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Implications of N-capping motifs for folding and design of human glutathione transferase A1-1Little, Tessa 16 November 2006 (has links)
Student Number : 9306227A -
PhD thesis -
School of Molecular and Cell Biology -
Faculty of Science / It is well documented that N-capping motifs are stabilising local motifs for
-helices. N-capping motifs have been identified within hGST A1-1 at the
N-terminal ends of -helix 9 and helix 6. The conservational role of these
two motifs in protein stability, folding and function was investigated. -Helix
9 is a unique structural feature to class Alpha GSTs that is important for its
catalytic functioning. This amphipathic helix is highly dynamic, where upon
ligand binding at the active-site, the delocalised C-terminal region becomes
immobilised to form a structured helix forming a “lid” over the active-site.
The specific role of the Asp N-cap motif toward the stability and dynamics of
helix 9 was determined by substituting the Asp-209 for a Gly. ANS binding
and urea-induced activity studies showed that by removing the N-cap motif
of helix 9 in hGST A1-1, the helix 9 is destabilised rendering a less hydrophobic
binding site compared to that in the wild-type. The helical content
of the peptide, corresponding to helix 9 in the C-terminal region of hGST
A1-1 (208 -222), decreased significantly upon the removal of the N-cap motif.
The explanation for the conservation of the Asp N-cap residue can be found
in its stabilising role of the C-terminal region of class Alpha GSTs. This stabilising
role was however less apparent in context of the protein compared to
that in the peptide. Majority of the atomic contacts owing to the stability
of helix 9 appear to be governed by non-local tertiary interactions rather
than local interactions, such as the N-cap motif. These tertiary interactions
are likely to include short and long range contacts between residues on the
surface of the protein that are already known to contribute towards the stability
of the C-terminal region. In this study, the ligand displacement-studies
and the molecular docking results strongly suggest that 8-aniline-1-napthalene sulfonate binds at the H-site in hGST A1-1.
The N-capping motif of helix 6 identified in class Alpha GSTs is located
within the core of domain 2. This motif is a common feature found amongst
almost all GST-like proteins and is thought to be the folding nucleation site
(Stenberg et al. J. Biol. Chem. 275 (2000), 10421-10428). The N-cap (Ser-
154) and N3 (Asp-157) residues were each substituted with an Ala in hGST
A1-1 to investigate the role of this motif in the folding of hGST A1-1. Both
substitutions resulted in thermal sensitive mutants compared to that of the
wild-type. The N3 substitution (D157A) was however too disruptive, where
the yields of this mutant were insufficient for any further studies to be carried
out. For the N-cap mutant (S154A), the unfolding kinetic studies revealed a
significantly destabilised core in domain 2 compared to that of the wild-type.
The kinetic folding studies monitored by fluorescence spectroscopy, revealed
that the N-cap motif contributes to the efficient folding and dimerisation of
the subunits, and to a far lesser extent towards the final tight packing and
reorganisation of tertiary interactions in hGST A1-1. Since no changes in the
burst-phase of S154A was evident compared to that of the wild-type, it seems
unlikely that this motif is a folding nucleation site in hGST A1-1. These results
do not exclude the possibility that this motif contributes to the rapid formation
secondary structure during the burst-phase of folding. Due to the highly
conserved region surrounding helix 6 , the role of this motif contributing
to the stability of hGST A1-1 could be a general feature for GSTs and GSTlike
proteins. In this study, further insight into the mechanism of folding for
hGST A1-1 was gained. The hydrophobic core packing surrounding helix 6
occurred as a late folding event, that is during the final packing and reorganisation
of tertiary interactions of the protein. The N-cap motif is an important
structural feature for the fast folding of domain 2. This N-cap motif is a unique
structural feature important for the efficient folding of the monomers, which
is exclusive to its role in stabilising helix 6 in hGST A1-1.
