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È caso da intermedio! Comic Theory, Comic Style and the Early IntermezzoJohnston, Keith 10 January 2012 (has links)
This dissertation is a study of the comic intermezzo’s literary origins and musical practice in the years before Pergolesi’s La serva padrona (1733). It begins with a chronological examination of Italian comic plays and operas written between 1660 and 1723. During these years comic playwrights adopted a style of writing speech from the improvised theatre which makes use of what Richard Andrews (1993) refers to as “elastic gags.” This style of comedy flourished under Medici patronage in Florence in the last decades of the seventeenth century and then spread to Venice, Rome and Naples during the first years of the intermezzo’s development. It is a style of comedy shared with the plays of Molière, and other contemporaneous French authors. This dissertation examines several scenes based on French works which have previously not been identified as having earlier sources.
The decision to adapt these earlier sources for the intermezzo did not occur in a vacuum. The practice of comedy in the intermezzo was conditioned by the artistic, social and political climate of Italy. This study investigates the relationship between intermezzos and the milieus which produced them. The success of some intermezzos, like Il marito giocatore (1719), resulted from a combination of their artistic merit and their broad social appeal, while others, like Albino e Plautilla (1723), were musically adept but remained obscure because their humour was specific to the world they satirized. Both intermezzos are indebted to earlier French sources. Many others which are metatheatrical in nature draw on contemporary debates about opera.
A final section examines selected arias from the intermezzo repertory using incongruity theory. Comic theory makes clear that the intermezzo’s musical language was not a new development. Just as librettists drew on earlier written traditions to form the literary text of the intermezzo, composers drew on existing musical practices to create humour. The intermezzo was therefore not naively comic—a portrait of the genre which is all too common—but rather a repertory which was thoroughly enmeshed within contemporary artistic practice and a wider social and cultural world.
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È caso da intermedio! Comic Theory, Comic Style and the Early IntermezzoJohnston, Keith 10 January 2012 (has links)
This dissertation is a study of the comic intermezzo’s literary origins and musical practice in the years before Pergolesi’s La serva padrona (1733). It begins with a chronological examination of Italian comic plays and operas written between 1660 and 1723. During these years comic playwrights adopted a style of writing speech from the improvised theatre which makes use of what Richard Andrews (1993) refers to as “elastic gags.” This style of comedy flourished under Medici patronage in Florence in the last decades of the seventeenth century and then spread to Venice, Rome and Naples during the first years of the intermezzo’s development. It is a style of comedy shared with the plays of Molière, and other contemporaneous French authors. This dissertation examines several scenes based on French works which have previously not been identified as having earlier sources.
The decision to adapt these earlier sources for the intermezzo did not occur in a vacuum. The practice of comedy in the intermezzo was conditioned by the artistic, social and political climate of Italy. This study investigates the relationship between intermezzos and the milieus which produced them. The success of some intermezzos, like Il marito giocatore (1719), resulted from a combination of their artistic merit and their broad social appeal, while others, like Albino e Plautilla (1723), were musically adept but remained obscure because their humour was specific to the world they satirized. Both intermezzos are indebted to earlier French sources. Many others which are metatheatrical in nature draw on contemporary debates about opera.
A final section examines selected arias from the intermezzo repertory using incongruity theory. Comic theory makes clear that the intermezzo’s musical language was not a new development. Just as librettists drew on earlier written traditions to form the literary text of the intermezzo, composers drew on existing musical practices to create humour. The intermezzo was therefore not naively comic—a portrait of the genre which is all too common—but rather a repertory which was thoroughly enmeshed within contemporary artistic practice and a wider social and cultural world.
