Outer membrane protein immunity to Pasteurella pneumotropica and the interaction of allergy

See, Sarah Bihui

January 2010

[Truncated abstract] Infectious and allergic diseases of the respiratory tract are major contributors to global mortality, morbidity and economic burden. Bacterial infections such as pneumonia and otitis media are important diseases, especially in children, while allergic diseases such as asthma and allergic rhinitis afflict up to 30% of the world's population. A confounding aspect of respiratory disease is the evidence of a complex relationship between respiratory allergy and respiratory infection, with infection suggested to both promote and prevent the pathogenesis of allergic disease. Additionally, allergy is a risk factor for bacterial infection such as otitis media, pneumonia and sinusitis, while respiratory infection can exacerbate allergic symptoms. Given the burden of bacterial respiratory disease and respiratory allergy, the development of preventative treatments for these diseases is needed and will benefit from clearer knowledge of the underlying immune mechanisms. This thesis aimed to to extend current knowledge by using Pasteurella pneumotropica, a similar bacteria to the human pathogen nontypeable Haemophilus influenzae (NTHi), to study respiratory infection and protective anti-outer membrane protein (OMP) immunity as well as the interaction of respiratory infection and allergic inflammation. Homologues of the important NTHi vaccine candidates P4, P6, P26 and D15 were found to be encoded by P. pneumotropica and a high level of amino acid sequence identity was noted between the different P. pneumotropica strains, as well as between other Pasteurellaceae members. ... In contrast, anti-P6his serum antibodies transferred to naïve mice did not confer protection. These results suggested that T-cell–mediated mechanisms were involved in P6his-mediated protection, and showed that the P. pneumotropcia model was useful for elucidating protective mechansims. The interaction of P. pneumotropica infection and papain-induced allergy was studied to investigate immune mechanisms underlying respiratory infection and allergy. Mice with ongoing allergic inflammation were intranasally challenged with bacteria and exhibited reduced pulmonary bacterial numbers, prolonged eosinophilia in the lungs and the induction of Th2 cytokines in the BALF, compared to nonallergic, infected mice. This suggested a protective role for allergic inflammation in this model. The effect of papaininduced inflammation on mice colonised by P. pneumotropica was also examined and allergic inflammation appeared to worsen infection in colonised mice. This suggested that allergic inflammation may also have a role in promoting infection in this model. In conclusion, this thesis explored mechanisms involved in vaccine-mediated immunity and the interaction of respiratory infection and allergy using a P. pneumotropica infection in its natural host. It was shown that intranasally administered recombinant P6 and P4 protected mice from lung infection, which justifies the inclusion of these OMPs as NTHi vaccine candidates. Additionally, it was demonstrated that the interaction of allergy and respiratory infection modulated immune responses. Overall, these results emphasize that a clearer understanding of the complex mechanisms underlying these interactions is required, and may be aided by the development of suitable animal models.

Allergy

Immunology

Membrane proteins

Mucous membrane -- Immunology

Mucosal immunity

Immunology

Allergy

Outer membrane protein

Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly

January 2009

The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009

G proteins Receptors.

Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly

January 2009

The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009

G proteins Receptors.

Intracellular trafficking of influenza hemagglutinin and members of the low density lipoprotein receptor family

Tall, Renee Danielle.

January 2004

Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 150-177.

The dynamics of the G protein-coupled neuropeptide Y2 receptor in monounsaturated membranes investigated by solid-state NMR spectroscopy

Thomas, Lars, Kahr, Julian, Schmidt, Peter, Krug, Ulrike, Scheidt, Holger A., Huster, Daniel

08 January 2016

In contrast to the static snapshots provided by protein crystallography, G protein-coupled receptors constitute a group of proteins with highly dynamic properties, which are required in the receptors’ function as signaling molecule. Here, the human neuropeptide Y2 receptor was reconstituted into a model membrane composed of monounsaturated phospholipids and solid-state NMR was used to characterize its dynamics. Qualitative static 15N NMR spectra and quantitative determination of 1H-13C order parameters through measurement of the 1H-13C dipolar couplings of the CH, CH2 and CH3 groups revealed axially symmetric motions of the whole molecule in the membrane and molecular fluctuations of varying amplitude from all molecular segments. The molecular order parameters (Sbackbone = 0.59-0.67, SCH2 = 0.41-0.51 and SCH3 = 0.22) obtained in directly polarized 13C NMR experiments demonstrate that the Y2 receptor is highly mobile in the native-like membrane. Interestingly, according to these results the receptor was found to be slightly more rigid in the membranes formed by the monounsaturated phospholipids than by saturated phospholipids as investigated previously. This could be caused by an increased chain length of the monounsaturated lipids, which may result in a higher helical content of the receptor. Furthermore, the incorporation of cholesterol, phosphatidylethanolamine, or negatively charged phosphatidylserine into the membrane did not have a significant influence on the molecular mobility of the Y2 receptor.