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Twist1 and Tcf12 interaction is critical for the development of the coronal suture in human and mouse / L'interaction de Twist1 et Tcf12 est critique pour le développement de la suture coronale chez l'humain et la sourisBrockop, Mia 25 September 2013 (has links)
Une craniosynostose est une pathologie caractérisée par la fusion prématurée d'une ou plusieurs sutures crâniennes. C'est un défaut de naissance assez fréquent (1/2500 naissances) qui résulte en une forme anormale du crâne et qui peut être accompagné d'une déficience mentale dans certains cas. Des mutations du gène TWIST1, qui encode un facteur de transcription basique Helix-Loop-Helix (bHLH) de classe II, causent le syndrome de Saethre-Chotzen qui est associé à une synostose de la suture coronale (El Ghouzzi et al. 1997; Howard et al. 1997). Un nouveau gène a récemment été découvert comme étant une nouvelle cause du syndrome Saethre-Chotzen ainsi que de synostose coronale asyndromique (Sharma, Fenwick, Brockop, et al., 2013): il s'agit du gène TCF12, qui encode un facteur de transcription bHLH de classe I.Nous démontrons qu'une reduction de l'expression génique de Twist1 et Tcf12 chez la souris cause une synostose coronale, et nous suggérons que les protéines bHLH Twist1 et Tcf12 forment des hétérodimères dont le dosage est critique pour le développement de la suture coronale.Nous nous concentrons aussi sur Twist1 et prouvons que son expression est requise dans les tissus dérivant du mésoderme ainsi que ceux dérivant des crêtes neurales pour le développement normal de la suture coronale.De plus, nous notons que dans la suture coronale, Twist1 exclut Notch2 afin de garder la suture ouverte, et beta-catenin joue un rôle dans la maintenance de l'ouverture de la suture en ciblant Jagged1 lors du développement de la suture coronale chez la souris.Enfin, nous mentionnons de nouveaux gènes qui pourraient avoir un impact sur le développement normal de la suture coronale: Aggrecan, Goosecoid, Gucy1a3 et Gucy1b3. / Craniosynostosis, the premature fusion of one or more cranial sutures, is a common birth defect (1/2500 live births) that results in abnormalities in skull shape and sometimes in neurological deficiencies (Wilkie, 1997; Wilkie and Morriss-Kay, 2001). Mutations in TWIST1, which encodes a class II basic helix-loop-helix (bHLH) transcription factor, cause Saethre-Chotzen syndrome, associated with coronal synostosis (El Ghouzzi et al. 1997; Howard et al. 1997). We recently discovered a new craniosynostosis gene, TCF12, which encodes a class I bHLH transcription factor. Tcf12 causes.Saethre-Chotzen syndrome and asyndromic coronal synostosis. (Sharma, Fenwick, Brockop, et al., 2013). We show that a reduction in the dosage of Twist1 and Tcf12 in mouse causes coronal synostosis, and we suggest that the Twist1 and Tcf12 form heterodimers whose dosage is critical for coronal suture development. We also demonstrate that Twist1 is required in both neural-crest and mesoderm-derived tissues for the normal coronal suture development. Moreover, we show that in the coronal suture, Twist1 excludes Notch2 thus maintaining suture patency. and we show that beta-catenin also plays a role in the maintenance of suture patency by regulating Jagged1. Finally, we identified Aggrecan, Goosecoid, Gucy1a3 and Gucy1b3 as Twist1-regulated genes that could have an impact on the normal development of the coronal suture.
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Translocation of proteins into and across the bacterial and mitochondrial inner membranesCalado Botelho, Salomé January 2012 (has links)
Translocons are dynamic protein complexes with the ability to respond to specific signals and to transport polypeptides between two distinct environments. The Sec-type translocons are examples of such machineries that can interconvert between a pore forming conformation that translocates proteins across the membrane, and a channel-like conformation that integrates proteins into the membrane by lateral opening. This thesis aims to identify the signals encoded in the amino acid sequence of the translocating polypeptides that trigger the translocon to release defined segments into the membrane. The selected systems are the SecYEG translocon and the TIM23 complex responsible for inserting proteins into the bacterial and the mitochondrial inner membrane, respectively. These two translocons have been challenged in vivo with designed polypeptide segments and their insertion efficiency into the membrane was measured. This allowed identification of the sequence requirements that govern SecYEG- and TIM23-mediated membrane integration. For these two systems, “biological” hydrophobicity scales have been determined, giving the contributions of each of the 20 amino acids to the overall free energy of insertion of a transmembrane segment into the membrane. A closer analysis of the mitochondrial system has made it possible to additionally investigate the process of membrane dislocation mediated by the m-AAA protease. The threshold hydrophobicity required for a transmembrane segment to remain in the mitochondrial inner membrane after TIM23-mediated integration depends on whether the segment will be further acted upon by the m-AAA protease. Finally, an experimental approach is presented to distinguish between different protein sorting pathways at the level of the TIM23 complex, i.e., conservative sorting vs. stop-transfer pathways. The results suggest a connection between the metabolic state of the cell and the import of proteins into the mitochondria. / <p>At the time of doctoral defence the following papers were unpublished and had a status as follows: Paper nr. 1: Manuscript; Paper nr. 4: Manuscript</p>
