4Fe-4S]. Il est composé des protéines IscS, IscU, IscA, HscA, HscB et d'une ferrédoxine. Deux de ces protéines, IscS, qui est une cystéine désulfurase et IscU, protéine dite échafaudage, sont le cœur de la machinerie puisque IscS apporte le soufre sur la protéine IscU, qui, avec le fer qu'elle aura obtenu d'une autre protéine (non clairement identifiée à ce jour), fabriquera le centre fer-soufre et le transfèrera à une apoprotéine. Nous avons isolé un complexe stable (IscS-D35A-IscU)2 contenant un centre [2Fe-2S] dans des conditions anaérobie. Différentes formes du complexe ont été obtenues et cristallisées afin d'obtenir leurs structures, résolues par remplacement moléculaire. Ces structures nous ont permis de proposer un mécanisme d'assemblage des centres [2Fe-2S] à l'échelle atomique et électronique. Nous avons d'autre part étudié la protéine HmdB probablement impliquée dans la maturation de l'hydrogénase à fer. HmdB fait partie de la superfamille des protéines à radical SAM. Des cristaux de l'apoprotéine ont été obtenus et sa structure a été résolue par remplacement moléculaire. Même si une partie de la structure n'est pas visible du fait de l'absence de centre [4Fe-4S], elle donne une première vue du site actif de la protéine. / FeS clusters are widely used protein cofactors, found both in bacteria and eukaryotes. They play key roles such as electron transfer, substrate binding and activation, regulation of gene expression, sulfur donor etc. They are really various, ranging from the [2Fe-2S] cluster to the more complex MoFe7S9X (X = C, N or O) agregate of nitrogenase. Clusters assembly is carried out by protein machineries. We studied the ISC (Iron-Sulfur Cluster) in bacteria, who assembles [2Fe-2S] and [4Fe-4S] clusters. It is composed of IscS, IscU, IscA, HscA, HscB proteins and a ferredoxin. Two of these proteins: the cysteine desulfurase IscS, and the scaffold protein IscU, represent the core of the machinery as IscS provides sulfur protein on IscU, which, with iron obtained from another protein (not clearly identified to date), assemble the iron-sulfur center. The latter transfers it to an apoprotein. We isolated under anaerobic conditions a stable (IscS-D35A-IscU)2 complex containing a [2Fe-2S] cluster. Different forms of the complex were obtained and their structures were solved by molecular replacement. These structures allowed us to propose a mechanism for the assembly of the [2Fe-2S] clusters at the atomic and electronic levels. We have also studied the HmdB protein, which is proposed to maturate the [Fe]-hydrogenase. HmdB is a member of the radical SAM proteins superfamily. Crystals of the apoprotein were obtained and its structure was solved by molecular replacement. Although part of the structure is not visible due to the absence of the [4Fe-4S] cluster, this structure gives a first view of the active site of the protein. Radical SAM Centres FeS Machinerie ISC Hydrogénase Radical SAM Iron-sulfur clusters ISC machinery Hydrogenase
4	Formation of Fe-S clusters in the mitochondrion of Trypanosoma brucei CHANGMAI, Piya January 2013 (has links) This thesis focuses on iron sulfur (Fe-S) cluster biogenesis by the ISC machinery in the mitochondrion of Trypanosoma brucei. Most of proteins in the pathway show conserved functions, while some features are distinct from their counterparts in other organisms. We also show here the essentiality of the ISC machinery in bloodstream stage despite the fact that the parasites contain the rudimentary mitochondrion in this stage. The key player for the ISC export machinery, which is indispensable in the maturation of extra-mitochondrial Fe-S proteins, shows some extraordinary phenomena which may imply the moonlighting function of the protein. I also show preliminary data of an ongoing project concerning a putative heme transporter. The results indicate role in heme uptake of the protein, but further study is required to confirm the function of the protein.