Ordnungsparameter

Membranprotein

MAS NMR

Schwankungen

Bewegungsamplitude

order parameter

membrane protein

MAS NMR

fluctuations

motional amplitude

ddc:570

An investigation and characterization of different ADP/ATP Carrier homologs / Investigation et caracterisation de différents homologues de transporteurs ADP/ATP

Woźnicka-Misăilă, Aleksandra

19 September 2016

L'objectif principal de ce projet de thèse était d'obtenir de nouvelles données structurales sur les transporteurs ADP/ATP mitochondriaux et de développer des outils pour les approches de micro- et nano-cristallographie appliquées à la biologie structurale des protéines membranaires.Le rôle principal du transporteur ADP/ATP (AAC) est d'importer et d'exporter respectivement de l’ADP3- et l’ATP4- à travers la membrane mitochondriale interne, entre l'espace intermembranaire et la matrice. AAC est le transporteur mitochondrial le mieux caractérisé de toute cette famille de protéines. De nombreuses études ont été menées pour caractériser sa fonction et sa structure. Toutefois, les données structurales n’étant disponibles que pour une conformation de la protéine, de nombreuses questions fondamentales notamment sur les différents états conformationnels adoptés par la protéine au cours du processus de transport restent encore posées. Dans cette thèse, nous avons étudié les 4 isoformes humaines d’AAC. Elles sont impliquées dans diverses maladies génétiques, mais jouent également un rôle dans la cancérogenèse. Cette thèse décrit ainsi en détail la caractérisation structurale et fonctionnelle de ces protéines et leur comparaison. C’est est une étape essentielle pour définir leurs propriétés, et constitue un point de départ précieux dans le développement de nouvelles thérapies.Le domaine de la biologie structurale ne cesse de connaître de nouveaux développements, comme c’est le cas par exemple avec l’avènement de la cristallographie sérielle. Il y a donc un besoin constant de nouvelles approches notamment pour la préparation des échantillons, leur montage sur les lignes de lumière et les collectes de données afin de continuer à améliorer la qualité des données collectées au synchrotron. Ainsi, notre objectif était d'utiliser différents échantillons de protéines membranaires pour développer de nouvelles techniques de cristallisation et de montage d’échantillons sur les lignes de lumière afin de préserver au mieux la qualité des échantillons tout en permettant des collectes de données plus rapides, plus efficaces et plus simples. / The main objective of this PhD project was to gain new structural data on the mitochondrial ADP/ATP carriers and develop tools for micro- and nano-crystallography approaches applied to membrane protein structural biology.The main role of the ADP/ATP carrier (AAC) is to import and export ADP3- and ATP4- respectively between the intermembrane space and the matrix through the inner mitochondrial membrane. AAC is the best characterized among all mitochondrial carriers. Much has been done to investigate its function and structure. However, since structural data are only available for one conformation of the protein some fundamental questions about the different conformational states adopted during the transport process still need to be answered.In this thesis we considered 4 human AAC homologs as a main target. They are involved in different genetic diseases but play also a role in cancerogenesis. This thesis describes and compares in detail the functional and structural characterization of the human AAC isoforms. It was an essential step to give insight into their native properties and is a precious starting point for the drug development field.Since the structural biology field is rapidly developing especially in serial crystallography techniques, there are more and more new applications for samples preparation, mounting and measurements in order to improve the quality of the data collected at the synchrotrons. Hence, our second objective was to use different membrane protein samples to develop new crystal-friendly crystallization set up combined with different sample environment on the beamline toward faster, more efficient and simpler data collection.