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Samarbete utan gemensamma mål : Att styra och stimulera innovationGörling, Stefan January 2010 (has links)
In Sweden, three of the four largest institutional research funders have the explicit goal to not only support research but also to stimulate economic growth. How this should be done in practice, however, is more uncertain. Often used theories, e.g. triple helix, national innovation systems and clusters, are all based on the notion that different skills and organizations should be combined in dynamic partnerships in order to shorten the time from research to application. In this dissertation, I present how an R&D program with the requirement to both produce valuable research results and to stimulate innovation was put into practice. The program is explored from multiple levels of analysis. Based on the case, it is showed how innovation policy acts as an organizing force on its environment and that it affects the organization of R&D activities. This dissertation identifies problems that arise and investigates how the process can be improved in order to meet the objectives of stimulating innovation and growth. By applying the ideas of Serres and Luhmann, using the term innovation in these instances can be regarded as a form of parasite, which affects the system as such. I argue that this can be a fruitful way of conceptualizing how we can strive to manage closed systems that are otherwise challenging to govern. We can develop the debate on how to stimulate innovation by shifting the perspective from a sequential top-down process in which policy is being implemented to have a planned effect (and where any deviation constitutes an unsuccessful implementation), to discuss how we can disrupt a system in a particular direction. Based on the empirical data, I explore and analyze a number of identified events that will be rewarding for professionals working with similar efforts or are planning further research in this area. Among other things, it is demonstrated how a process perspective can be a rewarding way to study not only structural aspects but also seize the dynamics of the system. I demonstrate that this perspective better allows us to understand which aspects are important for stimulating innovation. The dissertation further discusses the concept of dual technologies, intellectual property, applied research and the conflict between different levels of innovation. / I Sverige har idag tre av de fyra största forskningsfinansiärerna en uttalad målsättning att inte bara stödja forskning utan även att främja tillväxt. Hur detta ska gå till i praktiken är dock mer otydligt. De teorier som ofta tillämpas för att uppnå detta, t.ex. trippelhelix, nationella innovationssystem, kluster och andra organisationsmodeller för att stimulera innovation bygger på tanken att olika kompetenser och organisationer ska kombineras i dynamiska samarbeten för att korta ned tiden från forskning till tillämpning. I denna avhandling visar jag hur ett forsknings- och utvecklingsprogram med bikrav att stimulera innovation genomförs i praktiken, och jag beskriver detta utifrån flera analysnivåer. Jag visar att innovationspolicy här utgör en organiserande kraft som verkar på sin omgivning och påverkar både tradition och organisering av forsknings- och utvecklingsverksamhet. Studien beskriver vilka problem som kan uppstå och diskuterar hur denna process kan förbättras så att målen att stimulera innovation bättre kan uppnås. Användningen av innovationsbegreppet kan utifrån Serres och Luhmanns tankar i detta fall betraktas som en form av parasit, som biter sig fast i systemet och påverkar dess funktionssätt. Jag hävdar att detta kan vara ett givande tankesätt kring hur vi kan försöka påverka svårstyrda slutna system. Genom att flytta perspektivet från en sekventiell top-down process där en viss policy genom att implementeras ger en från början planerad effekt (och där eventuella avvikelser innebär en felaktig implementering), till att studera hur vi kan störa ett system i en viss riktning, kan vi bättre förstå hur innovation kan stimuleras. Utifrån det studerade fallet beskrivs en rad identifierade fenomen som kan vara till nytta för den som arbetar med liknande satsningar eller planerar ytterligare forskning inom detta område. Bland annat visar avhandlingen hur ett processperspektiv kan vara ett givande sätt att studera inte bara strukturella aspekter utan också systemens dynamik. Dessutom diskuteras begrepp som duala teknologier, immateriella rättigheter, behovsmotiverad forskning och konflikten mellan innovationsteorins olika analysnivåer / QC 20101110