5	A Case Study of Semi-Automatic Parallelization of Divide and Conquer Algorithms Using Invasive Interactive Parallelization Hansson, Erik January 2009 (has links) <p>Since computers supporting parallel execution have become more and more common the last years, especially on the consumer market, the need for methods and tools for parallelizing existing sequential programs has highly increased. Today there exist different methods of achieving this, in a more or less user friendly way. We have looked at one method, Invasive Interactive Parallelization (IIP), on a special problem area, divide and conquer algorithms, and performed a case study. This case study shows that by using IIP, sequential programs can be parallelized both for shared and distributed memory machines. We have focused on parallelizing Quick Sort for OpenMP and MPI environment using a tool, Reuseware, which is based on the concepts of Invasive Software Composition.</p> parallelization IIP ISC HPC OpenMP MPI Computer science Datavetenskap
6	Effects of Clematis Armandi extracts on permeability and short circuit current (Isc) across frog skin epithelium Han, Taishien 30 July 2002 (has links) Summary Clmatis Armandi has been used frequently in traditional Chinese medicine for the treatment of diuretic symptoms. The mechanism of its action is unclear. Possible action of this substance may involve alternation of electrolyte transport through the epithelia membranes. In this study¡Atransepithelial conductance of frog skin was measured in vitro in voltage-clamped Ussing chambers. Adding Clematis Armandi extracts to apical surface induced a conductance increment of 1.21 £gS and an apical to serosal Isc of 28.78 £gA/cm2. The Isc can not be completely blocked by apical application of amiloride. Nifedipine and TEA had no effect on Clematis Armandi induced Isc decrease. These data indicate that frog skin is highly responsive to the concentrated Clematis Armandi extracts. The increase in Isc reflects changes in transepithelial transport of Na+ ions modulated at apical membrane. The enormous increase in transepithelial conductance suggests that in additional to enhancement of amiloride-sensitive Na+ channels, Clematis Armandi may also modulate other pathways, such as Cl- ion channel modulation, which needs further investigation. short circuit current (Isc) Clematis Armandi frog skin epithelium permeability
7	Seasonal and Tilt Angle Dependence of Soiling Loss Factor and Development of Artificial Soil Deposition Chamber Replicating Natural Dew Cycle January 2017 (has links) abstract: This is a two-part thesis. Part 1 presents the seasonal and tilt angle dependence of soiling loss factor of photovoltaic (PV) modules over two years for Mesa, Arizona (a desert climatic condition). Part 2 presents the development of an indoor artificial soil deposition chamber replicating natural dew cycle. Several environmental factors affect the performance of PV systems including soiling. Soiling on PV modules results in a decrease of sunlight reaching the solar cell, thereby reducing the current and power output. Dust particles, air pollution particles, pollen, bird droppings and other industrial airborne particles are some natural sources that cause soiling. The dust particles vary from one location to the other in terms of particle size, color, and chemical composition. The thickness and properties of the soil layer determine the optical path of light through the soil/glass interface. Soil accumulation on the glass surface is also influenced by environmental factors such as dew, wind speeds and rainfall. Studies have shown that soil deposition is closely related to tilt angle and exposure period before a rain event. The first part of this thesis analyzes the reduction in irradiance transmitted to a solar cell through the air/soil/glass in comparison to a clean cell (air/glass interface). A time series representation is used to compare seasonal soiling loss factors for two consecutive years (2014-2016). The effect of tilt angle and rain events on these losses are extensively analyzed. Since soiling is a significant field issue, there is a growing need to address the problem, and several companies have come up with solutions such as anti-soiling coatings, automated cleaning systems etc. To test and validate the effectiveness of these anti-soiling coating technologies, various research institutes around the world are working on the design and development of artificial indoor soiling chambers to replicate the natural process in the field. The second part of this thesis work deals with the design and development of an indoor artificial soiling chamber that replicates natural soil deposition process in the field. / Dissertation/Thesis / Masters Thesis Engineering 2017 Engineering Artificial Soiling Isc Soiling Solar Tilt angles Time Series
