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101	Essai sur l'interprétation : l'interprétation au service de l'équité contractuelle : étude comparée franco-libanaise / Essays on the theory of interpretation : the interpretation in the service of the contractual equity : comparative study of french and lebanese laws Al Haj Diab, Lamis 29 June 2012 (has links) La conception de la théorie de l’interprétation est constante. Elle repose sur une distinction entre les textes contractuels clairs et les textes contractuels ambigus. L’interprétation des textes ambigus relève du pouvoir souverain des juges du fond tandis que l’interprétation des textes clairs est considérée comme une dénaturation, cas d’ouverture à cassation. Toutefois, cette conception classique de la théorie de l’interprétation semble contestable. Les textes législatifs relatifs à cette théorie ne justifient pas le clivage entre les textes clairs et les textes ambigus, que nous proposons d’écarter au profit de l’admission de l’absoluité du pouvoir d’interprétation des juges du fond. Par ailleurs, l’opération d’interprétation des contrats est régie par les directives déclaratives, les directives protectrices de la partie faible et les directives complétives. Elle est marquée par l’emprise de l’équité sur l’interprétation complétive. L’ensemble des directives d’interprétation conduit à la mise en oeuvre de « l’équité subjective originelle », ou subsidiairement de « l’équité complétive », « subjective » par référence à la volonté contractuelle sinon « objective » en se fondant sur la conception raisonnable de la société. L’interprétation s’avère un processus au service de l’équité contractuelle. Elle contribue à la préservation de l’équité subjective contractuelle et conduit à défaut à l’élaboration d’une équité objective contractuelle. Différentes conceptions juridiques constituent des applications avérées de cette lecture de la théorie de l’interprétation, à savoir l’interdiction de détournement de la finalité d’un droit, l’abandon de l’acte ostensible simulé pour l’application de l’acte secret sincère et l’adjonction d’obligations à certains contrats. En parallèle, de nouvelles applications sont proposées. La théorie de l’interprétation peut constituer le complément de la notion de cause, le dénouement de la problématique de la révision pour imprévision et une technique de révision des contrats nés déséquilibrés. / The concept of the theory of interpretation has been always based on the distinction between the clear contractual texts and the ambiguous contractual texts. The ambiguous texts are interpreted freely by the judges on merits whereas the interpretation of the clear texts is considered as a denaturation and a cause to claim cassation. However, this classic concept of the theory of interpretation seams disputable. As the difference in the interpretation of the clear and ambiguous texts is not justified by legal texts, we suggest to drop out this distinction and to give the judges the absolute authority to interpret all texts. Besides, the interpretation of contracts is governed by three rules: the declaration of the real common intention of the contracting parties rather than paying attention to the literal meaning of the terms, the protection of the weak party and the completion of the intention of the parties. The interpretation theory leads to the application of the equity which prevails over the completion rules. The judges will initially ascertain the “original subjective equity”. If not applicable, they will then establish the “subjective completive equity” depending on the contractual will, or the “objective completive equity” based on the reasonable conception of the society. The interpretation theory favors the contractual equity. It contributes to preserve the subjective contractual equity and creates an objective contractual equity. Several legal concepts constitute a genuine application of our understanding of the theory of interpretation, such as the interdiction of using a contractual right contrary to the reason created for, the abandonment of the fake apparent act in order to apply the real unrevealed one, and the addition of obligations to some contracts. In parallel, new applications are suggested. The theory of interpretation may complete the notion of cause, handle the problem of the unforeseen circumstances and permit to revise the imbalanced contracts. Interprétation Textes contractuels clairs Textes contractuels ambigus Dénaturation Equité Abus de droit Simulation Révision pour imprévision Lésion France Liban Interpretation Clear contractual texts Ambiguous contractual texts Denaturation Equity Abuse of rights Simulation Theory of imprevision Lesion France Lebanon
