Functionalization of alpha- and beta-Amino C-H Bonds Using Cooperative Catalysis:

Zhang, Yuyang

January 2020

Thesis advisor: Masayuki Wasa / Cooperative catalysis has been developed for transformations where at least two reactants are activated in situ by acid or base sensitive catalysts to form the reactive species and subsequent bond formation leads to desired product. This thesis focuses on the development of ɑ-amino C-H alkynylation and β-amino C-H deuteration through the use of cooperative catalysts. In the alkynylation reaction, N-alkylamines and trimethylsilyl substituted alkynes were used to synthesize propargylamines by the cooperative actions of Lewis acid catalysts, B(C₆F₅)₃ and copper complex. The reaction between in situ generated iminium ion and copper alkyne complex afforded the product. The method is applicable to the late-stage functionalization of bioactive amine drug molecules and has been shown to tolerate different functional groups on trimethylsilyl-substituted alkynes. In addition, an enantioselective and diastereoselective version of the method was also developed through the use of chiral copper complex. In the second part, selective deuteration of β-amino C-H bonds of various acylic and cyclic alkyl amines will be introduced. B(C₆F₅)₃ and Brønsted base work cooperatively to afford enamine and deuterated ammonium ion as reactive intermediate. Deuteration of enamine at the β-position and hydride reduction at the ɑ-position gave the selectively deuterated products. Acetone-d₆ was the found to be the optimal source of deuterium. This method was able to incorporate deuterium atoms up to 99% and can be applied in a gram scale reaction without compromising the yield or d-incorporation level. / Thesis (MS) — Boston College, 2020. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

β-amino C-H deuteration

Cooperative catalysis

ɑ-amino C-H alkynylation

Structure and Regulation of Aspartate Pathway Enzymes and Deuteration Effects on Protein Structure

Liu, Xuying

10 June 2008

No description available.

Biochemistry

aspartokinase

allosteric inhibition

threonine-sensitive

aspartate semialdehyde dehydrogenase

deuteration effects

Mechanical Investigations on Agar Gels Using Atomic Force Microscopy: Effect of Deuteration.

Grant, Colin A., Twigg, Peter C., Savage, M.D., Woon, W.H., Greig, D.

2011 August 1925

No / The isotopic effect of exchanging deuterium with hydrogen on the mechanical and surface properties of agar gel is examined. The elastic modulus of the D2O gels obtained by AFM nanoindentation is significantly higher (factor of 1.5¿2) than the modulus found in H2O agar gels. Furthermore, the modulus is independent of loading rate. Surface imaging reveals that the surface roughness gets progressively smaller with increasing agar concentration. All these data suggest that the isotopic replacement of deuterium enhances the mechanical properties of the agar gel, with significant advantages in its use as a biphasic scaffold. / MRC

Atomic force microscopy

Gel

Deuteration

Agar gel

Mechanical properties

Biphasic scaffold

REF 2014

Neutron scattering and methodological developments for the study of the bacterial translocation machinery / Diffraction de neutrons et développements méthodologiques pour l'étude de la machinerie de translocation bactérienne