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El gag visual y la imagen en movimiento. Del cine mudo a la pantalla jugable.Garin Boronat, Manuel 29 May 2012 (has links)
Esta tesis estudia el gag visual en tanto que imagen en movimiento, analizando sus
formas, modelos y funciones esenciales. Se parte de una serie de ejemplos clave del
cine mudo y el slapstick para rastrear su evolución a lo largo de la historia del cine y
sus prolongaciones en medios audiovisuales como la televisión y el videojuego. El
estudio se centra en las tres grandes dimensiones de construcción formal del gag,
tiempo, espacio y movimiento; ligando esos tres registros formales a tres funciones
límite: narración, juego y sentido. La investigación confirma el papel del gag como
una de las formas de resistencia visual más poderosas de la cultura contemporánea,
que cuestiona valores narrativos y simbólicos a través de la posibilidad cómica. / This thesis studies the visual gag as moving image, analyzing its essential patterns,
forms and functions. A series of key silent film and slapstick examples are located in
order to examine their evolution throughout film history and their extensions in
other media like television and video games. The research focuses on three main
dimensions of the gag’s formal construction, time, space and movement; three
formal scopes that lead to three functional limits: narration, gameplay and sense.
The thesis confirms the essential role of the gag as one of the most powerful forms
of visual resistance in contemporary culture, that questions narrative and symbolic
values through comic possibilities.
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Mécanismes moléculaires gouvernant la sélection et l'encapsidation de l'ARN génomique du VIH-1 : l’encapsidation sélective de l’ARN génomique du VIH-1 / Molecular mechanisms governing the selective encapsidation of HIV-1 genomic RNAWassim, Ekram 26 January 2012 (has links)
La sélection de l’ARNg des rétrovirus repose sur des interactions entre le domaine nucléocapside (NC) du précurseur Gag et des régions de l’ARN viral appelées ψ (ou Psi) localisées dans la région 5’ non traduite (5’-UTR) de l’ARNg et/ou dans le début du gène gag.Malgré des nombreuses études, les mécanismes moléculaires gouvernant l’incorporation de l’ARNg dans les particules virales en cours d’assemblage sont encore mal compris. La protéine Gag est notoirement sensible à la protéolyse et la plupart des études ont été menées avec une Gag dépourvue du domaine p6 (GagΔp6) qui ne reflètepas correctement les propriétés de fixation de la protéine Gag entière à l’ARNg. Les travaux réalisés aux cours de cette thèse nous ont permis de montrer que Pr55Gag et ses produits de maturation NCp15 et NCp7 sont capables de distinguer l’ARNg du VIH-1 des ARN viraux épissés. La stabilisation des formes dimériques ou la perturbation des interactions à longue distance n’ont aucune influence sur la reconnaissance spécifique de Gag pour l’ARNg. Par des expériences de mutagénèse dirigée et de compétition, nous avons montré non seulement que la dimérisation de l’ARNg et le motif SL1 (surtout sa boucle interne) joue un rôle crucial pour la fixation de Gag mais aussi que l’intégrité de la région Psi est indispensable pour une fixation optimale. Ces résultats nous ont amené à déterminer plus précisément l’empreinte de Gag sur l’ARNg et les résidus requis pour la fixation de Gag qui on confirmé le rôle crucial de SL1 comme le siganl major pour la reconnaissance spécifique de l’ARNg par le pr55Gag. / Packaging of HIV-1 genomic RNA (gRNA) is a highly regulated and selective process that leads to prefrential selection and packaging of dimeric gRNA from a cellular medium containing a large excess of cellular and spliced viral mRNAs. This event underlies interaction between the nucleocapsid domain in the context of the uncleaved Gag precursor and a Packaging signal located in the 5’ untranslated region (5’ UTR) of the gRNA and/or the beginning of gag gene. Despite a considerable effort, the molecular mechanisms beyond the selective encapsidation of HIV-1 gRNA is still unknown. To address this, we first characterized the relative affinities of Pr55gag to various HIV-1 RNA fragments (spliced and unspliced) by biochemical and spectroscopic approaches which all revealed that Pr55gag exhibits a higher binding affinity for viral gRNA than for viral spliced species. Interestingly, we noticed that Pr55Gag, through its nucleic acid chaperone activity, was able to stabilize the dimeric form of almost all viral RNA species (spliced and unspliced) suggesting that RNA dimermaturation does not allow the gRNA discrimination. Further characterization of specific Gag binding sites to short RNA fragments corresponding to the minimal packaging signal by competition experiments, inhibition of Gag/RNA interaction by antisense oligo-deoxynucleotides, as well as the detection of Pr55Gag RNA binding sites on gRNA by enzymatic and chemical footprinting confirmed the crucial role of SL1 (or DIS) as a specific binding site for Pr55Gag. Taken together, our results strongly suggest that SL1 and/or RNA dimerization is a specific recognition signal for Pr55Gag to specifically select and probably induce HIV-1 gRNA packaging.