102	Structural and Biophysical Characterisation of Denatured States and Reversible Unfolding of Sensory Rhodopsin II Tan, Yi Lei January 2019 (has links) Our understanding of the folding of membrane proteins lags behind that of soluble proteins due to the challenges posed by the exposure of hydrophobic regions during in vitro chemical denaturation and refolding experiments. While different folding models are accepted for soluble proteins, only the two-stage model and the long-range interactions model have been proposed so far for helical membrane proteins. To address our knowledge gap on how different membrane proteins traverse their folding landscapes, Chapter 2 investigates the structural features of SDS-denatured states and the kinetics for reversible unfolding of sensory rhodopsin II (pSRII), a retinal-binding photophobic receptor from Natronomonas pharaonis. pSRII is difficult to denature, and only SDS can dislodge the retinal chromophore without rapid aggregation. Even in 30% SDS (0.998 $\mathit{\Chi}_{SDS}$), pSRII retains the equivalent of six out of seven transmembrane helices, while the retinal binding pocket is disrupted, with transmembrane residues becoming more solvent-exposed. Folding of pSRII from an SDS-denatured state harbouring a covalently-bound retinal chromophore shows deviations from an apparent two-state behaviour. SDS denaturation to form the sensory opsin apo-protein is reversible. This chapter establishes pSRII as a new model protein which is suitable for membrane protein folding studies and has a unique folding mechanism that differs from those of bacteriorhodopsin and bovine rhodopsin. In Chapter 3, SDS-denatured pSRII, acid-denatured pSRII and sensory opsin obtained by hydroxylamine-mediated bleaching of pSRII were characterised by solution state NMR. 1D $^1$H and $^{19}$F NMR were first used to characterise global changes in backbone amide protons and tryptophan side-chains. Residue-specific changes in backbone amide chemical shifts and peak intensities in 2D [$^1$H,$^{15}$N]-correlation spectra were analysed. While only small changes in the chemical environment of backbone amides were detected, changes in backbone amide dynamics were identified as an important feature of SDS- and acid-denatured pSRII and sensory opsin. $^{15}$N relaxation experiments were performed to study the backbone amide dynamics of SDS-denatured pSRII, reflecting motions on different timescales, including fast fluctuations of NH bond vectors on the ps-ns timescale and the lack of exchange contributions on the µs timescale. These studies shed insight on differences in the unfolding pathways under different denaturing conditions and the crucial role of the retinal chromophore in governing the structural integrity and dynamics of the pSRII helical bundle. Hydrogen bonds play fundamental roles in stabilising protein secondary and tertiary structure, and regulating protein function. Successful detection of hydrogen bonds in denatured states and during protein folding would contribute towards our understanding on the unfolding and folding pathways of the protein. Previous studies have demonstrated residue-specific detection of stable and transient hydrogen bonds in small globular proteins by measuring $^1{\it J}_{NH}$ scalar coupling constants using NMR. In Chapter 4, different methods for measuring $^1{\it J}_{NH}$ scalar coupling were explored using RalA, a small GTPase with a mixed alpha/beta fold, as proof-of-concept. Detection of hydrogen bonds was then attempted with OmpX, a beta-barrel membrane protein, both in its folded state in DPC micelles and in the urea-denatured state. While $^1{\it J}_{NH}$ measurement holds promise for studying hydrogen bond formation, further optimisation of NMR experiments and utilisation of perdeuterated samples are required to improve the precision of such measurements in large detergent-membrane protein complexes. Naturally occurring split inteins can mediate spontaneous trans-splicing both in vivo and in vitro. Previous studies have demonstrated successful assembly of proteorhodopsin from two separate fragments consisting of helices A-B and helices C-G via a splicing site in the BC loop. To complement the in vitro unfolding/folding studies, pSRII assembly in vivo was attempted by introducing a splicing site in the loop region of the beta-hairpin constituting the BC loop of pSRII. The expression conditions for the N- and C-terminal pSRII-intein segments were optimised, and the two segments co-expressed. However, the native chromophore was not observed. Further optimisation is required for successful in vivo trans-splicing of pSRII and application of this approach towards understanding the roles of helices and loops in the folding of pSRII.