Brocco, Benjamin

04 July 2018

La diffusion de neutrons à petits angles (SANS) est une méthode utilisée pour l'étude d'une large variété de particules en solution. Combinée à un marquage isotopique et à la variation de contraste, elle permet d'obtenir des informations structurales uniques sur des complexes biologiques impliquant plusieurs partenaires, la rendant particulièrement intéressante pour l'étude des mécanismes de translocation. Dans les trois grands domaines de la vie, jusqu'à 30% des protéines doivent être sécrétées hors de la cellule ou intégrées dans sa membrane. Ces mécanismes complexes impliquent deux grands chemins de translocation qui dépendent de multiples protéines cytoplasmiques et membranaires.L'Holotranslocon est un large complexe protéique membranaire composé de sept sous-unités : le translocon triméric SecYEG et les sous-unités accessoires SecD-SecF-YidC-YajC. Cet assemblage peut sécréter des protéines vers l'extérieur de la cellule et en intégrer dans la bicouche lipidique. Nous avons utilisé une sélection de méthodes biophysiques pour analyser différentes stratégies de préparation et la diffusion de neutrons pour analyser les caractéristiques structurales de ce complexe. Nous avons étudié l'efficacité des protocoles actuels pour la production d'un échantillon suffisamment concentré et homogène mais aussi la possibilité d'utiliser des Amphipols comme substitut aux détergents classiquement utilisés pour la purification de ce complexe. Nous avons également tenter de deutérer HTL pour étendre les possibilités offertes par le SANS dans ce contexte. Alors que les caractérisations biophysiques utilisées n'ont pas permis d'améliorer les méthodes de préparation actuelles, la diffusion de neutron nous a permis de confirmer la présence de lipides au centre de la structure. Nous avons assuré la fiabilité de cette stratégie pour étudier des complexes bien définis, formés par plusieurs composants. Nous proposons des méthodes alternatives, basées sur la fluorescence ou la génération de lipodisques, pour l'étude de ce système complexe.Nous avons également étudié la protéine tétramérique SecB, une chaperonne moléculaire qui est impliquée dans l'adressage des substrats de translocation aux translocons membranaires. Puisque SecB interagit avec des partenaires cytosoliques et ses propres substrats, nous avons utilisé la diffusion de neutrons ainsi que le marquage au deutérium pour analyser des complexes pertinents dans le processus de translocation et impliquant jusqu'à trois partenaires : SecB, un substrat déplié et l'ATPase SecA. Nous avons utilisé les valeurs de "contrast match point" mesurées pour obtenir des informations sur la stœchiométrie et l'affinité des différents assemblages. L'analyse des rayons de girations a permis de localiser les différents composants au sein de ces complexes. De plus, nous avons montré que SecB s'étend lorsqu'elle reconnait son substrat et nous proposons un modèle fonctionnel, basé sur nos données, pour l'adressage des protéines textit{via} le chemin post-traductionnel.Dans l'optique de diversifier les applications du SANS pour les systèmes biologiques, nous avons étendus les protocoles utilisés pour la production de protéines partiellement deutérées textit{in vivo} aux lipides et acides nucléiques bactériens. Les niveaux de deutération ont été analysés grâce à la diffusion de neutrons, spectrométrie de masse ou résonance magnétique nucléaire. Sur la base de ces données, nous avons extrapolé les niveaux de deutération et "contrast match point" pour chaque type de biomolécule afin de pouvoir prédire les conditions de cultures optimales requises pour atteindre un marquage spécifique. Nous avons, de plus, développé une nouvelle stratégie permettant de marquer sélectivement les protéines tout en conservant un marquage minimal des autres types de molécules. / Small Angle Neutron Scattering (SANS) is a method that is used for the study of a wide range of particles in solution. Combined with isotope labelling and contrast variation approaches, it allows the extraction of unique structural information on biological complexes involving multiple partner molecules, making it a method of interest for the study of protein translocation mechanisms. In all three kingdoms of life, up to 30% of all proteins need to be secreted out of the cell or integrated into its membrane. These complex mechanisms involve two pathways of translocation that rely on multiple cytoplasmic and membrane proteins.The Holotranslocon (HTL) is a large membrane protein complex composed of seven subunits: the core trimeric translocon SecYEG and the accessory subunits SecD-SecF-YidC-YajC. This assembly can secrete proteins out of the cell or integrate them into the lipid bilayer. In this project, a range of biophysical methods and sample preparation strategies have been used to analyse the structural features of this complex by SANS. The efficiency of the current protocols to produce a concentrated and homogeneous sample have been investigated, as well as the use of an amhpipol molecules as a substitute to classical detergents for the purification of this complex. The deuteration of HTL was attempted to expand the capabilities of SANS in this context. While the biophysical characterization methods we used did not allow us to further improve the current preparation protocols, a key result was the fact that SANS confirmed the presence of lipids at the centre of the structure and the reliability of this analysis method for the study well-defined multi-component complexes was tested. Alternative methods for the analyses of this complicated system are proposed, including fluorescence-based assays or lipodisc formation.The tetrameric protein SecB was also studied; SecB is a molecular chaperone that is involved in the delivery of translocation substrates to the translocon. Since SecB interacts with cytosolic partners and its own substrate, SANS and deuterium labelling was used to analyse translocation-relevant complexes involving up to three partners: SecB, an unfolded substrate and the SecA ATPase. The measured contrast match point was used to obtain information on the stoichiometry and affinity of the various assemblies, and the radii of gyration was used to localize the different components within the complexes. It has also been shown that SecB expands upon substrate binding; a new working model for the post-translational targeting pathway has been proposed, based on these data.As a corollary to the work described above, protocols for textit{in vivo} protein deuterium labelling to the deuteration of textit{E. coli} lipids and nucleic acids have been developed and it is hoped that these may be of general value in widening the scope of SANS applications for the study of biological systems. the These approaches were characterized and evaluated by SANS, nuclear magnetic resonance and mass spectrometry. Based on these data, the relevant deuteration levels and contrast match points were extracted for each class of biomolecule so that the optimal culture conditions can be used to achieve a specific level of deuteration. In addition, a new strategy has been developed that allows the selective labeling of proteins while keeping the labelling of other classes of molecules to a minimum within a single culture.