Cristallographie

Protéine membranaire

Transport d'ADP/ATP

Mitochondrie

Structure 3D

Crystallography

Membrane protein

ADP/ATP transport

Mitochondria

3D structure

570

OMP29 de Aggregatibacter actinomycetemcomitans: análise filogenética, interação com proteínas de matriz e resposta de células epiteliais. / OMP29 Aggregatibacter actinomycetemcomitans: phylogenetic analysis, interaction with matrix proteins and response of epithelial cells.

Maike Paulino da Silva

27 April 2016

OMP29 é uma das principais proteínas de membrana externa de Aggregatibacter actinomycetemcomitans (Aa) e está associada à invasão de célula epitelial gengival (CEG). Os objetivos deste estudo foram: analisar filogeneticamente omp29 e omp29 parálogo (omp29par), em cepas de Aa; determinar a interação de OMP29 com proteínas de matriz extracelular e o efeito da sua interação com CEG, pela avaliação da expressão gênica e produção de mediadores inflamatórios. Variações filogenéticas foram observadas para omp29 e omp29par, bem como para os seus promotores e estas relacionam-se com os sorotipos. A proteína recombinante OMP29his interagiu com fibronectina plasmática e celular (p<0,05), mas não com os domínios F30 e 45 ou com colágenos tipo I, III, IV e V, fibrinogênio, laminina e plasminogênio. A interação das mutantes de Aa deficientes em omp29 e/ou omp29par (obtidas pelo sistema LoxP/Cre) e OMP29his com CEG OBA-09 demonstrou que OMP29 regula positivamente il-18 e negativamente il-6r e il-8 (p<0,05). Os dados sugerem que OMP29 está envolvida na evasão do sistema imune. / OMP29 is one of the major outer membrane proteins of Aggregatibacter actinomycetemcomitans (Aa) and is associated with invasion into gingival epithelial cells (GEC). This study aimed to evaluate phylogenetically omp29 and omp29 paralogue (omp29par) in Aa strains; determine the interaction of OMP29 with extracellular matrix proteins and its effect on GEC by gene expression analysis and production of inflammatory mediators. Phylogenetic variations were observed for omp29 and omp29par as well as their promoters, and they were related to the serotypes. The recombinant protein OMP29his interacted with plasma and cellular fibronectin (p <0.05), but not to F30 and F45 domains, neither to collagens I, III, IV and V, fibrinogen, laminin and plasminogen. The interaction of Aa mutants defective in omp29 and/or omp29par (obtained by LoxP system/Cre) and OMP29his with CEG OBA-09 indicated that OMP29 regulates positively il-18 and negatively il-6r and il-8 (p <0.05). Data suggested that OMP29 is involved in bacterial evasion of the immune system.

Aggregatibacter actinomycetemcomitans

Doença periodontal

Proteína de membrana externa 29 (OMP29)

Aggregatibacter actinomycetemcomitans

Outer membrane protein 29 (OMP29)

Periodontal disease

Caractérisation moléculaire et structurale de la famille des protéines GASP / Molecular and structural characterization of the GASP family of proteins