103	Biochemical and Biophysical Studies of Human SUR1 NBD1, Rat SUR2A NBD2 and the Role of the C-terminal Extension in Rat SUR2A NBD1 Alvarez, Claudia Paola 18 March 2013 (has links) SUR2A-mediated regulation of KATP channels is affected by residues belonging to the C terminus of the first nucleotide binding domain (NBD1). We studied the C-terminal region of NBD1 by comparing experiments using NBD1 S615-D914 and NBD1 S615-K972 constructs to studies of NBD1 S615-L933 also performed in our laboratory. Our NMR data suggests that the C-terminal region of NBD1 from residues Q915 to L933 is disordered and transiently contacts the NBD1 core, which may affect NBD1 phosphorylation. Tryptophan quenching fluorescence experiments corroborate that the Q915-L933 C-terminal tail contacts the NBD1 core. Fluorescence thermal denaturation experiments suggest that NBD1 S615-D914 has a higher affinity for MgATP compared with NBD1 S615-L933, implying that the C-terminal tail varies MgATP binding. Additional experiments were performed to identify soluble constructs of hSUR1 NBD1 and rSUR2A NBD2 that would allow detailed biophysical studies of these domains. Some of the constructs studied showed improved solubility and stability. rSUR2A NBD1 hSUR1 NBD1 rSUR2A NBD2 NBDs potassium channel KATP channel NBD1 phosphorylation C-terminal extension Tryptophan quenching Thermal denaturation NMR Regulation of NBD1 Acrylamide quenching Iodide quenching Fluorescence Circular dichroism NBD1 C-terminal tail MgATP binding 0487
104	I. Characterization of Sulfonated Phthalocyanines by Mass Spectrometry. II. Characterization of SIAA, a Streptococcal Heme-Binding Protein Associated with a Heme ABC Transport System Sook, Brian R 22 April 2008 (has links) Sulfonated phthalocyanines were characterized using capillary electrophoresis and mass spectrometry. Derivatives investigated included the copper, cobalt, zinc and metal-free sulfonated phthalocyanines. The electropherograms of commercially available copper phthalocyanine-3,4',4'',4'''-tetrasulfonic acid and 4,4',4'',4'''-tetrasulfonic acid were very different, consistent with the latter compound having a structure that is not fully sulfonated. Matrix-assisted laser desorption/ionization (MALDI) and electrospray ionization (ESI) were used to characterize the sulfonated phthalocyanines. Mass spectral evidence was obtained for a pentasulfonated species of both the metal-free phthalocyanine and zinc phthalocyanine when these species were made by sulfonation of the metal-free phthalocyanine (followed by zinc insertion in the latter case). Many pathogenic bacteria require heme and obtain it from their environment. Heme transverses the cytoplasmic membrane via an ATP binding cassette (ABC) pathway. Although a number of heme ABC transport systems have been described in pathogenic bacteria, there is as yet little biophysical characterization of the proteins in these systems. The sia (hts) gene cluster encodes a heme ABC transporter in the Gram positive Streptococcus pyogenes. The heme binding protein (HBP) of this transporter is SiaA (HtsA). Several biophysical techniques were used to determine the coordination state, and spin state of both the ferric and ferrous forms of this protein. Identifiers from these techniques suggested that the heme is six-coordinate and low spin in both oxidation states of the protein, with methionine and histidine as axial ligands. The pKa of SiaA was determined, as were the reductive and oxidative midpoint potentials. Guanidinium titration studies of wild-type SiaA showed that the ferric state is less stable than the ferrous state. Free energy of unfolding values [ÄG(H2O)] for the oxidized and reduced proteins were 7.3 ± 0.8 and 16.0 ± 3.6 kcal mol−1, respectively. Denaturation of the histidine mutant H229A was not able to be followed via absorbance spectrometry, possibly due to the large amount of apoprotein present or to non-specific binding of the heme in the binding pocket. The biophysical characterization described herein will significantly advance our understanding of structure-function relationships in HBP. Phthalocyanine Porphyrin Sulfonated Capillary electrophoresis Mass spectrometry Streptococcus pyogenes SiaA HtsA Heme Heme uptake Gram positive Resonance Raman Magnetic circular dichroism Axial ligand Nuclear magnetic resonance ABC transporter Denaturation Chemistry
105	Biochemical and Biophysical Studies of Human SUR1 NBD1, Rat SUR2A NBD2 and the Role of the C-terminal Extension in Rat SUR2A NBD1 Alvarez, Claudia Paola 18 March 2013 (has links) SUR2A-mediated regulation of KATP channels is affected by residues belonging to the C terminus of the first nucleotide binding domain (NBD1). We studied the C-terminal region of NBD1 by comparing experiments using NBD1 S615-D914 and NBD1 S615-K972 constructs to studies of NBD1 S615-L933 also performed in our laboratory. Our NMR data suggests that the C-terminal region of NBD1 from residues Q915 to L933 is disordered and transiently contacts the NBD1 core, which may affect NBD1 phosphorylation. Tryptophan quenching fluorescence experiments corroborate that the Q915-L933 C-terminal tail contacts the NBD1 core. Fluorescence thermal denaturation experiments suggest that NBD1 S615-D914 has a higher affinity for MgATP compared with NBD1 S615-L933, implying that the C-terminal tail varies MgATP binding. Additional experiments were performed to identify soluble constructs of hSUR1 NBD1 and rSUR2A NBD2 that would allow detailed biophysical studies of these domains. Some of the constructs studied showed improved solubility and stability. rSUR2A NBD1 hSUR1 NBD1 rSUR2A NBD2 NBDs potassium channel KATP channel NBD1 phosphorylation C-terminal extension Tryptophan quenching Thermal denaturation NMR Regulation of NBD1 Acrylamide quenching Iodide quenching Fluorescence Circular dichroism NBD1 C-terminal tail MgATP binding 0487