Holotranslocon

Protéine membranaire

Diffraction de neutron à petit angle

SecYEG-DF-YajC

Deuteration des biomolécules

SecA-SecB

Holotranslocon

Membrane protein

Small angle neutron scattering

SecYEG-DF-YajC

Deuteration of biomolecules

SecA-SecB

530

570

Echanges hydrogène/deutérium dans les glaces interstellaires : une origine de la deutération sélective

Ratajczak, Alexandre

08 March 2012

Le milieu interstellaire (MIS) où se forment les étoiles est constitué de gaz très dilué dominé par l'hydrogène moléculaire, et de grains de poussière de taille submicrométrique. Ces poussières jouent un rôle crucial en atténuant la lumière des étoiles lointaines, protégeant ainsi les molécules du gaz des rayonnements ultra-violets, et en servant de catalyseurs à une chimie hétérogène à très basse température. Outre la synthèse de l'hydrogène moléculaire, la surface des grains permet de former des molécules organiques dites complexes comme le méthanol (CH3OH) à partir de l'hydrogénation (et la deutération) du monoxyde de carbone (CO). Les glaces ainsi formées participent à la complexification moléculaire du MIS et seront à terme intégrées au sein de disques de poussières, berceaux des astéroïdes, comètes et exo-planètes. L'objectif de cette thèse est l'étude des mécanismes d'échanges hydrogène-deuterium sur certains groupements fonctionnels de molécules organiques simples, méthanol par exemple, présentes à la surface ou dans les manteaux des grains interstellaires. La thèse est centrée sur une exploration expérimentale de ces processus en phase condensée, à l'aide d'une expérience de cryogénie synthétisant des glaces à très basse température (15K) couplée à un spectromètre infrarouge. Nous montrons que ces échanges se produisent avant la sublimation du manteau de glace sur des groupes fonctionnels capables d'établir des liaisons hydrogènes avec les molécules d'eau voisines. Le processus catalysant est vraisemblablement la cristallisation de la glace d'eau. Des études cinétiques nous permettent d'évaluer les énergies d'activation du transfert H/D (6745K) et de la transition amorphe-cristalline (8100K), et de déterminer la constante de vitesse d'échange dans le domaine de température 120-140~K. Cette constante de vitesse est, de plus, comparée à des calculs semi-classiques basés sur un traitement ab initio. En marge de ces expériences, des observations millimétriques de la molécule de méthanol en direction de proto-étoiles confirment une variabilité des abondances relatives des isotopologues simplement deutérés de cette molécule en fonction de la masse de la protoétoile.

Echanges isotopiques

Milieu interstellaire

Spectroscopie infrarouge

Deuteration du methanol

Grain

Protoétoiles

Crystal Structure and Thermal Behavior of SbC2O4OH and SbC2O4OD

Kohlmann, Holger, Rauchmaul, Anne, Keilholz, Simon, Franz, Alexandra

13 April 2023

The order of OH groups in the crystal structure of SbC2O4OH, a potential precursor in the synthesis of ternary oxides, was debated. Neutron diffraction on the deuteride SbC2O4OD revealed disordered OD groups with half occupation for deuterium atoms on either side of a mirror plane (SbC2O4OD at T = 298(1) K: Pnma, a = 582.07(3) pm, b = 1128.73(5) pm, c = 631.26(4) pm). O–H stretching frequencies are shifted by a factor of 1.35 from 3390 cm−1 in the hydride to 2513 cm−1 in the deuteride as seen in infrared spectra. SbC2O4OH suffers radiation damage in a synchrotron beam, which leaves a dark amorphous residue. Thermal decomposition at 564 K yields antimony oxide, carbon dioxide, carbon oxide, and water in an endothermic reaction. When using SbC2O4OH as a precursor in reactions, however, ternary oxides are only formed at much higher temperatures.

info:eu-repo/classification/ddc/540

ddc:540

Design and Synthesis of Mixed-Metal Supramolecular Complexes Incorporating Specialized Light Absorbing Units to Investigate Processes Relevant to Catalyst Function

Wagner, Alec T.