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Improvement of the Digestibility of Sulfated Hyaluronans by Bovine Testicular Hyaluronidase: a UV Spectroscopic and Mass Spectrometric StudyLemnitzer, Katharina, Schiller, Jürgen, Becher, Jana, Möller, Stephanie, Schnabelrauch, Matthias January 2014 (has links)
Glycosaminoglycans (GAGs) such as hyaluronan (HA) and chondroitin sulfate (CS) are important, natural polysaccharides which occur in biological (connective) tissues and have various biotechnological and medical applications. Additionally, there is increasing evidence that chemically (over)sulfated GAGs possess promising properties and are useful as implant coatings. Unfortunately, a detailed characterization of these GAGs is challenging: although mass spectrometry (MS) is one of the most powerful tools to elucidate the structures of (poly)saccharides, MS is not applicable to high mass polysaccharides, but characteristic oligosaccharides are needed. These oligosaccharides are normally generated by enzymatic digestion. However, chemically modified (particularly sulfated) GAGs are extremely refractive to enzymatic digestion. This study focuses on the investigation of the digestibility of GAGs with different degrees of sulfation by bovine testicular hyaluronidase (BTH). It will be shown by using an adapted spectrophotometric assay that all investigated GAGs can be basically digested if the reaction conditions are carefully adjusted. However, the oligosaccharide yield correlates reciprocally with the number of sulfate residues per polymer repeating unit. Finally, matrix-laser desorption and ionization (MALDI) MS will be used to study the released oligosaccharides and their sulfation patterns.
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Investigation of the C-Terminal Helix of HIV-1 Matrix: A Region Essential for Multiple Functions in the Viral Life Cycle: A DissertationBrandano, Laura A 10 July 2011 (has links)
Since the first cases were reported over thirty years ago, great strides have been made to control disease progression in people living with HIV/AIDS. However, current estimates report that there are about 34 million individuals infected with HIV worldwide. Critical in the ongoing fight against this pandemic is the continuing development of highly active anti-retroviral therapies, ideally those with novel mechanisms of action. Currently, there are no medications approved for use that exploit the HIV-1 MA protein, despite its central role in multiple stages of the virus life cycle.
This thesis sought to examine whether a highly conserved glutamate residue at position 99 in the understudied C-terminal helix of MA is required for HIV-1 replication. I characterized a panel of mutant viruses that contain different amino acid substitutions at this position using viral infectivity studies, virus-cell fusion assays, and immunoblotting. In doing so, I found that substitution of this glutamate with either a valine (E99V) or lysine (E99K) residue disrupted Env incorporation into nascent HIV particles, and abrogated their ability to fuse with target-cell membranes. In determining that the strain of HIV could affect the magnitude of E99V-associated defects, I identified a compensatory substitution at MA residue 84 that rescued both E99V- and E99K-associated impairments.
I further characterized the MA E99V and E99K mutations by truncating HIV Env and pseudotyping with heterologous envelope proteins in an attempt to overcome the Env incorporation defect. Unexpectedly, I found that facilitating fusion at the plasma membrane was not sufficient to reverse the severe impairments in virus infectivity. Using quantitative PCR, I determined that an early post-entry step is disrupted in these particles that contain the E99V or E99K MA substitutions. However, allowing entry of mutant virus particles into cells through an endosomal route conferred a partial rescue in infectivity. As the characterization of this post-entry defect was limited by established virological methods, I designed a novel technique to analyze post-fusion events in retroviral infection. Thus, I present preliminary data regarding the development of a novel PCR-based assay that monitors trafficking of the viral reverse transcription complex (RTC) in an infected cell.
