Measurements of Protein-Protein Interactions by Size Exclusion Chromatography

A method is presented for determining second virial coefficients B_2 of protein solutions from retention time measurements in size exclusion chromatography (SEC). We determine B_2 by analyzing the concentration dependance of the chromatographic partition coefficient. We show the ability of this method to track the evolution of B_2 from positive to negative values in lysozyme and bovine serum albumin solutions. Our SEC results agree quantitatively with data obtained by light scattering.Comment: 18 pages including 1 table and 5 figure

Influence des tensioactifs dans la cristallisation du complexe photosynthétique RC-LH1-pufX de Rhodobacter blasticus

Ce projet vise à étudier, par une approche pluridisciplinaire, l influence des la cristallisation des protéines membranaires (PM) en prenant pour protéine modèle le complexe photosynthétique RC-LH1-pufX de Rhodobacter blasticus. Des cristaux de ce complexe avaient été obtenus en présence de dodécyl-!-maltoside (DDM) et avaient diffractés à 8 Å de résolution. L objectif final est de pouvoir améliorer, de façon rationnelle, la qualité des cristaux du complexe RC-LH1-pufX grâce à une meilleure compréhension des mécanismes mis en jeu. Dans un premier temps, trois tensioactifs dérivés du DDM ont été conçus et synthétisés. L intérêt est d augmenter la rigidité et le caractère lipophobe des parties hydrophobes des tensioactifs par rapport au DDM, pour les rendre moins déstabilisants envers la protéine: soit par l incorporation d un groupement bicyclohexyle (PCC-maltoside), soit par l ajout d un segment fluoré de longueur modulable (F4H5- et F2H9-maltoside). Nous avons inclus également le F8TAC, tensioactif fluoré utilisé depuis une vingtaine d années pour le maintien en solution des PM, et les "tripodes", amphiphiles faciaux dont la géométrie particulière n avaient jamais été testée. Nous avons ensuite réalisé la caractérisation physico-chimique, en solution, de ces tensioactifs et du DDM en terme de CMC (concentration micellaire critique), nombre d agrégation, taille (par diffusion de la lumière dynamique, DLS), facteur de forme (par diffusion des rayons X aux petits angles, SAXS) et facteur de structure (par mesure du second coefficient du viriel, indicateur du potentiel des tensioactifs à initier la cristallisation)afin de déterminer les caractéristiques importantes au maintien en solution et à la cristallisation des PM. Le PCC-malt présentant le même comportement que le DDM,nous l avons sélectionné pour réaliser une étude en présence de la protéine.Après avoir mis au point une méthode de dosage des tensioactifs par HPTLC (HighPerformance Thin Layer Chromatography) et identifier les lipides présents dans les de Rhodobacter blasticus, nous avons pu quantifier les quantités de lipides et de tensioactifs associés à la protéine en présence de DDM et de PCC-malt.Enfin, dans une dernière partie, nous avons réalisé des essais de cristallisation du complexe RC-LH1-pufX en présence des tensioactifs sélectionnés pour faire le lien entre les conditions de cristallisation et l étude physico-chimique des micelles en solution.Membrane proteins (MPs) are involved in the regulation of various fundamental cellular functions, such as cell recognition, receptor-mediated signal transduction and selective transportation of metabolites. However despite their huge importance, researches in MPs are relatively limited. For example MPs represent approximately 30% of the human proteome and less than 1% of current Protein Data Bank entries. Indeed, the presence of hydrophobic domains in MPs makes them not soluble in water. Therefore surfactants are used to extract MPs from their native environment and substitute for lipids around the transmembrane domain of the protein, forming water-soluble complexes. However MPs are often unstable in surfactant solution because of the intrusion of the alkyl chain of the surfactant into the transmembrane domain and/or the dissociation of stabilizing lipids, cofactors or subunits. Our project aims to study, through a multidisciplinary approach, the influence of surfactants for MP crystallization. Since dodecylmaltoside (DDM) is the most common gentle detergent used for MPs crystallization, we synthesized three new structurally DDM-derivative surfactants whose designs were expected to limit MPs inactivation. The objective was to increase the rigidity and the lipophobic behavior of the hydrophobic moiety by adding a bicyclohexyl group (PCC-maltoside) or using different lengths of fluorinated segments (F4H5- and F2H9-maltoside). Comparison of these surfactants with DDM occurs on:Physico-chemical properties: Surfactants are characterized by their CMC, molar mass (SEC-MALS, SAXS), hydrodynamic size (DLS), form factor (SAXS) and structure factor (A2, indicator of surfactant potential to lead to crystallization) in order to determine their best characteristics for MPs crystallization. Biochemical properties: We chose the RC-LH1-Puf X complex from Rhodobacter blasticus as model protein because of its biological interest. Besides this membrane protein has already been crystallized in DDM giving a low diffraction resolution (8Å). A better understanding of mechanisms involved in crystallization is a prerequisite for the development of rational approaches to increase crystals quality. Therefor protein complexes are characterized by quantifying lipids and surfactants bound to the transmembrane domain. Surfactant and lipid assays are performed by High Performance Thin Layer Chromatography(HPTLC). Crystallization trials: we show the link between crystallization and surfactants physico-chemical propertiesAVIGNON-Bib. numérique (840079901) / SudocSudocFranceF