106	The integrated stress response directs cell fate decisions in response to perturbations in protein homeostasis Teske, Brian Frederick 29 January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Disruptions of the endoplasmic reticulum (ER) cause perturbations in protein folding and result in a cellular condition known as ER stress. ER stress and the accumulation of unfolded protein activate the unfolded protein response (UPR) which is a cellular attempt to remedy the toxic accumulation of unfolded proteins. The UPR is implemented through three ER stress sensors PERK, ATF6, and IRE1. Phosphorylation of the α-subunit of eIF2 by PERK during ER stress represses protein synthesis and also induces preferential translation of ATF4, a transcriptional activator of stress response genes. Early UPR signaling involves translational and transcriptional changes in gene expression that is geared toward stress remedy. However, prolonged ER stress that is not alleviated can trigger apoptosis. This dual signaling nature of the UPR is proposed to mimic a 'binary switch' and the regulation of this switch is a key topic of this thesis. Adaptive gene expression aimed at balancing protein homeostasis encompasses the first phase of the UPR. In this study we show that the PERK/eIF2~P/ATF4 pathway facilitates both the synthesis of ATF6 and trafficking of ATF6 from the ER to the Golgi where ATF6 is activated. Liver-specific depletion of PERK significantly lowers expression of survival genes, leading to reduced expression of protein chaperones. As a consequence, loss of PERK in the liver sensitizes cells to stress which ultimately leads to apoptosis. Despite important roles in survival, PERK signaling is often extended to the vii activation of other downstream transcription factors such as CHOP, a direct target of ATF4-mediated transcription. Accumulation of CHOP is a hallmark of the second phase in the binary switch model where CHOP is shown to be required for full activation of apoptosis. Here the transcription factor ATF5 is found to be induced by CHOP and that loss of ATF5 improves the survival of cells following changes in protein homeostasis. Taken together this study highlights the importance of UPR signaling in determining the balance between cell survival and cell death. A topic that is important for understanding the more complex pathological conditions of diseases such as diabetes, cancer, and neurodegeneration. Endoplasmic reticulum -- Research Proteins -- Physiological transport Endoplasmic reticulum -- Pathophysiology Cellular signal transduction Stress (Physiology) Proteins -- Metabolism Homeostasis Molecular chaperones Proteins -- Denaturation Phosphorylation Genetic transcription -- Regulation Apoptosis Cell death Proteins -- Conformation
107	Optimizing hydropathy scale to improve IDP prediction and characterizing IDPs' functions Huang, Fei January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Intrinsically disordered proteins (IDPs) are flexible proteins without defined 3D structures. Studies show that IDPs are abundant in nature and actively involved in numerous biological processes. Two crucial subjects in the study of IDPs lie in analyzing IDPs’ functions and identifying them. We thus carried out three projects to better understand IDPs. In the 1st project, we propose a method that separates IDPs into different function groups. We used the approach of CH-CDF plot, which is based the combined use of two predictors and subclassifies proteins into 4 groups: structured, mixed, disordered, and rare. Studies show different structural biases for each group. The mixed class has more order-promoting residues and more ordered regions than the disordered class. In addition, the disordered class is highly active in mitosis-related processes among others. Meanwhile, the mixed class is highly associated with signaling pathways, where having both ordered and disordered regions could possibly be important. The 2nd project is about identifying if an unknown protein is entirely disordered. One of the earliest predictors for this purpose, the charge-hydropathy plot (C-H plot), exploited the charge and hydropathy features of the protein. Not only is this algorithm simple yet powerful, its input parameters, charge and hydropathy, are informative and readily interpretable. We found that using different hydropathy scales significantly affects the prediction accuracy. Therefore, we