The data presented in this thesis indicate that a single residue in MA, E99, has a previously unsuspected and key role in multiple facets of HIV-1 MA function. The pleiotropic defects that arise from specific substitutions of this amino acid implicate a hydrophobic pocket in MA in Env incorporation and an early post-entry function of the protein. These findings suggest that this understudied region of MA could be an important target in the development of a novel antiretroviral therapy.
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Co-evolution of HIV-1 Protease and its Substrates: A DissertationKolli, Madhavi 13 November 2009 (has links)
Drug resistance is the most important factor that influences the successful treatment of individuals infected with the human immunodeficiency virus type 1 (HIV-1), the causative organism of the acquired immunodeficiency syndrome (AIDS). Tremendous advances in our understanding of HIV and AIDS have led to the development of Highly Active Antiretroviral Therapy (HAART), a combination of drugs that includes HIV-1 reverse transcriptase, protease, and more recently, integrase and entry inhibitors, to combat the virus. Though HAART has been successful in reducing AIDS-related morbidity and mortality, HIV rapidly evolves resistance leading to therapy failure. Thus, a better understanding of the mechanisms of resistance will lead to improved drugs and treatment regimens.
Protease inhibitors (PIs) play an important role in anti-retroviral therapy. The development of resistance mutations within the active site of the protease greatly reduces its affinity for the protease inhibitors. Frequently, these mutations reduce catalytic efficiency of the protease leading to an overall reduction in viral fitness. In order to overcome this loss in fitness the virus evolves compensatory mutations within the protease cleavage sites that allow the protease to continue to recognize and cleave its substrates while lowering affinity for the PIs. Improved knowledge of this substrate co-evolution would help better understand how HIV-1 evolves resistance and thus, lead to improved therapeutic strategies. Sequence analyses and structural studies were performed to investigate co-evolution of HIV-1 protease and its cleavage sites. Though a few studies reported the co-evolution within Gag, including the protease cleavage sites, a more extensive study was lacking, especially as drug resistance was becoming increasingly severe.
In Chapter II, a small set of viral sequences from infected individuals were analyzed for mutations within the Gag cleavage sites that co-occurred with primary drug resistance mutations within the protease. These studies revealed that mutations within the p1p6 cleavage site coevolved with the nelfinavir-resistant protease mutations. As a result of increasing number of infected individuals being treated with PIs leading to the accumulation of PI resistant protease mutations, and with increasing efforts at genotypic and phenotypic resistance testing, access to a larger database of resistance information has been made possible. Thus in Chapter III, over 39,000 sequences were analyzed for mutations within NC-p1, p1-6, Autoproteolysis, and PR-RT cleavage sites and several instances of substrate co-evolution were identified. Mutations in both the NC-p1 and the p1-p6 cleavage sites were associated with at least one, if not more, primary resistance mutations in the protease.
Previous studies have demonstrated that mutations within the Gag cleavage sites enhance viral fitness and/or resistance when they occur in combination with primary drug resistance mutations within the protease. In Chapter III viral fitness in the presence and absence of cleavage site mutations in combination with primary drug resistant protease mutations was analyzed to investigate the impact of the observed co-evolution. These studies showed no significant changes in viral fitness. Additionally in Chapter III, the impact of these correlating mutations on phenotypic susceptibilities to various PIs was also analyzed. Phenotypic susceptibilities to various PIs were altered significantly when cleavage site mutations occurred in combination with primary protease mutations. In order to probe the underlying mechanisms for substrate co-evolution, in Chapter IV, X-ray crystallographic studies were performed to investigate structural changes in complexes of WT and D30N/N88D protease variants and the p1p6 peptide variants. Peptide variants corresponding to p1p6 cleavage site were designed, and included mutations observed in combination with the D30N/N88D protease mutation. Structural analyses of these complexes revealed several correlating changes in van der Waals contacts and hydrogen bonding as a result of the mutations. These changes in interactions suggest a mechanism for improving viral fitness as a result of co-evolution.
