Spelling suggestions: "subject:"unnatural amino acids"" "subject:"innatural amino acids""
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Unnatural amino acids as metal-mediated probes of biological functionBhushan, Bhaskar January 2014 (has links)
Conjugation reactions on proteins have been used to access various post-translational modifications, for targeted delivery of drugs, for microscopy, and in studying receptor-ligand interactions. However, the ability to modify native proteins is constrained by the reactive functionalities of naturally occurring amino acids. This has driven research into the incorporation of unnatural amino acids (UAAs) into proteins. Research in this area has been motivated both by the possibility of increasing the breadth of chemical techniques for protein modification by introducing novel 'bio-orthogonal' reactive groups via UAA incorporation, as well as generating well-defined conjugates by the site-selective incorporation of these UAAs into proteins. The objective of this thesis is to both expand the diversity of UAAs for access to new metal-mediated reactions on proteins, as well as to utilise these reactions to reveal functional information about a range of biological systems. A brief introduction into current protein conjugation and UAA incorporation methods will be made in Chapter 1. In Chapter 2, the genetic incorporation of alkene-bearing UAAs into recombinant proteins expressed in both bacterial and mammalian systems is discussed. This technique is demonstrated to enable Ru-catalysed olefin cross-metathesis (CM) reactions on the resultant proteins. This work builds upon previously established methods to chemically incorporate CM handles onto proteins. The rational design of UAAs, as well as assays and modelling studies to screen them for recognition by the cellular incorporation machinery are discussed in detail. The expression of a range of alkene-tagged recombinant proteins, their complete characterisation, as well as the development of a more general protocol for on-protein CM is elucidated. In Chapter 3, the utility of UAA incorporation to probe mammalian cell translation systems is examined. Incorporation of an azide-bearing UAA, in addition to heavy stable-isotope labelled amino acids is used to uncover a previously unreported system of protein synthesis in mammalian cell nuclei, along with rapid metabolic degradation of the synthesised peptides. Various orthogonal methods for the detection of this system as well as possible reasons for its conservation are discussed. In Chapter 4, UAA incorporation and metal-mediated bioconjugation reactions are utilised in the development of a novel and generally applicable proteomics technique. This technique is used to determine quantitative changes in cell proteomes in response to external stimuli, and may be applied to systems to which traditional proteomics techniques cannot, such as ex vivo primary cells. Finally, in Chapter 5, further applications of UAA incorporation are discussed. Preliminary results are reported in efforts to use UAAs in the vibrational Raman microscopic imaging of biological systems, in generating HIV vaccines, and inducing T-cell stimulation.
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Synthèse et évaluation biologique d'analogues antinociceptifs de la neurotensine par exploitation d'aminoacides non naturels / Synthesis and biological assay of antinociceptive neurotensin analogues exploiting unnatural amino acidsRené, Adeline 18 December 2013 (has links)
Le travail présenté dans ce manuscrit a pour objectif la synthèse d'analogues sélectifs NTS2 de la neurotensine et l'étude de leur potentiel analgésique. La faible biodisponibilité de la neurotensine, caractérisée par sa courte durée de demi-vie et le non passage de la barrière hémato-encéphalique, est l'un des problèmes majeurs pour son activité biologique. Dans un premier temps, nous avons développé la synthèse d'aminoacides non naturels hydrophobes : la (triméthyl)silylalanine, des glycines N-substituées et des α-aminoacides insaturés, alliant la non reconnaissance par les enzymes et l'amélioration du passage des membranes. Puis, certains d'entre eux ont été incorporés à la séquence minimale active NT[8-13] afin d'évaluer leur impact sur l'affinité et/ou l'activité de ce fragment. Pour cela, nous avons synthétisé une série de peptides et pseudopeptides afin d'étudier d'une part leur affinité vers les récepteurs NTS1 et NTS2 et, pour certains d'entre eux, leur activité in vivo par des expérimentations sur le modèle de la douleur en collaboration avec l'université de Sherbrooke. Enfin, nous avons préparé une première série d'analogues de la neuromédine, agoniste des récepteurs de la NT et métabolite issu d'un précurseur commun, la pro-neurotensine. / The aim of this work concerns the synthesis of selective NTS2 neurotensin analogues as potent antinociceptive agents followed by biological activities studies. Poor bioavailability of neurotensin is one of the major obstacles for therapeutic effects. Indeed, this tridecapeptide has a short half-life time due to enzymatic degradation and is too hydrophilic to cross blood-brain barrier. First, we developed different methods to obtain hydrophobic unnatural amino acids like (trimethyl)silylalanine, N-substituted glycines and unsatured α-amino acids. All these peptide building blocks combine lipophilic properties facilitating membrane permeability and enzymatic unrecognition advantages. Some of them have been incorporated in the C-terminal active fragment NT[8-13] in order to evaluate their impact on affinity and/or biological activities. Thus, a series of new peptides and pseudopeptides was prepared and in vivo behavior was studied using a pain model designed in Sherbrooke university. Finally, we synthesized new analogues of neuromedin which is a neurotensin agonist issued from a common precursor, the pro-neurotensine.