sought to identify a new hydropathy scale that optimizes the prediction. This new scale achieves an accuracy of 91%, a significant improvement over the original 79%. In our 3rd project, we developed a per-residue C-H IDP predictor, in which three hydropathy scales are optimized individually. This is to account for the amino acid composition differences in three regions of a protein sequence (N, C terminus and internal). We then combined them into a single per-residue predictor that achieves an accuracy of 74% for per-residue predictions for proteins containing long IDP regions. Intrinsically disordered proteins Support vector machine Clustering Proteins -- Conformation -- Research Proteins -- Denaturation Protein folding -- Research Support vector machines Aggregation (Chemistry) Amino acids -- Analysis Cellular signal transduction Molecular biology -- Mathematics Algorithms
108	Protein adsorption and denaturation in injectable devices for pharmaceutical applications / Adsorption et dénaturation des protéines dans des dispositifs injectables pour des applications pharmaceutiques Huang, Tongtong 22 March 2016 (has links) Protéines sont largement utilisés dans la formulation dans le domaine pharmaceutique et de jouer un rôle important dans les fonctions biologiques. Il est bien connu que l'adsorption de protéines sur la surface solide est toujours observé pour un stockage à long terme, ce qui entraînera une réduction de la dose de substance active ou une perte de l'activité biologique. Dans certains cas, une courte période de contact avec la surface est suffisante pour modifier fortement la conformation des protéines : par exemple, l'insuline pertes 52% de son activité biologique après 5 minutes de contact avec la surface de verre, ainsi qu'une perte de 30% d’activité biologique du cétrorélix est observé après 2 heures de contact. Parmi tous les paramètres, la dénaturation des protéines est fortement liée à sa stabilité des propriétés de surface. La compréhension de l'adsorption de protéines est devenue une question cruciale dans l'industrie pharmaceutique.Pour mieux comprendre le comportement des protéines à la surface, la quantification des protéines adsorbées et sa conformation devrait être étudiée. L'objectif de notre recherche sera de comprendre les comportements des protéines sur différents surfaces de seringue pré - remplie classique.Le principal objectif de ce projet est de comprendre le comportement de plusieurs modèles de protéines comme la sérum d’albumine bovine (BSA), le lysozyme (LSZ) et la myoglobine (MGB) en contact avec des surfaces de seringues pré-remplie comme le verre et l’élastomère. Nous proposons d'utiliser la chromatographie liquide à haute performance (HPLC) pour la quantification de protéine adsorbée sur une surface plane en déterminant la déplétion des protéines en solution. La réflexion totale atténuée infrarouge à transformée de fourier (FTIR-ATR) spectroscopie est utilisée de suivre les changements structurels des protéines adsorbées sur des surfaces solides. [...] / Proteins are widely used in formulation in the pharmaceutical field and play a major role in biological functions. It is well known that protein adsorption on solid surface is always observed for a long-term storage, which will result in a reduced dose of active compound or a loss of biological activity. In some cases, only short time of contact are sufficient to drastically modify the protein conformation: for instance, insulin losses 52% of its biological activity after 5 minutes contacting with glass surface, as well as a loss of 30% of cetrorelix is observed after 2 hours. Among all parameters, the time frame of the denaturation process is strongly related to the protein stability and surface properties. The understanding of protein adsorption has therefore become a crucial issue in the pharmaceutical industry.To gain a better understanding of proteins’ behavior on the surface, adsorbed protein quantification and its conformation should be studied. The objective of our research in a first will be to understand proteins’ behaviors on various surfaces which composed a classical prefilled syringe.The main goal of this PhD project is to understand the behaviors of several model proteins like bovine serum albumin (BSA), lysozyme (LSZ) and myoglobin (MGB) in contact with the surfaces of prefilled syringes such as glass and elastomer. We propose to use the high performance liquid chromatography (HPLC) to quantify the amount of protein adsorbed on a flat surface by determining the depletion of the proteins in solution. Fourier transform infrared-attenuated total reflection (FTIR-ATR) spectroscopy was as well as employed to follow the structural changes of adsorbed BSA on solid surface. [...] Adsorption des protéines Chromatographie CLHP Dénaturation des protéines Réflectance totale atténuée Structure des protéines Quantification des protéines Protein adsorption Chromatography HPLC Protein denaturation ATR-FTIR Protein structure Protein quantification 547.7