Bornert, Olivier

13 September 2013

Les RCPG sont exprimés dans tous types de tissus et sont impliqués dans la régulation de nombreux processus biologiques et ont pour rôle de capter un vaste panel de stimuli extracellulaires qu’ils transmettent à l’intérieur de la cellule. Récemment, le laboratoire a identifié une nouvelle famille de dix protéines, les GASP, qui interagissent avec les RCPG et moduleraient leur trafic intracellulaire. Alors que GASP-1 est le membre de cette famille le mieux caractérisé et que son interaction avec de nombreux RCPG soit documentée, peu d’informations sont disponibles sur les modalités d’interaction de cette protéineavec les RCPG au niveau moléculaire. La première partie de ce projet de thèse a consisté à étudier les modalités d’interaction entre les GASPs et les RCPG au niveau moléculaire. Nous avons ainsi pu montrer à l’aide de techniques biochimiques et biophysiques, l’importance d’un motif répété et conservé de 15 acides aminés pour l’interaction de GASP-1 avec divers RCPG. Par la suite, les résultats obtenus ont été exploités pour mettre en place un essai de criblage qui nous a permis d’identifier des petites molécules capables de perturber l’interaction entre GASP-1 et le récepteur beta-2 adrénergique. Enfin, l’absence de données structurales sur les protéines de la famille GASP nous a ensuite poussé à la réalisation d’études structurales de ces protéines à la fois par cristallographie et par RMN. Bien que les résultats obtenus ne nous aient pas encore permis d’obtenir la structure de ces protéines, des expériences préliminaires de RMN ont permis deconfirmer l’implication des acides aminés tryptophanes présents au sein des motifs GASP dans l’interaction avec les RCPG. / GPCRs represent one of the most diversified protein families in humans. They translate extracellular stimuli into intracellular signals to modulate a large panel of physiological processes making them unrivalled targets for development of new therapeutic agents. Recently, we identified the GASP family of proteins that interact with GPCRs and modulate the postendocyticfate of agonist activated receptors. GASP-1 is the well-characterized protein of this family and has been shown to be involved in the sorting of receptors that are quickly degraded following agonistpromoted internalization. Although GASP-1 was found to interact with numerous GPCR both in vitro and in vivo and that helix 8 of GPCRs is critically involved in this interaction, little is known about which region within GASP-1 is required for its interaction with GPCRs. In this work, we first present a detailed analysis of the molecular interaction between GASPs and GPCRs. By using biochemical and biophysical experiments we shown that the central domain of GASP-1 is critical for the interaction with GPCRs and that a conserved and repeated sequence of 15 amino acids plays a critical role in this interaction. In a second step, we developed an HTC assay allowing us to identify small molecules able to disrupt the interaction between GASP-1 and the beta-2 adrenergic receptor. Finally, preliminary NMR experiments have confirmed the importance of amino acid tryptophan for the interaction with GPCRs and a first crystallization trials were performed with a fragment of GASP -1.

RCPG

Interaction protéine-protéine

Protéine membranaire

SPR

GASP

GPCR

Protein-protein interaction

Membrane protein

SPR

GASP

572.6

572.8

Fonction des protéines de l'enveloppe et de la périphérie nucléaire sur l'organisation du noyau chez Arabidopsis thaliana / Function of envelope and nuclear periphery proteins on the organization of Arabidopsis thaliana nuclei

Voisin, Maxime

07 December 2017

Le noyau est une innovation évolutive majeure caractéristique des organismes eucaryotes. Ces dernières années de nombreux travaux se sont intéressés à l’organisation de la chromatine dans l’espace nucléaire lors de l’interphase. Les protéines associées à la périphérie nucléaire ou ancrées dans la membrane nucléaire interne ont suscité un intérêt majeur due à leur contribution dans l’organisation spatiale de la chromatine. Chez les animaux, les lamines qui forment des filaments à la périphérie nucléaire et le complexe LINC, un complexe protéique reliant la membrane externe et interne du noyau sont connues pour interagir avec la chromatine, influencer l’organisation de cette dernière et moduler la régulation transcriptionnelle. Chez la plante modèle Arabidopsis thaliana utilisée dans ce travail, le complexe LINC est conservé, par contre les lamines ne le sont pas et seraient remplacées par d’autres acteurs spécifiques du règne végétal. Le travail détaillé dans ce manuscrit porte sur la mise en évidence d’un nouveau réseau d’interaction protéique localisé à la périphérie nucléaire et sur l’impact de ces protéines dans la morphologie du noyau et l’organisation de la chromatine. Mes travaux se sont concentrés sur les protéines à domaine SUN, l’une des composantes du complexe LINC et sur les protéines CRWN et KAKU4 présentes à la périphérie du noyau. Des cribles double hybride chez la levure m’ont permis d’identifier 24 partenaires protéiques potentiels dont plus d’un tiers sont des facteurs de transcription L’étude plus précise du facteur de transcription MaMYB pour lequel nous avons créé un allèle nul par la méthode CRISPR montre qu’il joue un rôle plus spécifique dans la formation des racines. L’étude de mutants combinatoires pour les gènes SUN, CRWN et KAKU4 montre des anomalies développementales notamment des tissus reproductifs. Enfin, une étude plus détaillée de la protéine KAKU4 suggère sa participation au maintien de la morphologie du noyau et au rapprochement de l’hétérochromatine vers la périphérie nucléaire. En résumé, mes travaux ont mis en évidence l’existence d’un réseau de facteurs de transcription recrutés à la périphérie nucléaire par les protéines SUN, CRWN et KAKU4. Ce réseau d’interaction protéine-protéine participerait à un mécanisme de séquestration de certains facteurs de transcription et/ou d'un rapprochement à la périphérie nucléaire de certains domaines de chromatine afin d’activer ou de réprimer leur transcription. / The nucleus is a major evolutionary innovation characteristic of eukaryotic organisms. In recent years, numerous studies have focused on the organization of chromatin in nuclear space during interphase. Proteins associated with the nuclear periphery or anchored in the inner nuclear membrane have been particularly studied for their contribution to the spatial organization of chromatin. In animals, the lamina that forms filaments at the nuclear periphery and the LINC complex, a protein complex linking the outer and inner membrane of the nucleus, are known to interact with chromatin, to influence its organization and to modulate transcriptional regulation. In the model plant Arabidopsis thaliana used in this work, the LINC complex is conserved, but not the lamina constituents, which are replaced by other specific actors of the plant kingdom. The work detailed in this manuscript identified a new protein interaction network located on the nuclear periphery and studied the impact of these proteins on nuclear morphology and chromatin organization. My work focused on SUN-domain proteins, one of the components of the LINC complex, and on the CRWN and KAKU4 proteins at the periphery of the nucleus. Double hybrid screens in yeast allowed me to identify 24 potential protein partners, more than a third of which are transcription factors. The more precise study of the transcription factor MaMYB for which we created a null allele using the CRISPR method, shows that it plays a more specific role in root formation. The study of mutant combinations for SUN, CRWN and KAKU4 genes reveals developmental abnormalities, particularly in reproductive tissue. Finally, a more detailed study of the role of the KAKU4 protein suggests that it contributes to the morphology of the nucleus in maintaining heterochromatin at the nuclear periphery. In summary, we propose the existence of a transcription factor network recruited to the nuclear periphery by SUN, CRWN and KAKU4 proteins. This protein-protein interaction network would participate in the sequestration of certain transcription factors and/or the localization of certain chromatin domains to the nuclear periphery in order to activate or suppress their transcription.