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Antilarval substituted phenols, distribution of tricyclic pyrones in mice, and synthesis of unnatural amino acidsNguyen, Thi D.T. January 1900 (has links)
Doctor of Philosophy / Department of Chemistry / Duy H. Hua / Three research projects were carried out and they are described below.
The synthesis of substituted phenolic compounds including halogenated di- and trihydroxybenzenes, aminophenols, and substituted di-tert-butylphenols are described. Redox potentials of the synthesized molecules along with various known laccase substrates were measured, and an inverse relationship between the oxidation potential and the efficiency of oxidation by laccase of halogenated hydroxybenzenes and aminophenols is demonstrated. The synthesized substituted phenols were found to be substrates but not inhibitors of laccase. We discovered a new class of di-tert-butylphenols compounds that inhibits the growth of mosquito larvae at low concentrations. Compound 17, 2,4-di-tert-butyl-6-(3-methyl-2-butenyl) phenol caused greater than 98% mortality of third-instar larvae of Anopheles gambiae in the concentration of 0.18 µM. These compounds do not inhibit laccases. It appears that they affect a new target of the mosquito that is different from those of currently existing pesticides.
Two anti-Alzheimer molecules, CP2 and TP70, discovered in our laboratory were studied for their pharmacokinetics and distribution. The distribution of CP2 and TP70 in mouse brain region and various tissues of mice were examined. HPLC analysis revealed that CP2 treatment in primary neurons accumulates in mitochondria fraction. Similarly, the amount of CP2 in the brain tissue from wild type and APP/PS1 mice treated with 25 mg/kg/daily for 2 months also have the highest concentration in the mitochondria fractions in the hippocampus. The results show that CP2 and TP70 can penetrate the blood brain barrier and accumulate in the tissue in significant amounts. Pharmacokinetics and bioavailability of compound TP70 were determined. Area under the curve and bioavailability value F were calculated, and data show that TP70 has a good PK profile and bioavailability.
For the preparation of a novel tripeptidyl norovirus 3C-like protease (3CL[superscript]pro) inhibitor, the P3 unnatural amino acid, (S)-3-hydroxyphenylalanine was synthesized. The P3 is designed to increase the polarity with the addition of the alcohol group. After combining the P3 unnatural amino acid with the P1 and P2 to form the novel tripeptidyl compound, a study comparing the relations between the structure and its activity (SAR) will confirm whether prediction is correct in our pursuit for an antiviral therapeutic drug in the form of a protease inhibitor.
