Perturbation de la membrane cellulaire par des composés cationiques : transport transmembranaire contrôlé et applications biologiques

Gravel, Julien

08 1900

No description available.

Sels d’imidazolium

Cyclodextrines

Chimie supramoléculaire

Auto-assemblage

Transport ionique transmembranaire

Membranes cellulaires

Phospholipides

Imidazolium salts

Cyclodextrins

Supramolecular chemistry

Self-assembly

Transmembrane ion transport

Cell membranes

Phospholipids

Protein Dynamics by Solid-State NMR with Ultra-Fast Magic-Angle Spinning : from Microcrystals to Amyloid Fibrils and Membrane Proteins / Dynamique des Protéines par RMN à l’Etat Solide avec Rotation Ultra Rapide à l’Angle Magique : des Microcristaux aux Fibrilles Amyloïdes et Protéines Membranaires

Le Marchand, Tanguy

10 July 2018

La Résonance Magnétique Nucléaire (RMN) à l’état solide avec rotation à l’angle magique (MAS) est une technique de choix pour l’étude de la structure et de la dynamique de molécules biologiques peu ou non solubles. Un grand nombre d’approches ont été développées pour la reconstitution de structures tridimensionelles à partir de mesures précises de proximités internucléaires, ainsi que pour la détection de mouvements moléculaires avec une résolution atomique sur des échelles de temps couvrant plusieurs ordres de grandeur. Malgré d’impressionnants progrès, les études par RMN MAS sont cependant loin d’être réalisées en routine. Les déterminations structurelles et de dynamique sont souvent démontrées sur des préparations microcristallines modèles, mais sont encore rares pour des systèmes plus complexes tels que les fibrilles amyloïdes non cristallines ou les protéines trans-membranaires insérées dans des bi- couches lipidiques. Mon travail a pour objectif d’étendre les possibilités de la RMN MAS pour l’étude de systèmes biomoléculaires complexes dans différents états d’agrégation. Pour cela, j’ai exploité les possibilités uniques offertes par les hauts champs magnétiques (fréquence de Larmor du 1H 700, 800 et 1000 MHz) combinés avec les sondes MAS de dernières générations capables d’atteindre des vitesses de rotations supérieures à 60 kHz. Ces conditions expérimentales per- mettent d’augmenter la sensibilité de la RMN MAS à l’aide de la détection 1H à haute résolution et d’enrichir la palette de paramètres RMN rapporteurs de la dynamique des protéines. La première partie de cette thèse décrit le développement de nouvelles stratégies pour l’attribution des résonances du squelette de protéines, pour l’élucidation de structures, et pour l’étude de la dynamique du squelette peptidique et des chaînes latérales. Les méthodes présentées réduisent significative- ment les besoins en termes de temps expérimental, de quantités d’échantillon et de marquage isotopique, et permettent d’analyser par RMN des systèmes de plus hauts poids moléculaire. La seconde partie décrit l’application de la RMN MAS avec détection en 1H pour l’évaluation du rôle de la dynamique des protéines dans des processus tels que la formation de fibrilles amyloïdes et le fonctionnement de protéines membranaires. Une première application est l’étude de la tendance de la β-2 microglobuline humaine à former des fibrilles amyloïdes. Une comparaison de la dynamique du squelette peptidique de la protéine sauvage et du mutant D76N dans leur forme cristalline, ainsi que la détermination de propriétés structurales de la forme fibrillaire m’ont permis d’identifier la