8	A Case Study of Semi-Automatic Parallelization of Divide and Conquer Algorithms Using Invasive Interactive Parallelization Hansson, Erik January 2009 (has links) Since computers supporting parallel execution have become more and more common the last years, especially on the consumer market, the need for methods and tools for parallelizing existing sequential programs has highly increased. Today there exist different methods of achieving this, in a more or less user friendly way. We have looked at one method, Invasive Interactive Parallelization (IIP), on a special problem area, divide and conquer algorithms, and performed a case study. This case study shows that by using IIP, sequential programs can be parallelized both for shared and distributed memory machines. We have focused on parallelizing Quick Sort for OpenMP and MPI environment using a tool, Reuseware, which is based on the concepts of Invasive Software Composition. parallelization IIP ISC HPC OpenMP MPI Computer Sciences Datavetenskap (datalogi)
9	Controlled Expression and Functional Analysis of the Iron-Sulfur Cluster Biosynthetic Machinery in Azotobacter vinelandii Johnson, Deborah Cumaraswamy 02 August 2006 (has links) A system was developed for the controlled expression of genes in Azotobacter vinelandii by using genomic fusions to the sucrose catabolic regulon. This system was used for the functional analysis of the A. vinelandii isc genes, whose products are involved in the maturation of [Fe-S] proteins. For this analysis the scrX gene, contained within the sucrose catabolic regulon, was replaced by the A. vinelandii iscS, iscU, iscA, hscB, hscA, fdx, iscX gene cluster, resulting in duplicate genomic copies of these genes, one whose expression is directed by the normal isc regulatory elements (Pisc) and the other whose expression is directed by the scrX promoter (PscrX). Functional analysis of [Fe-S] protein maturation components was achieved by placing a mutation within a particular Pisc-controlled gene with subsequent repression of the corresponding PscrX-controlled component by growth on glucose as the carbon source. This experimental strategy was used to show that IscS, IscU, HscBA and Fdx are essential in A. vinelandii and that their depletion results in a deficiency in the maturation of aconitase, an enzyme that requires a [4Fe-4S] cluster for its catalytic activity. Depletion of IscA results in null growth only when cells are cultured under conditions of elevated oxygen, marking the first null phenotype associated with the loss of a bacterial IscA-type protein. Furthermore, the null growth phenotype of cells depleted for HscBA could be partially reversed by culturing cells under conditions of low oxygen. These results are interpreted to indicate that HscBA and IscA could have functions related to the protection or repair of the primary IscS/IscU machinery when grown under aerobic conditions. Conserved amino acid residues within IscS, IscU, and IscA that are essential for their respective functions and/or display a partial or complete dominant-negative growth phenotype were also identified using this system. Inactivation of the IscR repressor protein resulted in a slow growth phenotype that could be specifically attributed to the elevated expression of an intact [Fe-S] cluster biosynthetic system. This system was also used to investigate the extent to which the two [Fe-S] biosynthetic systems in A. vinelandii, Nif and Isc, can perform overlapping functions. Under normal laboratory growth conditions, no cross-talk between the two systems could be detected. However, elevated expression of Isc components as a consequence of inactivation of the IscR repressor protein results in a modest ability of the Isc [Fe-S] protein maturation components to replace the function of Nif-specific [Fe-S] protein maturation components. Similarly, when expressed at very high levels the Nif-specific [Fe-S] protein maturation components could functionally replace the Isc components. Oxygen levels were also found to affect the ability of the Nif and Isc systems to perform common functions. Nevertheless, the lack of significant reciprocal cross-talk between the Nif and Isc systems when they are produced only at levels necessary to satisfy their respective physiological functions, indicates a high level of target specificity with respect to [Fe-S] protein maturation. / Ph. D. Nif Isc [Fe-S] cluster biosynthesis Azotobacter vinelandii