This thesis research successfully identified several instance of co-evolution between primary drug resistant mutations in the protease and mutations within NC-p1 and p1p6 cleavage sites. Additionally, phenotypic susceptibilities to various PIs were significantly altered as a result of these correlated mutations. The structural studies also provided insights into the mechanism underlying substrate co-evolution. These data advance our understanding of substrate co-evolution and drug resistance, and will facilitate future studies to improve therapeutic strategies.
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The role of fatty acid synthase in viral replicationKarthigeyan, Krithika Priyadarshini January 2021 (has links)
No description available.
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Primer tRNA annealing by human immunodeficiency virus type 1Jones, Christopher P. 25 June 2012 (has links)
No description available.
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Structural Analysis of Reconstituted Collagen Type I - Heparin CofibrilsStamov, Dimitar 15 March 2010 (has links)
Synthetic biomaterials are constantly being developed and play central roles in contemporary strategies in regenerative medicine and tissue engineering as artificial extracellular microenvironments. Such scaffolds provide 2D- and 3D-support for interaction with cells and thus convey spatial and temporal control over their function and multicellular processes, such as differentiation and morphogenesis. A model fibrillar system with tunable viscoelastic properties, comprised of 2 native ECM components like collagen type I and the GAG heparin, is presented here. Although the individual components comply with the adhesive, mechanical and bioinductive requirements for artificial reconstituted ECMs, their interaction and structural characterization remains an intriguing conundrum.
The aim of the work was to analyze and structurally characterize a xenogeneic in vitro cell culture scaffold reconstituted from two native ECM components, collagen type I and the highly negatively charged glycosaminoglycan heparin. Utilizing a broad spectrum of structural analysis it could be shown that pepsin-solubilized collagen type I fibrils, reconstituted in vitro in the presence of heparin, exhibit an unusually thick and straight shape, with a non-linear dependence in size distribution, width-to-length ratio, and morphology over a wide range of GAG concentrations. The experiments imply a pronounced impact of the nucleation phase on the cofibril morphology as a result of the strong electrostatic interaction of heparin with atelocollagen. Heparin is assumed to stabilize the collagen-GAG complexes and to enhance their parallel accretion during cofibrillogenesis, furthermore corroborated by the heparin quantitation data showing the GAG to be intercalated as a linker molecule with a specific binding site inside the cofibrils. In addition, the exerted morphogenic effect of the GAG, appears to be influenced by factors as degree of sulfation, charge, and concentration.
Further detailed structural analysis of the PSC-heparin gels using TEM and SFM showed a hierarchy involving 3 different structural levels and banding patterns in the system: asymmetric segment longspacing (SLS) fibrils and symmetric segments with an average periodicity (AP) of 250 - 260 nm, symmetric fibrous longspacing (FLS IV) nanofibrils with AP of 165 nm, and cofibrils exhibiting an asymmetric D-periodicity of 67 nm with a striking resemblance to the native collagen type I banding pattern. The intercalation of the high negatively charged heparin in the cofibrils was suggested as the main trigger for the hierarchical formation of the polymorphic structures. We also proposed a model explaining the unexpected presence of a symmetric and asymmetric form in the system and the principles governing the symmetric or asymmetric fate of the molecules.