Non-monotonic variation with salt concentration of the second virial coefficient in protein solutions

The osmotic virial coefficient $B_2$ of globular protein solutions is calculated as a function of added salt concentration at fixed pH by computer simulations of the ``primitive model''. The salt and counter-ions as well as a discrete charge pattern on the protein surface are explicitly incorporated. For parameters roughly corresponding to lysozyme, we find that $B_2$ first decreases with added salt concentration up to a threshold concentration, then increases to a maximum, and then decreases again upon further raising the ionic strength. Our studies demonstrate that the existence of a discrete charge pattern on the protein surface profoundly influences the effective interactions and that non-linear Poisson Boltzmann and Derjaguin-Landau-Verwey-Overbeek (DLVO) theory fail for large ionic strength. The observed non-monotonicity of $B_2$ is compared to experiments. Implications for protein crystallization are discussed.Comment: 43 pages, including 17 figure

Towards Protein Crystallization as a Process Step in Downstream Processing of Therapeutic Antibodies: Screening and Optimization at Microbatch Scale

Crystallization conditions of an intact monoclonal IgG4 (immunoglobulin G, subclass 4) antibody were established in vapor diffusion mode by sparse matrix screening and subsequent optimization. The procedure was transferred to microbatch conditions and a phase diagram was built showing surprisingly low solubility of the antibody at equilibrium. With up-scaling to process scale in mind, purification efficiency of the crystallization step was investigated. Added model protein contaminants were excluded from the crystals to more than 95%. No measurable loss of Fc-binding activity was observed in the crystallized and redissolved antibody. Conditions could be adapted to crystallize the antibody directly from concentrated and diafiltrated cell culture supernatant, showing purification efficiency similar to that of Protein A chromatography. We conclude that crystallization has the potential to be included in downstream processing as a low-cost purification or formulation step

Both helix topology and counterion distribution contribute to the more effective charge screening in dsRNA compared with dsDNA

The recent discovery of the RNA interference mechanism emphasizes the biological importance of short, isolated, double-stranded (ds) RNA helices and calls for a complete understanding of the biophysical properties of dsRNA. However, most previous studies of the electrostatics of nucleic acid duplexes have focused on DNA. Here, we present a comparative investigation of electrostatic effects in RNA and DNA. Using resonant (anomalous) and non-resonant small-angle X-ray scattering, we characterized the charge screening efficiency and counterion distribution around short (25 bp) dsDNA and RNA molecules of comparable sequence. Consistent with theoretical predictions, we find counterion mediated screening to be more efficient for dsRNA than dsDNA. Furthermore, the topology of the RNA A-form helix alters the spatial distribution of counterions relative to B-form DNA. The experimental results reported here agree well with ion-size-corrected non-linear Poisson–Boltzmann calculations. We propose that differences in electrostatic properties aid in selective recognition of different types of short nucleic acid helices by target binding partners

IMMUNITE ET VACCINATION ANTICOCCIDIENNE CHEZ GALLUS GALLUS ; ETUDE DES PERFORMANCES DE POULETS LABELS VACCINES AVEC LE PARACOXtm-5

MAISONS-ALFORT-Ecole Vétérin (940462302) / SudocSudocFranceF