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Stabilité conformationnelle et dépliement de la protéine MalE : Étude par nanopore et par spectroscopie RMN / Conformationnal stability and unfolding of the maltose binding proteinMerstorf, Céline 15 December 2011 (has links)
Nous avons étudié le couplage dépliement-transport de la Maltose Binding Protein (MBP ou MalE), une protéine périplasmique d'E. Coli et d'un mutant instable, le MalE219, en fonction de la concentration d'un agent dénaturant, le chlorure de guanidium (GdnHCl) à l'échelle de la molécule unique. La technique utilisée est basée sur la détection électrique du transport de macromolécules à travers un nanopore protéique (l'Aérolysine d'Aeromonas Hydrophila) inséré dans une bicouche lipidique plane. Les résultats obtenus ont été comparés à ceux obtenus lors d'une précédente étude réalisée à travers un autre nanopore protéique, l'alpha-hémolysine du Staphylocoque doré, de géométrie et de charge nette différente. Nous avons montré l'existence de temps courts et longs de blocage du courant associés à des protéines dépliées ou partiellement repliées. La fréquence des blocages du courant permet d'obtenir la fraction de protéine dépliée passant à travers le pore en fonction de la concentration en GdnHCl. Les courbes de dénaturation obtenues avec les deux pores montrent un comportement sigmoïdale très similaire. Le type de pore n'influence donc pas la dénaturation des protéines, mais uniquement leur dynamique de transport. En revanche, la courbe de dénaturation du mutant instable présente un déplacement vers les concentrations plus faibles en GdnHCl. Il a été montré également que la présence du maltose comme ligand sur le MalE219 stabilise nettement sa structure. Pour La MBP, les temps de blocages longs diminuent avec l'augmentation de la concentration de GdnHCl montrant une dynamique de transition vitreuse . Cette technique est appropriée à l'étude du dépliement et des changements de conformation de protéines, mais ne permet pas d'obtenir des informations structurales sur les états intermédiaires de repliement. Ainsi, la spectroscopie RMN a été utilisée pour tenter de caractériser ces états intermédiaires de repliement, notamment par la méthode d'échange proton-deutérium. Elle consiste à suivre les cinétiques d'échange des résidus de la protéine sur des spectres 2D 1H-15N HSQC à différentes concentrations de GdnHCl.Ainsi 180 résidus sur les 370 que compte la MBP ont été suivis lors de la dénaturation en présence de GdnHCl. Les deux hélices en C-terminal sont très accessibles au solvant et se dénaturent facilement. La MBP est composée de deux domaines globulaires, le domaine N-ter et le domaine C-ter. Les éléments de structures secondaires situés dans la zone intermédiaire entre les deux domaines (principalement des brins β) sont particulièrement affectés par l'agent dénaturant. D'autres structures secondaires dans les domaines globulaires sont très protégées et plutôt stables. Il est donc proposé que les protéines partiellement dépliées s'insèrent dans le pore par l'extrémité C-terminal et que des parties de structuration tertiaire restent stable entraînant le blocage du pore. / We study the unfolding-transport mechanism of the Maltose Binding Protein (MBP or MalE), a periplasm protein of E. Coli and a destabilised variant, the MalE219, as the function of the concentration of denaturing agent, Guanidine Hydrochloride(GdnHCl) at the single molecule level. The technique is based on the electrical detection of the macromolecule transport through a nanometer-scale channel, Aerolysin channel, inserted into a planar lipid bilayer. Results obtained were compared to previous data with another channel, the alpha-Hemolysin. Both channels have different geometry and net charge.We show that we can distinguish unfolded states from partially folded ones with aerolysin pore.Unfolded proteins induce short current blockades, their duration is constant as a function of the concentration of denaturing agent. Partially folded proteins exhibit long blockades whose life times decrease as the concentration of GdnHCl increase, this indicates a possible glassy dynamics.The frequency of the short current blockades increases as the concentration of denaturing agent increases, following a sigmoidal denaturation curve.The unfolding curve of native MBP with Aerolysin pore is similar to the one previously measured with Hemolysin channel. The denaturation curve of the destabilized variant obtained with Aerolysin is shifted towards lower value of GdnHCl concentration in agreement with bulk measurements. We show also that the addition of maltose stabilizes the structure of MalE219. This nanopore recording technique is also suitable for the study of unfolding and conformation changes of proteins.In order to obtain structural informations that nanopore recording cannot provides, the structure of MBP along its denaturation curve was studied by NMR spectroscopy. The Hydrogen-exchange method known to be sensitive to folding intermediates was specially used. It consists in tracking hydrogen-deuterium exchange rates for amino on the 2D 1H-15N HSQC spectra.Thus, 180 residus of 370 for MBP was followed during denaturation in the presence of GdnHCl. The two last helices in C-terminal of MBP are accessible to the solvent and are denaturated easily. MBP is a two domains protein, N-ter domain and C-ter domain. It was found out that the C- and D-domain of MBP (mainly alpha-helices) could be relatively stable in presence of denaturing agent and that beta strands which make the link between the two domains would be affected by the denaturing agent. It was proposed that partially unfolded proteins enter the pore by the C-terminal end and that stable tertiary structure still present block the pore.
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Auditory immersion and the believability of a first-person perspective in computer games : Do players have a preference between mono and stereo foley, and is one perceived as more believable?Wennerberg, Daniel January 2019 (has links)
Based on previous research on spatial attributes in foley and the concept that auditory immersion in first-person perspective computer games is enhanced by believable sound effects, this study explores if there is a connection between stereo foley and the believability of the first-person perspective, and regardless, if there is a preference to either mono or stereo foley. An interactive listening test was created in unreal engine 4, where 20 subjects, all considered gamers, played three levels that differed visually and in auditory content. In these levels, subjects auditioned two versions of avatar-related foley sounds. One version was mono, the other stereo. The test prompted the subjects to complete two tasks for each level, whereupon the foley version changed upon completion of the first task. The subjects then answered questions in between each level, regarding the foley version. They were asked to rate believability and choose a preference, as well as provide motivations for their choices. The quantitative data showed next no evidence that either mono or stereo was generally perceived as more believable or preferred. However, the qualitative data indicates that the majority of players tend to prefer and rate stereo foley as more believable in certain game environments. Furthermore, the data indicates that some subjects prefer a sensory replication of reality in foley. It is also shown that preference for stereo width vary between subjects and therefore argued that there cannot be a perfect standardized setting for stereo foley.
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