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Structure-function studies of membrane proteins by site-specific incorporation of unnatural amino acids / Etudes structure-fonction de protéines membranaires par incorporation spécifique d'acides aminés non naturelsTian, Meilin 20 June 2017 (has links)
Les protéines membranaires comme les récepteurs, les canaux ioniques et les transporteurs possèdent des rôles cruciaux dans les processus biologiques tels que la signalisation physiologique et les fonctions cellulaires. La description dynamique et fonctionnelle des structures protéiques est fondamentale pour comprendre la plupart des processus concernant les macromolécules biologiques. L'incorporation, dans des protéines, d'acides aminés non naturels (Uaas) possédant des propriétés physiques ou chimiques spécifiques fournit un puissant outil pour définir la structure et la dynamique de protéines complexes. Ces sondes permettent le suivi et la détection en temps réel de la conformation des récepteurs et des complexes de signalisation. Les approches d'expansion du code génétique ont permis l'incorporation d'Uaas servant de sondes dans des protéines avec une précision moléculaire. L'expansion héréditaire du code génétique peut permettre d'étudier la biologie des protéines de manière systémique.Avec cette stratégie, des Uaas capables de photopontage ont été utilisés pour étudier la relation structure/fonction des Protéines G Couplées aux Récepteurs (GPCR), telles que l'identification de la liaison du ligand ou des interactions protéine-protéine, en détectant les changements dynamiques avec les Uaas spectroscopiques et l'étiquetage bioorthogonal. Sur la base d'applications relativement bien établies d'Uaa dans les GPCR, ici, les analyses fonctionnelles sont combinées à l'incorporation génétique d'un Uaa photosensible spécifique au site, p-azido-L-phénylalanine (AzF) dans d'autres protéines membranaires, pour détecter la protéine, les changements conformationnels et les interactions protéiques. Contrairement à d’autres molécules photosensibles qui permettent aux protéines de répondre à la lumière, l'insertion des Uaas directement dans la chaine d’acides aminés offre des possibilités uniques pour le photo-contrôle de la protéine. Les aspects dynamiques de l'allostérie sont plus difficiles à visualiser que les modèles structuraux statiques. Une stratégie photochimique est présentée pour caractériser la dynamique des mécanismes allostériques des récepteurs NMDA neuronaux (NMDAR). Ces récepteurs appartiennent à la famille des canaux ioniques activés par le glutamate et portent la transmission synaptique excitatrice rapide associée à l'apprentissage et à la mémoire. En combinant le balayage AzF et un test fonctionnel résistant à la lumière, nous avons pu apporter des éléments permettant de mieux comprendre la dynamique des interfaces NTD (N-Terminal Domain des NMDAR) ainsi qu’un nouveau mécanisme de régulation allostérique, améliorant notre compréhension de la base structurale du mécanisme d’activation et de modulation des récepteurs NMDA.Outre l'incorporation de l’Uaa photopontant AzF dans les récepteurs neuronaux pour détecter l'effet fonctionnel, AzF a été appliqué pour piéger des interactions faibles et transitoires entre protéines dans un transporteur d'acides aminés LAT3, impliqué dans le cancer de la prostate. Les techniques de dépistage ont été établies en appliquant un photo-cross-linker positionné dans la protéine pour examiner les interactions entre LAT3 et les interacteurs inconnus et fournir des indices d'identification des partenaires de liaison.Dans l'ensemble, ce travail dévoile de nouvelles informations sur la modulation allostérique de l'activité du récepteur NMDA et sur les interactions protéines-protéines.. Les résultats pourraient fournir de nouvelles informations structurales et fonctionnelles et guider le dépistage de composés thérapeutiques pour des maladies associées au dysfonctionnement de ces protéines membranaires. / Membrane proteins including receptors, channels and transporters play crucial roles in biological processes such as physiological signaling and cellular functions. Description of dynamic structures and functions of proteins is fundamental to understand most processes involving biological macromolecules. The incorporation of unnatural amino acids (Uaas) containing distinct physical or chemical properties into proteins provides a powerful tool to define the challenging protein structure and dynamics. These probes allow monitoring and real-time detection of receptor conformational changes and signaling complexes. The genetic code expansion approaches have enabled the incorporation of Uaas serving as probes into proteins with molecular precision. Heritable expansion of the genetic code may allow protein biology to be investigated in a system-wide manner.With this strategy, photocrosslinking Uaas have been used to study GPCR structure/function relationship, such as identifying GPCR-ligand binding or protein-protein interactions, detecting