présence de repliements pathologiques et de formuler des hypothèses sur le mécanisme de formation des fibrilles. Finalement, la dynamique locale et globale de protéines membranaires dans des bicouches lipidiques a été étudiée. En particulier, le mécanisme d’action d’un transporteur d’alkanes, AlkL, de P. putida a été examiné dans un environnement lipidique. La détermination de paramètres pour la dynamique rapide (ps-ns) et lente (μs-ms) du squelette peptidique de la protéine en présence ou en absence de substrat met en évidence des acheminements possibles pour le transfert de molécules vers la membrane et jette les bases pour une meilleure compréhension du processus. / Solid-state NMR with magic angle spinning (MAS) has emerged as a powerful technique for investigating structure and dynamics of insoluble or poorly soluble biomolecules. A number of approaches has been designed for reconstructing molecular structures from the accurate measurement of internuclear proximities, and for probing motions at atomic resolution over timescales spanning several orders of magnitude. Despite this impressive progress, however, MAS NMR studies are still far from routine. Complete determinations, which are often demonstrated on model microcrystalline preparations, are still rare when it comes to more complex systems such as non-crystalline amyloid fibrils or transmembrane proteins in lipid bilayers. My work aimed at extending the possibilities of MAS NMR for applications on complex biomolecular systems in different aggregation states. For this, I exploited the unique possibilities provided by high magnetic fields (700, 800 and 1000 MHz 1H Larmor frequency) in combination with the newest MAS probes capable of spinning rates exceeding 60 kHz. These experimental conditions al- low to boost the sensitivity of MAS NMR through 1H detection at high resolution and to enrich the palette of probes for protein dynamics. The first part of the thesis reports on my contribution to the development of new strategies for backbone resonance assignment, for structure elucidation, and for investigation of backbone and side-chain dynamics. These methodologies significantly reduce the requirements in terms of experimental time, sample quantities and isotopic labeling, and enlarge the molecular size of systems amenable to NMR analysis. The second part describes the application of 1H detected MAS NMR to evaluate the role of protein dynamics in problems such as amyloid fibril formation and membrane protein function. I first addressed the amyloid fibril formation propensity of human beta-2 microglobulin, the light chain of the major histocompatibility complex I. I performed comparative studies of backbone dynamics of the wild type protein as well as a D76N mutant in crystals, and determined some of the structural features of the fibrillar form. This allowed to identify the presence of pathological folding intermediates and to formulate hypotheses on the mechanism of fibrils formation. Finally, I studied the local and global dynamics of membrane proteins in lipid bilayers. In particular, I investigated the mechanism of action of the alkane trans- porter AlkL from P. putida in lipid bilayers. The measurement of parameters for fast (ps-ns) and slow (μs-ms) backbone dynamics of the protein in presence or in absence of a substrate highlights possible routes for molecular uptake and lays the basis for a more detailed mechanistic understanding of the process.