Enveloppe nucléaire

Chromatine

Nucléosquelette

Organisation nucléaire

Arabidopsis thaliana

Arabidopsis thaliana

Yeast two hybrid

Interactome

LINC complex

Membrane protein

Structural characterisation of highly specific membrane protein-lipid interactions involved in cellular function / Caractérisation structurale d'une interaction protéine-lipide hautement spécifique

Kemayo Koumkoua, Patricia

30 September 2015

Les membranes cellulaires sont des systèmes complexes composés de lipides variés qui interagissent avec les protéines pour accomplir une fonction. Leur adressage spécifique dans la cellule est crucial pour le fonctionnement cellulaire. Les vésicules COP (coat protein) sont impliquées dans leur transport dans les premières étapes de la voie de sécrétion. Récemment, une interaction très spécifique a été identifiée entre le domaine transmembranaire de la protéine p24 (p24TMD) abondante dans la membrane des vésicules COP et la sphingomyéline C18:0. Cette spécificité a été identifiée dans le cas d’interaction protéine-protéine et protéine-acide nucléique comme impliquée dans la régulation de fonctions cellulaires, C’est pourquoi nous avons décidé d'étudier sur cette interaction. A cet effet, le p24TMD a été obtenu par synthèse chimique et sa structure étudiée par RMN du solide en présence de la sphingomyèline avec pour but ultime de comprendre la fonction. / Cell membranes are complex systems composed of variety of lipids that interacts with proteins to trigger cellular function. The delivery of these lipids to the right compartment is crucial for cells to work efficiently. The coat protein (COP) complex vesicles are involved in lipids traffic in the early stages of the secretory pathway. Recently, a highly specific interaction has been found between the transmembrane domain of p24 protein (p24TMD) abundant in COPI membrane and sphingomyelin C18:0. As such highly specific interaction have been reported for protein-protein and protein-nucleic acid interactions to be involved in regulation of cell functions, we decide to investigate this specific interaction. The p24TMD was obtained chemically and investigated by solid state NMR in presence of sphingomyelin with the ultimately goal to understand the function behind.

Interaction spécifique protéine-lipide

Lipides

RMN

Protéine membranaire

CD

Specific protein-lipid interaction

Lipid traffic

NMR

Membrane protein

CD

572.6