The last section of the experiments showed that the presence of telopeptides and heparin both had significant effects on the structural and mechanical characteristics of in vitro reconstituted fibrillar collagen type I. The implemented structural analysis showed that the presence of telopeptides in acid soluble collagen (ASC) impeded the reconstitution of D-periodic collagen fibrils in the presence of heparin, leaving behind only a symmetric polymorphic form with a repeating unit of 165 nm (FLS IV). Further x-ray diffraction analysis of both telopeptide-free and telopeptide-intact collagen fibrils showed that the absence of the flanking non-helical termini in pepsin-solubilized collagen (PSC) resulted in a less compact packing of triple helices of atelocollagen with an increase of interhelical distance from 1.0 to 1.2 nm in dried samples. The looser packing of the triple helices was accompanied by a decrease in bending stiffness of the collagen fibrils, which demonstrated that the intercalated heparin cannot compensate for the depletion of telopeptides. Based on morphological, structural and mechanical differences between ASC and PSC-heparin fibrils reported here, we endorsed the idea that heparin acts as an intrafibrillar cross-linker which competed for binding sites at places along the atelocollagen helix that are occupied in vivo by telopeptides in the fibrillar collagen type I.
The performed studies are of particular interest for understanding and gaining control over a rather versatile and already exploited xenogeneic cell culture system. The reconstituted cofibrils with their unusual morphology and GAG intercalation – a phenomenon not reported in vivo – are expected to exhibit interesting biochemical behavior as a biomaterial for ECM scaffolds. Varying the experimental conditions, extent of telopeptide removal, and heparin concentration provides powerful means to control the kinetics, structure, dimensions, as well as mechanical properties of the system which is particularly important for predicting a certain cell behavior towards the newly developed matrix. The GAG intercalation could be interesting for studies with required long-term 'release upon demand' of the GAG, as well as native binding and stabilization of growth factors, cytokines, chemokines, thus providing a secondary tool to control cell signaling and fate, and later on tissue morphogenesis. / Synthetische Biomaterialien werden stetig weiterentwickelt und spielen als künstliche Mikroumgebungen eine zentrale Rolle in den modernen Strategien der regenerativen Medizin und des Tissue Engineerings. Solche sogenannten Scaffolds liefern eine 2D- und 3D-Struktur zur Interaktion mit Zellen und üben somit eine räumliche und zeitliche Kontrolle auf ihre Funktion und multizelluläre Prozesse aus, wie die Differenzierung und Morphogenese. Obwohl häufig die adhäsiven, mechanischen und bioinduzierenden Eigenschaften von Einzelkomponenten aus natürlichen Bestandteilen der extrazellulären Matrix (ECM) rekonstituierten Trägerstrukturen bekannt sind, bleiben die funktionalen und strukturellen Auswirkungen in Mehrkomponentensystemen eine faszinierende Fragestellung.
Das Ziel der Arbeit war die Analyse und die strukturelle Charakterisierung einer xenogenen in vitro Zellkultur-Trägerstruktur, die aus den zwei nativen ECM Komponenten Kollagen Typ I und das stark negativ geladene Glykosaminoglykan (GAG) Heparin rekonstituiert wurde. Unter Nutzung eines breiten Spektrums von Methoden zur strukturellen Analyse konnte gezeigt werden, dass im Beisein von Heparin rekonstituierte Pepsin-gelöste Kollagen Typ I Fibrillen eine ungewöhnlich dicke und gerade Form, mit nichtlinearen Abhängigkeiten der Größenverteilung, des Breite-zu-Länge Verhältnises und der Morphologie für eine Reihe von GAG Konzentrationen, aufweisen. Die Experimente deuten auf eine besondere Wirkung der Nukleierungsphase auf die Kofibrillmorphologie hin, als Folge der starken elektrostatischen Inteaktionen Heparins mit Atelokollagen. Es wird angenommen, dass Heparin die Komplexe aus Kollagen-GAG stabilisiert, die parallele Anlagerung während der Kofibrillogenese verbessert und dass überdies, belegt durch Heparin Quantitätsdaten, als Verbindungsmolekül mit einer spezifischen Anbindungsstelle innerhalb der Kofibrillen eingelagert wird. Darüber hinaus scheint der ausgeübte morphogene Effekt des GAGs Heparins von Faktoren wie Grad der Sulfatierung, Ladung und Konzentration abzuhängen.