Résonance Magnétique Nucléaire

Rotation à l’Angle Magique

Détection en protons

Dynamique

Protéines

Bêta-2 microglobuline

Protéines transmembranaires

Fibrilles amyloïdes

Nuclear Magnetic Resonance

Magic-Angle Spinning

Proton detection

Dynamics

Proteins

Beta-2 microglobulin

Transmembrane proteins

Amyloid fibrils

Propriétés anti-angiogéniques et anti-migratoires de peptides transmembranaires ciblant le complexe neuropiline-1/plexine-A1 dans le glioblastome / Anti-angiogenic and anti-migratory effects of transmembrane peptides targeting the neuropilin-1/plexin-A1 complex in glioblastoma

Jacob, Laurent

18 December 2013

Ce travail poursuit l’exploration du potentiel thérapeutique de peptides antagonistes des domaines transmembranaires (TM) de récepteurs impliqués dans la croissance tumorale. J’ai montré l’effet anti-angiogénique de MTP-NRP1, un peptide ciblant le récepteur Neuropline-1 et confirmé sa capacité d’inhibition de prolifération, migration et de croissance d’une lignée de glioblastome (GBM) humain. J’ai ensuite démontré que le récepteur Plexine-A1 est corrélé à l’agressivité des gliomes et semble être un marqueur pronostique négatif de la survie des patients atteints de GBM. J’ai démontré le rôle du segment TM de PlexA1 dans ses interactions. Le peptide MTP-PlexA1, inhibe la signalisation et la formation du complexe NRP1-PlexA1, réduit la prolifération et la migration des cellules de GBM, impacte la croissance tumorale in vivo y compris de cellules souches tumorales. J’ai décrit le rôle pro-angiogénique de PlexA1 par des tests d’angiogenèse et de CAM où MTP-PlexA1 bloque cette fonction. / This thesis work continues the exploration of the therapeutic potential using peptides targeting transmembrane (TM) domains of receptors involved in tumor growth. I showed the anti-angiogenic effect of MTP-NRP1, a peptide targeting Neuropilin-1 and confirmed its capability to impact proliferation, migration and in vivo growth of a human glioblastoma (GBM) cell line. Then, I demonstrated that the expression of Plexin-A1 is correlated with glioma aggressiveness and seems to be a bad prognosis marker for GBM patients. We described the importance of PlexA1 TM domain in the control of their interactions. The peptide MTP-PlexA1 inhibits complex formation and signaling of NRP1-PlexA1, impacts tumor growth in vivo and cancer stem cells engrafting and development. I demonstrated the pro-angiogenic role of PlexA1 with in vitro angiogenesis assays and CAM assay in which MTP-PlexA1 is able to block this function.

Plexine-A1

Neuropiline-1

Domaine transmembranaire

Peptide thérapeutique

Angiogenèse

Glioblastome

Migration

Cellules souches cancéreuses

Plexin-A1

Neuropilin-1

Transmembrane domain

Therapeutic peptide

Angiogenesis

Glioblastoma

Migration

Cancer stem cells

572.8

616.99

Pesquisa de mutações no gene CFTR (Cystic Fribrosis Transmembrane Conductance Regulator) em homens brasileiros inférteis portadores de ausência congênita dos ductos deferentes (CAVD) / Screening of mutations in the CFTR (Cystic Fibrosis Transmembrane Conductance Regulator) gene of Brazilian infertile men with congenital absence of vas deferens (CAVD)