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Controlling the structure of peptide using ferrocene as a molecular scaffoldChowdhury, Somenath 14 June 2007
The de novo design of peptides is a central area of research in chemical biology. Although it is now possible to design helical peptide structures from first principle, designing â-sheets remains a challenge. Significant advances in this area have been made by using molecular scaffolds, which stabilize â-sheets through intramolecular H-bonding involving the scaffold or which direct supramolecular assembly of the conjugate. In my thesis, I have made use of novel strategies, using ferrocene (Fc) as a central scaffold for controlling the secondary structure of peptides. This approach has been highly successful. Four major new strategies are introduced and described in this thesis: <p>a) Cyclization of Fc-peptide conjugates of the type Fc[CO-Xxx-CSA]2 (Xxx = Gly, Ala, Val, Leu) and Fc[CO-Gly-Xxx-CSA]2 (Xxx = Val, Ile; CSA = cysteamine) leads to the clean formation of novel cyclic bioorganometallic conjugates, which exhibit strong intramolecular hydrogen bonding interactions that restrict the mobility of the podand peptide chains. In the latter system, this intermolecular hydrogen bonding interaction was exploited for the design of a novel â-barrel-like structure. For Fc[CO-Gly-Val-CSA]2 and Fc[CO-Gly-Ile-CSA]2 discrete cyclic supramolecular assemblies were formed in which the individual molecules assemble along the rims of the molecules, resulting in the formation of tubular peptide superstructures that possess a central cavity and are filled with water molecules. <p>b) Prior to my work, work by Hirao and Metzler-Nolte clearly showed that the two podand peptide chains in Fc-peptide conjugates are pointing away from each other. This would indicate that extended â-sheets cannot be formed by simply extending the podand peptide chains. In my work, I clearly demonstrate that, in contrast to earlier results, it is possible to use the Fc scaffold to stabilize â-sheet-like interactions in longer peptide chains. Two systems are described in this thesis Fc[CO-Gly-Val-Cys(Bz)-OMe]2 and Fc[CO-Gly-Ile-Cys(Bz)-OMe]2. In both the cases, amino acids are employed that have a high propensity for â-sheet formation. Both Fc-peptide conjugates exhibit strong interstrand hydrogen bonding, resembling that found in â-sheets.<p>c) In this work, I have demonstrated the use of ferrocene amino acid (Fca) to control the structure in peptides. In contrast to previous work by Metzler-Nolte, my work is largely focusing on the design of a repetitive Fca-peptide motif. It is proposed that this repetition will enable strong interactions between the peptide portions of the conjugate, resulting in the formation of an extended structure. To this effect, a series of Fca-conjugates of the type Boc-[Fca-Ala]n-OMe (n = 1-4) was synthesized and fully characterized. All systems display the expected interaction between the Ala residues having a 12-membered hydrogen bonded ring. Such a structural motif resembles that found in naturally occurring â-helical structures of the spike-region of some viral proteins. <p>d) I have also demonstrated the use of a novel Fc-derivative, Fc[NH-Boc]2, to control the structure of podand amino acid chains. Fc-diamine was synthesized by the convenient carbazide route giving this useful scaffold in high yield. This material was converted into its peptide conjugate and the resulting conjugate displays the elusive 14-membered hydrogen bonding ring. <p>Thus, in my work, I have provided a new complementary tool for peptide design that will undoubtedly find applications for the design of de novo proteins in the near future.
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Controlling the structure of peptide using ferrocene as a molecular scaffoldChowdhury, Somenath 14 June 2007 (has links)
The de novo design of peptides is a central area of research in chemical biology. Although it is now possible to design helical peptide structures from first principle, designing â-sheets remains a challenge. Significant advances in this area have been made by using molecular scaffolds, which stabilize â-sheets through intramolecular H-bonding involving the scaffold or which direct supramolecular assembly of the conjugate. In my thesis, I have made use of novel strategies, using ferrocene (Fc) as a central scaffold for controlling the secondary structure of peptides. This approach has been highly successful. Four major new strategies are introduced and described in this thesis: <p>a) Cyclization of Fc-peptide conjugates of the type Fc[CO-Xxx-CSA]2 (Xxx = Gly, Ala, Val, Leu) and Fc[CO-Gly-Xxx-CSA]2 (Xxx = Val, Ile; CSA = cysteamine) leads to the clean