Weitere detailierte Strukturanalysen der PSC - Heparin Gele mit TEM und SFM zeigten eine Hierarchie mit drei unterschiedlichen strukturellen Ebenen und Bandmustern im System: asymmetrisch segmentierte, weitabständige Fibrillen (SLS) und symmetrische Segmente mit einem AP von 250-260 nm, symmetrische fibrose weitabständige (FLS IV) Nanofibrillen mit einem AP von von 165 nm und Kofibrillen asymmetrischer D-Periodizität von 67 nm, die eine erstaunliche Ähnlichkeit zum natürlichen Kollagen Typ I Bandmuster haben. Die Einlagerung des sehr negativ geladenen Heparins in die Kofibrillen wurde als Hauptauslöser der hierarchischen Formation der polymorphen Strukturen betrachtet. Wir schlugen ebenso ein Model vor, welches sowohl das unerwartete Vorhandensein symmetrischer und asymmetrischer Formen im System als auch die Regeln erklärt, die das symmetrische oder asymmetrische Schicksal der Moleküle steuern.
Der letzte Abschnitt der Experimente zeigte, dass die Anwesenheit der Telopeptide und Heparins eine signifikante Wirkung auf die strukturellen und mechanischen Charakteristika der in vitro rekonstituierten Kollagen Typ I Fibrillen hatte. Die durchgeführten Strukturanalysen zeigten außerdem, dass die Anwesenheit der Telopeptide in säurelöslichem Kollagen (ASC) die Rekonstitution D-periodischer Kollagenfibrillen mit Heparin verhinderte, sodass nur symmetrisch polymorphe Formen mit einer Wiederholeinheit von 165 nm möglich waren (FLS IV). Weitere Messungen der Telopeptid-freien und Telopeptid-intakten Kollagenfibrillen mit Röntgendiffraktometrie ergaben, dass die Abwesenheit der nicht-helix-strukturierten Enden in Pepsin-gelöstem Kollagen (PSC) zu einer weniger kompakten Anordnung der Tripelhelices von Atelokollagen führte. Der interhelix Abstand erhöhte sich von 1,0 zu 1,2 nm für getrocknete Proben. Das zeigt, dass die losere Anordnung der Tripelhelices einhergeht mit der Verringerung der Biege-Elastizitäts-module der Kollagenfibrillen,. Basierend auf den hier vorgestellten morphologischen, strukturellen und mechanischen Unterschieden zwischen ASC und PSC-Heparin Fibrillen wird die Idee unterstützt, dass Heparin als intrafibrillärer Vernetzer fungiert und an Bindungsstellen der Helix bindet, welche in vivo bei Kollagen Typ I Fibrillen durch Telopeptide besetzt sind.
Die durchgeführten Studien sind von besonderem Interesse für das Verständnis und die Steuerung eines sehr vielseitigen und bereits verwendeten xenogenes Zellkultursystem für das Tissue Engineering. Von den rekonstituierten Kofibrillen mit ihrer ungewöhnlichen Morphologie und GAG Einlagerung - ein in vivo nicht bekanntes Phänomen - erwartet man, dass sie ein intressantes biochemisches Verhalten als Biomaterial für ECM Scaffolds zeigen. Variationen der experimentellen Bedingungen, des Ausmaßes der Telopeptidentfernung und der Heparinkonzentration liefern vielfältige Möglichkeiten um die Kinetik, Struktur, Dimension sowie die mechanischen Eigenschaften des Systems zu kontrollieren. Damit sollte es möglich sein, ein bestimmtes Zellverhalten gegenüber der neu entwickelten Matrix vorherzusagen. Die GAG-Einlagerung bietet interessante Optionen für eine langfristige Freisetzung des GAGs 'on demand', sowie die native Bindung und Stabilisierung von Wachstumsfaktoren, Cytokinen, Chemokinen, womit zusätzlich Zellsignalisierung und -schicksal und später Gewebemorphogenese kontrolliert werden kann.
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