Mariangela Tuzzolo Missaglia

27 March 2009

A Fibrose Cística (FC) é a doença autossômica recessiva mais freqüente em caucasianos e está associada, em seu amplo espectro de apresentação clínica, a mais de 1500 mutações no gene CFTR (Cystic Fibrosis Transmembrane conductance regulator). O papel de CFTR é especialmente relevante no desenvolvimento da porção reprodutiva dos ductos mesonéfricos. Em 98% dos pacientes masculinos portadores da FC, mutações em CFTR são responsáveis pela ausência bilateral congênita dos ductos deferentes (CBAVD), associada à anomalias variáveis das vesículas seminais, ductos ejaculatórios e da porção distal dos epidídimos. A ausência uni ou bilateral congênita dos ductos deferentes (CAVD), na ausência de outros sinais clínicos de FC, é conhecida causa de infertilidade masculina, presente em 1%-2% de todos os homens inférteis, e em cerca de 10% dos azoospérmicos. A reprodução assistida utilizando a injeção intracitoplasmática de espermatozóides (ICSI) obtidos preferencialmente por aspiração microcirurgica de espermatozóides do epidídimo (MESA) permite a paternidade biológica a esses pacientes. Em função da alta morbi-mortalidade da FC e da alta freqüência de portadores assintomáticos, estimada em 1:25, é recomendável que seja realizado teste para identificação de mutações em CFTR em todos os pacientes com CAVD antes de serem submetidos à ICSI. Em populações de etnia homogênea, a mutação F508 é identificada em 90% dos pacientes com FC e em 70% a 85% dos pacientes com CAVD. No Brasil, onde diferenças étnicas refletem a heterogeneidade genética, a freqüência da mutação F508 varia entre 23% e 50% em paciente com FC indicando que outras mutações devam estar envolvidas. Este dado levou ao estudo completo do gene CFTR de 20 homens inférteis com CAVD visando a identificação das mutações mais prevalentes em nossa população. Foram identificadas mutações em 17 pacientes (85%): três DF508 representando 15% (3/20), uma G542X, uma 875+1G>A e 4 mutações ainda não descritas na literatura, a S753R, G149W identificada em dois irmãos, V580F e a 712-1G>T. A variação no trato polipirimidínico em IVS8 (alelo 5T), seja como segunda mutação ou presente em homozigose, está diretamente relacionada com a CAVD, com freqüências em população caucasiana masculina infértil variando entre 21% e 30%. No presente estudo, 15 (15/20=75%) pacientes apresentaram o alelo a variante alélica 5T sendo que em 8 pacientes essa variante alélica foi identificada em heterozigose composta com outra mutação. Anomalias renais foram identificadas em 6 pacientes, todos com CBAVD. O presente estudo pode correlacionar o fenótipo da CAVD a alterações no genótipo de CFTR em 100% dos pacientes investigados / Cystic Fibrosis (CF) is the most common autosomal recessive disorder in caucasians and is associated, in an wide variety of different clinical manifestatons. More than 1500 mutations in the CFTR gene (Cystic Fibrosis regulator Transmembrane conductance) have been described and an even growing number of mutations are being currently studied worldwide. The role of CFTR gene is especially important in reproductive tissues of the mesonephric tract sensitive to the expression of the CFTR gene. The great majority of infertile males with CF (98%) have clinical manifestations and mutations in CFTR are responsible for the congenital bilateral absence of the vas deferens (CBAVD), associated to the abnormalities of the seminal vesicles, ejaculatory ducts and/or the distal portion of the epididymis. The congenital absence, uni or bilateral, of the vas deferens (CAVD), in the absence of other clinical signals of CF is a known cause of male infertility present in 1%-2% of all men investigated and in about 10% of men with obstructive azoospermia. Serious considerations should be drawn about the lack of proper diagnosis of infetile males with CFTR that seek reproductive clinics for assisted reproductive techniques (ARTs), as well as the lack of proper consideratins of the existance of this disease as a potential cause of male infetility among male are takers, like urologistas, andrologistas and gynecologists that rush for the misuse of ARTs. The introduction of Intracytoplasmic Sperm Injection (ICSI), has given new reproductive potetntial for these couples, but again as in the majority of cases it is obstructive azoospermia, couples should be advised about proper microsurgical sperm retrieval, preferentialy microsurgical epydidymal sperm aspiration (MESA). As a consequence of the potential high mortality rate of the CF descendents and the high frequency of carriers, estimated in 1:25,it is highly recommended that tests for correct identification of mutations in CFTR gene are carried out for all patients with CAVD before considered being submitted to ICSI. In populations of homogeneous ethnic origin, the mutation F508 is identified in 90% of the patients with CF and between 70% and 85% of the patients with CAVD. In Brazil, where ethnic differences reflect the genetic heterogeneity, the frequency of the mutation in F508 varies between 23% and 50%, indicating that other mutations must have a role. Our data looked carefully in the CFTR gene of 20 infertile men with CAVD aiming at the identification of the most prevalent mutations in our population. Mutations had been identified in 17 patients (85%): three DF508 representing 15% (3/20), one G542X, one 875+1G>A and 4 mutations not yet described in literature, S753R, G149W identified in two brothers, V580F and 712-1G>T. In the literature the allelic variant in IVS8 (allele 5T), either as a second mutation or in homozygosis, is directly related with the CAVD, with reported frequencies in the infertile caucasian male population varying between 21% and 30%. In the present study, 15 (15/20=75%) patients presented the CFTR mutation in the IVS8/5T: eight of them in heterozygosis composed with another mutation. Regarding genitourinary tract malformations, kidney anomalies were identified in 6 patients, all with CBAVD. In the present study we could correlationate the phenotype of the CAVD with the genotype alterations of CFTR gene in 100% of the investigated patients