formation of novel cyclic bioorganometallic conjugates, which exhibit strong intramolecular hydrogen bonding interactions that restrict the mobility of the podand peptide chains. In the latter system, this intermolecular hydrogen bonding interaction was exploited for the design of a novel â-barrel-like structure. For Fc[CO-Gly-Val-CSA]2 and Fc[CO-Gly-Ile-CSA]2 discrete cyclic supramolecular assemblies were formed in which the individual molecules assemble along the rims of the molecules, resulting in the formation of tubular peptide superstructures that possess a central cavity and are filled with water molecules. <p>b) Prior to my work, work by Hirao and Metzler-Nolte clearly showed that the two podand peptide chains in Fc-peptide conjugates are pointing away from each other. This would indicate that extended â-sheets cannot be formed by simply extending the podand peptide chains. In my work, I clearly demonstrate that, in contrast to earlier results, it is possible to use the Fc scaffold to stabilize â-sheet-like interactions in longer peptide chains. Two systems are described in this thesis Fc[CO-Gly-Val-Cys(Bz)-OMe]2 and Fc[CO-Gly-Ile-Cys(Bz)-OMe]2. In both the cases, amino acids are employed that have a high propensity for â-sheet formation. Both Fc-peptide conjugates exhibit strong interstrand hydrogen bonding, resembling that found in â-sheets.<p>c) In this work, I have demonstrated the use of ferrocene amino acid (Fca) to control the structure in peptides. In contrast to previous work by Metzler-Nolte, my work is largely focusing on the design of a repetitive Fca-peptide motif. It is proposed that this repetition will enable strong interactions between the peptide portions of the conjugate, resulting in the formation of an extended structure. To this effect, a series of Fca-conjugates of the type Boc-[Fca-Ala]n-OMe (n = 1-4) was synthesized and fully characterized. All systems display the expected interaction between the Ala residues having a 12-membered hydrogen bonded ring. Such a structural motif resembles that found in naturally occurring â-helical structures of the spike-region of some viral proteins. <p>d) I have also demonstrated the use of a novel Fc-derivative, Fc[NH-Boc]2, to control the structure of podand amino acid chains. Fc-diamine was synthesized by the convenient carbazide route giving this useful scaffold in high yield. This material was converted into its peptide conjugate and the resulting conjugate displays the elusive 14-membered hydrogen bonding ring. <p>Thus, in my work, I have provided a new complementary tool for peptide design that will undoubtedly find applications for the design of de novo proteins in the near future.
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Nanomechanics of Nucleic Acid Structures Investigated with AFM Based Force SpectroscopyRabbi, Mahir Haroon January 2010 (has links)
<p>Nucleic acids are subjected to many different mechanical loadings inside. These loadings could cause large deformations and conformational changes to these molecules. This is why the mechanical properties of nucleic acids are so important to their functions. Here we use a newly designed and built high-performance AFM force spectrometer, supplemented with molecular dynamics simulations and NMR spectroscopy to investigate the relationship between mechanical properties and structure of different nucleic acids.</p><p>To test the mechanical properties of nucleic acids, we successfully designed and purpose-built a single molecule puller, an instrument to physically stretch single molecules, at a fraction of the cost of a commercial AFM instrument. This instrument has similar force noise to hybrid instruments, while also exhibiting significantly lower drift, on the order of five times lower. This instrument allows the measurement of subtle transitions as a molecule is stretched. With the addition of a lock-in amplifier, we possibly could obtain better force resolution, the order of femtonewtons. </p><p>We find that helical structure does indeed have an effect on the mechanical properties of double-stranded DNA. As the A-form double helix has a shorter, wider structure compared to the B-form helix, its force spectra exhibit a shorter initial length before the overstretching force plateau, compared to B-form DNA. Contrarily, the Z-form double helix has a narrower, more extended helical structure than B-form DNA, and we see this fact manifest in the force spectra of Z-DNA, which has a longer initial length before the overstretching force plateau. Also, interestingly, we find that neither A, nor Z-DNA force spectra display the second melting force plateau. Indicating this plateau is not necessarily cause by melting of strands apart, but rather a feature of B-DNA. </p><p>To better understand the forces that stabilized these different structures, specifically base stacking, we also mechanically characterize different single-stranded helical polynucleotides using AFM based force spectroscopy. We expand on previous studies by confirming that single