dynamic changes with spectroscopic Uaas and bioorthogonal labeling. Based on relatively well-established applications of Uaa in GPCRs, here, functional assays are combined with the site-specific genetic incorporation of a photo-sensitive Uaa, p-azido-L-phenylalanine (AzF) into other membrane proteins, to probe protein conformational changes and protein interactions. Unlike photo-sensitive ligands that enable proteins in response to light, the site-specific insertion of light-sensitive Uaas facilitates directly light-sensitive proteins. Dynamic aspects of allostery are more challenging to visualize than static structural models. A photochemical strategy was presented to characterize dynamic allostery of neuronal NMDA receptors (NMDARs), which belong to the ionotropic glutamate receptor channel family and mediate the fast excitatory synaptic transmission associated with learning and memory. By combining AzF scanning and a robust light-induced functional assay the dynamics of NMDAR N-terminal domain (NTD) interfaces and novel allosteric regulation mechanism were uncovered, improving our understanding of the structural basis of NMDAR gating and modulation mechanism.Besides incorporation of photo-cross-linker AzF into neuronal receptors to detect the functional effect, AzF was used to trap transient and weak protein-protein interactions in an amino acid transporter LAT3, which is critical in prostate cancer. Screening technique was established by applying genetically encoded photo-cross-linker to examine interactions between LAT3 and unknown interactors and provide clues to identify the binding partners.Overall, the work reveals new informations about the allosteric modulation of channel activity and proteins interactions. These light-sensitive proteins facilitated by site-specific insertion of light-sensitive Uaas enable profiling diversity of proteins. The results will provide novel structural and functional information and may guide screening of therapeutic compounds for diseases associated with malfunctioning of these membrane proteins.
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A study of Kv channel dynamics using a fluorescent unnatural amino acidKalstrup, Tanja 10 1900 (has links)
No description available.
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In vitro genetic code expansion and selected applicationsIqbal, Emil S 01 January 2018 (has links)
The ability of incorporation non-canonical amino acids (ncAAs) using translation offers researchers the ability of extend the functionality of proteins and peptides for many applications including synthetic biology, biophysical and structural studies, and discovery of novel ligands. Here we describe the three projects where the addition of ncAAs to in vitro translation systems creates useful chemical biology techniques. In the first, a fluorinated histidine derivative is used to create a novel affinity tag that allows for the selective purification of peptides from a complex mixture of proteins. In the second, the high promiscuity of an editing-deficient valine-tRNA synthetase (ValRS T222P) is used to demonstrate ribosomal translation of 13 ncAAs including those with novel side chains, α,α disubstitutions, and cyclic β amino acids. Lastly, a couple of these amino acids are integrated into the powerful ligand discovery tool of mRNA display for the discovery of helical peptide ligands.
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Investigation of Nucleosome Dynamics by Genetic Code ExpansionHahn, Liljan 10 March 2015 (has links)
No description available.
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ENGINEERING PROTEINS WITH UNIQUE CHARACTERISTICS FOR DIAGNOSTICS AND BIOSENSORSJoel, Smita 01 January 2011 (has links)
Proteins possess a broad range of structural and functional properties and, therefore, can be employed in a variety of biomedical applications. While a good number of protein-based biosensing systems and biosensors for target analytes have been developed, the search for versatile, highly sensitive and selective sensors with long term stability able to provide fast detection of target analytes continues to be a challenge. To that end, we now report the design and development of modified proteins with tailored characteristics and their further utilization in the development of biosensing systems.
We take advantage of binding proteins that undergo a change in conformation upon binding to their respective target ligand analytes for the development of highly selective biosensing systems. The first class of binding proteins that was explored for this purpose was antibodies. A non-canonical site in the variable region of a monoclonal antibody was tagged with a fluorescent probe to sense the binding of analyte to its corresponding antigen-binding site. The strategy employed for designing antibodysensing molecules is universal as it can be employed for sensing any biomolecule of interest provided that there is an available antibody against the target ligand analyte.