Azoospermia

Ducto deferente/anormalidades

Fibrose cística

Infertilidade masculina

Azoospermia

Cystic fibrosis

Infertility male

Vas deferens/abnormalities

Synthèse de précurseurs et assemblages supramoléculaires : études de leurs propriétés de transport transmembranaire

Kempf, Julie

08 1900

Le développement de composés permettant le passage de molécules à travers la membrane cellulaire constitue un domaine de grand intérêt de la chimie et de la biochimie. Certaines maladies, comme la fibrose kystique, sont le résultat d'un dysfonctionnement du transport d'ions chlorure et bicarbonate à travers la bicouche lipidique. Ces dernières années, de nouvelles familles de transporteurs synthétiques ont fait leur apparition comme solution de remplacement aux transporteurs naturels. Cependant, la synthèse de systèmes supramoléculaires permettant le transport de larges molécules de part et d’autre de la bicouche lipidique reste, quant à elle, un défi. Ainsi nous présentons dans cette thèse deux systèmes différents: l’un permettant le transport d’ions chlorures et le second capable de combiner transport anionique et transport de macrocycles biologiquement actifs. Dans un premier temps, nous avons étudié le potentiel ionophore d’un dérivé benzimidazole. Des études mécanistiques ont été menées sur le 2,4,7-triphénylbenzimidazole afin de déterminer son mode d’assemblage dans la membrane phospholipidique, responsable de son efficacité à transporter les anions. Basé sur ces résultats, des analogues de cette molécule possédant des sites de complexation métallique ont été synthétisés afin d’augmenter l’efficacité de ces transporteurs benzimidazole et de contrôler leur auto-assemblage. Ces complexes ont été testés dans des membranes bactériennes afin d’étudier leur capacité à inhiber la croissance des bactéries et à diminuer la tolérance d’une souche bactérienne résistante envers les antibiotiques. Dans le second volet de cette thèse, nous avons étudié l’utilisation de dérivés parapluies capables de changer de conformation dépendamment de la polarité du solvant, pour le transport d’anions et de macrocycles. La synthèse et la caractérisation d’un nouvel axe et son dimère parapluie sont rapportées dans cette partie. Leur capacité à transporter les anions à travers la membrane des liposomes ou leur insertion dans des membranes bactériennes ont été étudiées. Les premiers essais de synthèses de rotaxanes à partir de ces dérivés parapluies pour le transport de macrocycle biologiquement actif sont rapportés. / The development of compounds able to transport molecules through cellular membranes is an emerging area of chemistry and biochemistry. Several diseases, such as cystic fibrosis, are the result of a dysfunction of chloride and bicarbonate transport across cellular membranes. In the last few years, new families of synthetic transmembrane transporters were developed in order to restore chloride transport. However, the synthesis of supramolecular systems for the transport of large molecules from one side to the other one of the lipid bilayer remains a challenge. Herein we present two different systems: one for chloride transport and a second one that combines the transport of ions and biologically active macrocycles through cellular membranes. We first present the anionophoric potential of benzimidazole derivatives. Mechanistic studies were conducted on 2,4,7-triphenylbenzimidazole to determine its self-assembly in a phospholipid membrane and its capacity to transport anions. Two analogues possessing metal coordination sites were also developed and studied for their anion transport properties, as well for the formation of metal-organic assemblies. These complexes were studied in bacterial membranes for their ability to inhibit bacterial growth and to reduce the tolerance of a resistant strain to antibiotics. In the second part of this thesis, we present the use of umbrella compounds that are able to change their conformation depending on the polarity of the environment. The synthesis and characterization of a new umbrella thread and its dimer are reported in this section. Their ability to transport anions through liposomal membranes or their insertion into more complex bacterial membranes are studied. The first attempts to assemble rotaxanes with the umbrella compounds and an active macrocycle are presented.