109	Dynamics and thermal behaviour of films of oriented DNA fibres investigated using neutron scattering and calorimetry techniques Valle Orero, Jessica 26 June 2012 (has links) (PDF) The majority of structural studies on DNA have been carried out using fibre diffraction, while studies of its dynamics and thermal behaviour have been mainly performed in solution. When the DNA double helix is heated, it exhibits local separation of the two strands that grow in size with temperature and lead to their complete separation. This work has investigated various aspects of this phenomenon. The experiments reported in this thesis were carried out on films of oriented fibres of DNA prepared with the Wet Spinning Apparatus. Thus, sample preparation and characterisation are essential parts of the research. The structures of two forms of DNA, A and B, have been explored as a function of relative humidity at fixed ionic conditions. A method to eliminate traces of ever-present B-form contamination in A-form samples was established. The high orientation of the DNA molecules within the samples allowed us to investigate dynamical fluctuations and the melting transition of DNA using neutron scattering, which can provide the spatial information crucial to understand a phase transition, probing the static correlation length along the molecule as a function of temperature. The transition has been investigated for A and B-forms in order to understand its dependence on molecular configuration.Furthermore, after the first melting, denatured DNA films show typical glass behaviour. Their thermal relaxation has been explored using calorimetry.Neutron and X-ray inelastic scattering (INS and IXS) were used in the past to measure longitudinal phonons in fibre DNA, and the results shown disagreement. Recent INS measurements supported with phonon simulations have been crucial to understand the different dispersion curves reported to date. Experiments using INS and IXS have been carried out to continue with this investigation. Attempts to observe the transverse fluctuations associated to the thermal denaturing of DNA, never experimentally investigated before, have been made. Deoxyribonucleic Acid Oriented DNA Fibres Wet Spinning Apparatus A-DNA B-DNA 1-D crystal X-ray fibre diffraction Neutron diffraction Inelastic neutron scattering Inelastic X-ray Scattering Differential scanning calorimetry Optic microscopy Thermal denaturation transition PBD model Enthalpy relaxation Structural relaxation Glass transition Phonon dispersion curves
110	Betaine analogues and related compounds for biomedical applications Vasudevamurthy, Madhusudan January 2006 (has links) Living cells accumulate compensatory solutes for protection against the harmful effects of extreme environmental conditions such as high salinity, temperature and desiccation. Even at high concentrations these solutes do not disrupt the normal cellular functions and at times counteract by stabilizing the cellular components. These properties of compensatory solutes have been exploited for stabilizing proteins and cells in vitro. Betaines are widespread natural compensatory solutes that have also been used in other applications such as therapeutic agents and polymerase chain reaction (PCR) enhancers. Some biomedical applications of novel synthetic analogues of natural betaines were investigated. Natural compensatory solutes are either dipolar zwitterionic compounds or polyhydroxyl compounds, and the physical basis of compensation may differ between these, so one focus was on synthetic betaines with hydroxyl substituents. The majority of the synthetic solutes stabilized different model proteins against stress factors such as high and low temperatures. The presence of hydroxyl groups improved protection against desiccation. The observed stabilization effect is not just on the catalytic activity of the enzyme, but also on its structural conformation. Synthetic compensatory solutes have a potential application as protein stabilizers. Dimethylthetin was evaluated as a therapeutic agent and found to be harmful in a sheep model. However, from the study we were able to generate a large-animal continuous ambulatory peritoneal dialysis (CAPD) model and showed that glycine betaine could be added to the dialysis fluid in chronic renal failure. Some synthetic compensatory solutes reduce the melting temperatures of DNA better than most natural solutes. Synthetic solutes were identified that have potential to enhance PCR and could replace some reagents marketed by commercial suppliers. Density, viscosity and molecular model data on the solutes showed correlations with the biochemical effects of the solutes, but no physical measurements were found that reliably predicted their potential for biotechnological applications. Betaine analogues synthetic compensatory solutes compatible solutes protein stabilization enzyme stabilization heat denaturation freeze-thawing freeze-drying protein fluorescence protein conformation dimethylthetin peritoneal dialysis sheep model renal failure homocysteine DNA melting temperature PCR enhancers fragile X PCR apparent hydration number dipole mement polarizability mulliken charges biotechnological applications

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