In a second strategy, we utilized designer glucose recognition proteins (GRPs) that were prepared by incorporation of unnatural amino acids in the glucose/galactose binding protein (GBP) of Escherichia coli and its truncated fragments. By taking advantage of the global incorporation method, we were able to fine-tune the binding affinity and thermal stability of the proteins, thus, allowing for the development of a reagentless fluorescence based fiber optic glucose biosensor capable of monitoring glucose in the hypoglycemic, normal, and hyperglycemic range, as well as in the hypothermic and hyperthermic temperature range.
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Photoredox catalysis enabled C–O bond activation: Access to unnatural amino acids / Fotoredoxkatalyserad aktivering av C–O bindningar: Syntes av icke-naturliga aminosyrorLantz, Josefin January 2021 (has links)
Fotoredoxkatalys tillhandahåller möjligheter att utveckla nya hållbara kemiska reaktionsvägar. När fotokatalysatorn bestrålas med synligt ljus möjliggörs elektronöverföring till eller från substratet som i sin tur medför alstring av reaktiva fria radikaler. Kolradikaler, genererade med fotoredox-katalys från alkyloxalataktiverade alkoholer, har framgångsrikt kopplats till sulfinyliminer och möjliggör därigenom syntes av onaturliga α-aminosyror. Reaktionen utförs vid rumstemperatur och kräver endast extern energi i form av synligt ljus för att aktivera den iridium-baserade fotokatalysatorn. Den höga tillgängligheten av alkoholer utgör ett rimligt skäl för att använda dem som startmaterial. I detta projekt har tertiära alkoholer resulterat i framgångsrika reaktioner. / Photoredox catalysis provides opportunities to develop new sustainable chemical reaction pathways through single-electron transfer events and generation of reactive free-radical species. In this thesis carbon radicals, generated with photoredox catalysis from alkyl oxalate-activated alcohols, have successfully been coupled to sulfinyl imines and thereby enabling synthesis of unnatural α-amino acids. The reaction is performed at room temperature and only requires external energy in the form of visible light to activate the iridium-based photocatalyst. The abundance and availability of alcohols presents good reasons to use them as radical precursors. Under the developed reaction conditions, tertiary alcohols proved to be successful radical precursors, giving the desired product in good yield.
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Stereoselective synthesis of unnatural α-amino acids through photoredox catalyzed C–H activation / Stereoselektiv syntes av icke-naturliga α-aminosyror genom fotoredoxkatalyserad C–H-aktiveringWåhlin, Ludwig January 2021 (has links)
Fotoredoxkatalys har nyligen genomgått en renässans inom organisk kemi då metoden har möjliggjort framtagandet utav nya reaktionsvägar med milda reaktionsbetingelser genom att använda sig av synligt ljus. I det här arbetet undersöktes metodens bredd genom att kombinera metoden med väteatomöverföringskatalys för att funktionalisera C–H bindningar i α-position till heteroatomer och på så sätt skapa icke-naturliga α-aminosyror. Resultaten från detta arbete gav upp till 60% utbyte genom att kombinera dessa två katalysmetoder för substrat med Boc som skyddsgrupp, medan tertiära aminer inte krävde en väteatomöverföringskatalysator för kunna funktionaliseras. Den syntetiska metoden utan väteatomöverföringskatalys verkar dock inte vara applicerbara för sekundära aminer, men ser ut att fungera för C–H aktivering i α-position till svavelatomer vilket tyder på denna simplare metod utan väteatomsöverföring bör vara applicerbar för flera typer av substrat än för bara aminer / Photoredox catalysis has recently undergone a renaissance in the field of organic chemistry due the enabling of new reaction pathways under mild reaction conditions using visible light. In this work, the scope of this technology was explored by combining it with hydrogen atom transfer (HAT) to perform C–H functionalization in α-position to heteroatoms for synthesis of unnatural α-amino acids. The results showed that this is a viable method, gaining up to 60% yield using a dual catalytic system for Boc protected amines, while the functionalization of tertiary amines does not require HAT in order to work. Secondary amines proved to be non-applicable using the developed synthetic route without HAT catalyst while C–H activation in α-position to sulfur atoms gave similar response as tertiary amines – indicating that C–H activation without HAT should be applicable to a wider substrate scope than only using amines.
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