Benzimidazole

Auto-assemblage

Complexes métalliques

Parapluie moléculaire

Acide cholique

Rotaxane

Transport transmembranaire

Liposomes

Bactéries

Macrocycle

Nonactine

Benzimidazole

Self-assembly

Metal complex

Molecular umbrella

Cholic acid

Transmembrane transport

Bacteria

Cyclic drug

Nonactin

Physico-Chemical Characterisation of Chloride Transmembrane Transport using Calix[6]arene-based Receptors

Grauwels, Glenn

20 August 2020

The development of synthetic molecular receptors that can selectively bind anions, translocate them through a lipidic bilayer membrane and release them on the other side is a very topical and emerging field of supramolecular chemistry, warranted by the biological importance of transmembrane anion transport.The first part of this thesis is devoted to the study of the transmembrane transport of chloride and of the organic ion pair propylammonium chloride with calix[6]arene receptors functionalized with three (thio)urea arms on their small rim. The transport of chloride across the lipid bilayer of liposomes was monitored by fluorescence spectroscopy using the lucigenin assay. We report the first example of calix[6]arenes able to act as mobile carrier for the transport of chloride via a Cl-/NO3- antiport. We furthermore show that our calixarene systems are able to perform the cotransport of propylammonium chloride, with the chloride bound at the level of the (thio)urea groups and the ammonium included in the calixarene cavity. To provide direct proof of cotransport, we developed a 1H NMR methodology involving a thulium- complex shift reagent with which we were able to distinguish the signals of the ammonium transported inside the liposomes from those of the external ammonium. We also highlight the role of the complexing calixarene cavity for the cotransport by comparing the calixarenes to known transporters deprived of a cavity. The transmembrane transport organic ion pairs could find applications in the transport of biologically relevant ammonium compounds such as catecholamines and amino acids. Our results are reported in the publication “Repositioning Chloride Transmembrane Transporters: Transport of Organic Ion Pairs” Grauwels, G. Valkenier, H. Davis, A. P. Jabin, I. Bartik, K. Angew. Chemie - Int. Ed. 2019, 58, 6921–6925.The second part of this thesis is devoted to the study of binding of chloride to receptors embedded in a lipid membrane, the first step of the transmembrane transport process. Both 1H and 31P NMR spectroscopy proved to be inadequate to study the binding using liposomes or micelles as model membranes. With liposomes, the NMR signals are too broad to be exploited and in the case of micelles, the competition between the lipid headgroups and chloride made it impossible to obtain a NMR signature which unambiguously characterizes chloride binding. The 35Cl NMR signal is on the other hand strongly affected by the presence of anion receptors, both in organic solvents and when incorporated lipid bilayers. We developed a methodology to evaluate the binding of chloride, based on the monitoring of the chloride linewidth during titration experiments. A linear relationship between the linewidth and the concentration of receptors is observed and the slopes can be exploited to compare the binding strengths of different structurally related receptors. We show that 35/37Cl NMR is a versatile tool which can help in the understanding and development of new transporters by providing new insights of the physicochemical understanding of the transport process. / Doctorat en Sciences de l'ingénieur et technologie / info:eu-repo/semantics/nonPublished

Chimie

Chimie des colloïdes

Chimie organique

Physico-chimie générale

Biophysique

Biochimie

Supramolecular chemistry

transmembrane transport

liposomes

calix[6]arenes

shift reagents

anion binding

35Cl NMR

Simulace procesů v buněčných membránách / Simulation of processes in cellular membranes