10	Étude des protéines NFU, ISCA et FDX, impliquées dans la maturation des centres fer-soufre dans les mitochondries d’Arabidopsis thaliana / Study of NFU, ISCA and FOX proteins involved in FE.S cluster maturation in mitochondria from Arabidopsis thaliana Przybyla-Toscano, Jonathan 03 February 2017 (has links) Chez les plantes, les protéines à centre fer-soufre (Fe-S) sont impliquées dans de nombreux processus cellulaires (e.g. photosynthèse, respiration). La maturation de ces protéines nécessite la synthèse de novo des centres Fe-S à l’aide de machineries d’assemblage spécifiques. Les plantes possèdent trois machineries d’assemblage nommées SUF, ISC et CIA, dédiées à la maturation des protéines plastidiales, mitochondriales et nucléaires ou cytosoliques, respectivement. Lors de la maturation des protéines mitochondriales, un centre [2Fe-2S] est initialement assemblé sur la protéine d’échafaudage ISU puis transféré vers les apoprotéines cibles à l’aide de chaperons et de diverses protéines de transfert. Si ces étapes semblent suffisantes pour la maturation de protéines incorporant des centres [2Fe-2S], un couplage réductif de deux centres [2Fe-2S] est nécessaire pour la maturation des protéines de type [4Fe-4S]. Cette conversion nécessite des protéines de transfert et un donneur d’électrons, potentiellement la même ferrédoxine que celle qui agit déjà lors des étapes précoces pour la réduction du soufre. En combinant des approches moléculaires, biochimiques et génétiques, l’implication des protéines de transfert NFU et ISCA et des ferrédoxines mitochondriales (mFDX) dans les étapes tardives de transfert et de conversion a été explorée au cours de cette thèse chez la plante modèle Arabidopsis thaliana. Des expériences de complémentation en levure ont démontré que les protéines NFU et ISCA de plantes peuvent assurer les mêmes fonctions que leurs orthologues respectifs, suggérant que ces étapes tardives ont été conservées. Cependant, contrairement à la levure, l’analyse de lignées n’exprimant pas les deux protéines NFU indiquent qu’elles sont essentielles pour le développement de l’embryon. Au niveau moléculaire, les analyses effectuées à l’aide d’approches in vivo et/ou in vitro ont permis d’identifier une interaction entre ISCA1a ou ISCA1b et ISCA2, NFU4 et NFU5 mais aucune interaction avec les deux mFDX dont le rôle dans les dernières étapes d’assemblage des centres Fe-S reste donc incertain. La formation d’holo-hétérocomplexes entre ISCA1 et ISCA2 a été confirmée par co-expression chez E. coli et purification des protéines recombinantes. Globalement, en associant la littérature à propos de la machinerie ISC et les résultats obtenus, le modèle qui ressort est que des hétérocomplexes ISCA1/2 agiraient immédiatement en amont des protéines NFU qui permettraient a minima la maturation des centres [4Fe-4S] de la lipoate synthase. Ce seul partenaire pourrait expliquer en grande partie la létalité d’un mutant nfu4 x nfu5 car l’activité de plusieurs protéines centrales pour le métabolisme mitochondrial dépend de l’acide lipoïque / In plants, iron-sulfur (Fe-S) proteins are involved in crucial processes such as photosynthesis and respiration. The maturation of these proteins requires the de novo synthesis of their Fe-S clusters through dedicated assembly machineries. Plants have three Fe-S cluster assembly machineries, namely SUF, ISC and CIA, devoted to the maturation of plastidial, mitochondrial and nuclear or cytosolic proteins, respectively. During the mitochondrial Fe-S protein maturation, a [2Fe-2S] cluster is first assembled on the ISU scaffold protein then transferred to target proteins with the help of chaperones and various transfer proteins. If these steps are sufficient for the maturation of [2Fe-2S] proteins, a reductive coupling process of two [2Fe-2S] clusters is required for the maturation of [4Fe-4S] proteins. This conversion needs transfer proteins and an electrons donor, potentially the same ferredoxin which acts during the first step of the Fe-S cluster biogenesis for sulfur reduction. By combining molecular, biochemical and genetic approaches, the involvement of NFU and ISCA transfer protein and mitochondrial ferredoxin (mFDX) in the late transfer and conversion steps has been explored during this PhD project by using the Arabidopsis thaliana plant model. Yeast complementation experiments have demonstrated that plant NFU and ISCA proteins have functions similar to their respective orthologs, suggesting that these late steps are conserved. However, unlike yeast, the characterization of nfu mutant lines indicates that both proteins are essential for early embryonic development. At the molecular level, in vivo and in vitro approaches have shown an interaction between ISCA1a or ISCA1b and ISCA2, NFU4 and NFU5 but no interaction with the two mFDX whose participation in the late steps remains uncertain. The formation of ISCA1-ISCA2 holo-heterocomplexes has been confirmed by co-expression in E. coli and purification of recombinant proteins. Overall, the literature and results obtained here highlight a model where ISCA1/2 heterocomplexes would act immediately downstream of NFU proteins which would a minima allow [4Fe-4S] cluster maturation of the lipoate synthase. This sole partner could primarily explain the lethality of a nfu4 x nfu5 double mutant because the activity of several proteins central for the mitochondrial metabolism depends on lipoic acid Centres Fe-S Mitochondrie Machinerie ISC Transfert NFU ISCA FDX Arabidopsis Fe-S clusters Mitochondrion ISC machinery Transfer NFU ISCA FDX Arabidopsi 572.62

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