helical polynucleotides undergo a force transition at a force of ~20 pN as they are uncoiled, and also demonstrating, that when stretched beyond this force transition, the molecules behave differently depending on base sequence and backbone sugar. Specifically, the force spectra of poly-adenylic acid possess a linear force region, which persists to ~300 pN, after the force plateau. We also observe that poly-deoxyadenylic acid is comparatively stiffer than other polynucleotides after undergoing two force transitions. By supplementing our force spectroscopic data with MD simulations and NMR spectroscopy, we find that base stacking in adenine is quite strong, persisting above 100 pN. We find that initial helical structure, which is defined by base stacking and backbone sugar, guides the stretching pathway of the polynucleotides. This finding can possibly be extrapolated to the elasticity of double-stranded DNA.</p> / Dissertation
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Stöttning av miljöteknikföretag : Erfarenheter från fyra svenska miljöteknikcentrumRehnmark, Henric, Nyström, Josefin January 2008 (has links)
<p>På senare år har begreppet miljöteknik blivit alltmer omdiskuterat. För att arbetet kring miljöteknik ska kunna förankras i samhället bör de svenska företagens konkurrenskraft öka både på nationell och internationella marknader. Regionala miljöteknikcentrum har därför skapats i Sverige på senare år för att komma närmare företagen samt att kunna få lokala synergieffekter mellan företagen. I och med detta blir miljöteknik alltmer vanligt i Sverige, trots detta har relativt få studier gjorts kring begreppet och fenomenet miljöteknikcentrum.</p><p>Syftet med denna studie är att kartlägga fenomenet miljöteknikcentrum i Sverige genom att studera fyra stycken aktiva centrum. Syftet med kartläggningen är att belysa för- och nackdelar med de utvalda centrumen samt belysa deras drivkrafter. Denna kartläggning ska därefter kunna fungera som ett bra underlag vid nystartandet av ytterligare centrum samt ge lärdomar till verksamma centrum. Metod för att genomföra denna kartläggning skedde i form utav en kvalitativ intervjustudie där representanter från fyra olika centrum gav sin syn av respektive verksamhet. Resultatet från intervjustudien har sedan analyserats i en SWOT - analys.</p><p>Slutsatserna för studien visar på att centrumens verksamheter skiljer sig åt vad anbeträffar relationen till medlemsföretagen, syfte och aktiviteter. När det gäller hur centrumen valt att organisera sina verksamheter så skiljer sig även detta åt. I vår kartläggning har vi identifierat centrum i bolagsform, projekt eller som ideell förening. Centrumens framgångsfaktorer är individuellt utformade och utvärderingsformerna varierar.</p>
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Les enzymes de biotransformation des xénobiotiques chez Helix aspersa (escargot) et Pleurozium schreberi (mousse) biomarqueurs potentiels de la pollution atmosphérique par des hydrocarbures aromatiques polycycliques /Ismert, Muriel. Bagrel, Denyse. January 2000 (has links) (PDF)
Thèse doctorat : Ecotoxicologie : Metz : 2000. / Thèse soutenue sur ensemble de travaux. Bibliogr. Index.
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Stöttning av miljöteknikföretag : Erfarenheter från fyra svenska miljöteknikcentrumRehnmark, Henric, Nyström, Josefin January 2008 (has links)
På senare år har begreppet miljöteknik blivit alltmer omdiskuterat. För att arbetet kring miljöteknik ska kunna förankras i samhället bör de svenska företagens konkurrenskraft öka både på nationell och internationella marknader. Regionala miljöteknikcentrum har därför skapats i Sverige på senare år för att komma närmare företagen samt att kunna få lokala synergieffekter mellan företagen. I och med detta blir miljöteknik alltmer vanligt i Sverige, trots detta har relativt få studier gjorts kring begreppet och fenomenet miljöteknikcentrum. Syftet med denna studie är att kartlägga fenomenet miljöteknikcentrum i Sverige genom att studera fyra stycken aktiva centrum. Syftet med kartläggningen är att belysa för- och nackdelar med de utvalda centrumen samt belysa deras drivkrafter. Denna kartläggning ska därefter kunna fungera som ett bra underlag vid nystartandet av ytterligare centrum samt ge lärdomar till verksamma centrum. Metod för att genomföra denna kartläggning skedde i form utav en kvalitativ intervjustudie där representanter från fyra olika centrum gav sin syn av respektive verksamhet. Resultatet från intervjustudien har sedan analyserats i en SWOT - analys. Slutsatserna för studien visar på att centrumens verksamheter skiljer sig åt vad anbeträffar relationen till medlemsföretagen, syfte och aktiviteter. När det gäller hur centrumen valt att organisera sina verksamheter så skiljer sig även detta åt. I vår kartläggning har vi identifierat centrum i bolagsform, projekt eller som ideell förening. Centrumens framgångsfaktorer är individuellt utformade och utvärderingsformerna varierar.
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