Melcr, Josef

January 2018

Simulation of processes in cellular membranes Abstract Many important processes in cells involve ions, e.g., fusion of synaptic vesi- cles with neuronal cell membranes is controlled by a divalent cation Ca2+ ; and the exchange of Na+ and K+ drives the the fast electrical signal transmis- sion in neurons. We have investigated model phospholipid membranes and their interactions with these biologically relevant ions. Using state-of-the-art molecular dynamics simulations, we accurately quantified their respective affinites towards neutral and negatively charged phospholipid bilayers. In order to achieve that, we developed a new model of phospholipids termed ECC-lipids, which accounts for the electronic polarization via the electronic continuum correction implemented as charge rescaling. Our simulations with this new force field reach for the first time a quantitative agreement with the experimental lipid electrometer concept for POPC as well as for POPS with all the studied cations. We have also examined the effects of transmembrane voltage on phospholipid bilayers. The electric field induced by the voltage exists exclusively in the hydrophobic region of the membrane, where it has an almost constant strength. This field affects the structure of nearby water molecules highlighting its importance in electroporation. 1

The Three-Dimensional Structure of the Cystic Fibrosis Locus: A Dissertation

Smith, Emily M.

18 November 2014

The three dimensional structure of the human genome is known to play a critical role in gene function and expression. I used chromosome conformation capture (3C) and 3C-carbon copy (5C) techniques to investigate the three-dimensional structure of the cystic fibrosis transmembrane conductance regulator (CFTR) locus. This is an important disease gene that, when mutated, causes cystic fibrosis. 3C experiments identified four distinct looping elements that contact the CFTR gene promoter only in CFTR-expressing cells. Using 5C, I expanded the region of study to a 2.8 Mb region surrounding the CFTR gene. The 5C study shows 7 clear topologically associating domains (TADs) present at the locus, identical in all five cell lines tested, regardless of gene expression status. CFTR and all its known regulatory elements are contained within one TAD, suggesting TADs play a role in constraining promoters to a local search space. The four looping elements identified in the 3C experiment and confirmed in the 5C experiment were then tested for enhancer activity using a luciferase assay, which showed that elements III and IV could act as enhancers. These elements were tested against a library of human transcription factors in a yeast one-hybrid assay to identify potential binding proteins. Element III gave two strong candidates, TCF4 and LEF1. A literature search supported these transcription factors as playing a role in CFTR gene expression. Overall, this work represents a model locus that can be used to test important questions regarding the role of three dimensional looping on gene expression.

Protein Conformation

Cystic Fibrosis

Gene Expression

Gene Library

Human Genome

Luciferases

Transcription Factors

Dissertations, UMMS

Genome, Human

Genetic Processes

Genetics and Genomics

Genomics

Structural Biology

Analysis of Tha4 Function and Organization in Chloroplast Twin Arginine Transport

New, Christopher Paul

15 April 2020

No description available.

Biochemistry

Cellular Biology

Plant Biology

Molecular Biology

chloroplast twin arginine transport

protein transport

cpTAT

TAT

Tha4

Hcf106

protein purification

oligomer formation

complementation

transmembrane domain hydrophobicity

Studium trojrozměrné organizace signálních molekul na T buňkách pomocí kvantitativních metod fluorescenční mikroskopie. / Quantitative fluorescence microscopy techniques to study three-dimensional organisation of T-cell signalling molecules.

Chum, Tomáš

January 2021

10 SUMMARY Proteins represent one of the basic building blocks of all organisms. To understand their function at the molecular level is one the critical goals of current biological, biochemical and biophysical research. It is important to characterise all aspects that affect the localisation of proteins into different compartments with specific functions, the dynamic structure of proteins and their role in multiprotein assemblies, because altering these properties can lead to various diseases. Most of the proteomic studies are nowadays performed using biochemical approaches that allow us to study multicellular organism or tissue at once. The disadvantage of these methods is complex preparation of sample and the need for a large number of cells, which leads to the loss of information at the molecular level and in individual cells. On the contrary, microscopy can provide rather detailed information about proteins of interest and at the level of a single cell. A variety of fluorescence microscopy methods in combination with recombinant DNA techniques were applied to elucidate subcellular localisation of transmembrane adaptor proteins (TRAPs) in human lymphocytes and their nanoscopic organisation at the plasma membrane. Linker of activation of T lymphocytes (LAT), phosphoprotein associated with...