15 June 2015

The goal of this research was to develop a series of mixed-metal supramolecular complexes with specialized light absorbing units to probe perturbation of excited-state properties by ligand deuteration and long-term complex stability via racemization of initially enantiopure light absorbing subunits. Varying bidentate polypyridyl terminal ligands (TL), bridging ligands (BL), reactive metal center (RM), or number of Ru(II) light absorbers (LA) tunes the electrochemical, spectroscopic, photophysical, and photochemical properties within the supramolecular architecture. Ru(II) monometallics of the design [(bpy)2Ru(prolinate)](PF6) utilize prolinate as a chiral directing ligand to impart chirality to the Ru(II) LAs in the synthesis of more sophisticated supramolecular complexes. Ru(II) monometallics of the design [(TL)2Ru(BL)](PF6)2 (TL = bpy or d8-bpy; BL = dpp or d10-dpp; bpy = 2,2′-bipyridine; dpp = 2,3-bis(2-pyridyl)pyrazine) covalently couple two TLs and one BL to a central Ru(II) metal center forming a LA subunit. Larger bi- and trimetallic complexes are formed by coupling an additional Ru(II), Rh(III), or Pt(II) metal center to an existing Ru(II) LA through a BL. Ru(II),Ru(II), Ru(II),Rh(III), and Ru(II),Pt(II) bimetallics of the design [(TL)2Ru(BL)Ru(TL)2](PF6)4, [(TL)2Ru(BL)RhCl2(TL′)](PF6)3, and [(TL)2Ru(BL)PtCl2](PF6)2 (TL/TL′ = bpy or d8-bpy; BL = dpp or d10-dpp) couple only one Ru(II) LA to a Ru(II), Rh(III), or Pt(II) metal center through the BL. Ru(II),Rh(III),Ru(II) trimetallics of the design [{(TL)2Ru(BL)}2RhCl2](PF6)5 (TL = bpy or d8-bpy; BL = dpp or d10-dpp) covalently couple two Ru(II) LAs to a central Rh(III) RM through polyazine BLs. The complexes discussed herein are synthesized using a building block approach, permitting modification of the supramolecular architecture through multiple synthetic steps. Electrochemical analysis of the mono-, bi-, and trimetallic complexes displays several common features: a Ru-based HOMO and either a bridging ligand or Rh-based LUMO. TL and BL modification by ligand deuteration does not affect the electrochemistry of the Ru(II), Ru(II),Ru(II), Ru(II),Rh(III), or Ru(II),Rh(III),Ru(II) complexes. Likewise, utilizing a single enantiomer of the LA subunit does not modify the redox behavior of Ru(II), Ru(II),Pt(II), or Ru(II),Rh(III),Ru(II) complexes. All of the mono-, bi-, and trimetallic complexes are efficient light absorbers throughout the UV and visible with π→π* intraligand (IL) transitions in the UV and Ru(dπ)→ligand(π*) metal-to-ligand charge transfer (MLCT) transitions in the visible. Ligand deuteration does not affect the light absorbing properties of the complexes, while incorporation of chiral LA subunits imparts a preference for circularly polarized light (CPL) absorbance into supramolecular complexes. Photoexcitation of the Ru(dπ)→dpp(π*) 1MLCT results in near unity population of short-lived, weakly emissive Ru(dπ)→dpp(π*) ³MLCT excited state. In the Ru(II), Ru(II),Ru(II), and Ru(II),Pt(II) complexes, the 3MLCT excited state relaxes to the ground state by emission of a photon or vibrational relaxation processes. In the Ru(II),Rh(III) and Ru(II),Rh(III),Ru(II) complexes, the 3MLCT excited state is efficiently quenched by intramolecular electron transfer to populate a non-emissive Ru(dπ)→'Rh(dσ*) metal-to-metal charge transfer (3MMCT) excited state. Utilizing a deuterated BL, the excited-state lifetimes and quantum yield of emission (Φem) are increased for Ru(II), Ru(II),Ru(II), Ru(II),Rh(III) and Ru(II),Rh(III),Ru(II) complexes. The Ru(II),Rh(III) and Ru(II),Rh(III),Ru(II) complexes have previously been shown to be exceptional photochemical molecular devices (PMD) for photoinitiated electron collection (PEC). The ability of these complexes to undergo multiple redox cycles, efficiently absorb light, populate reactive excited states, and collect electrons at a reactive Rh metal center fulfills the requirements for H2O reduction photocatalysts. Photolysis of the Ru(II),Rh(III) and Ru(II),Rh(III),Ru(II) complexes with 470 nm light in the presence of a sacrificial electron donor and H2O substrate yields photocatalytic H2 production. Varying the BL from dpp to d10-dpp in the bimetallic architecture results in enhanced, although relatively low, catalyst efficiency producing 40 ± 10 μL H2 with dpp and 80 ± 10 μL H2 with d10-dpp in a CH3CN solvent system after 48 h photolysis. The trimetallic architecture showed no enhancement in photocatalytic efficiency and produced 210 ± 20 μL H2 with dpp and 180 ± 20 μL H2 with d10-dpp in a DMF solvent system after 20 h photolysis. The Ru(II),Rh(III) and Ru(II),Rh(III),Ru(II) complexes' behavior differs in that the excited state lifetime is the most important factor for bimetallic catalyst functioning, but intramolecular electron transfer is the most important factor for the trimetallic photocatalysts. Another important property to understand with these catalysts is their long-term stability in solution. In order for these mixed-metal complexes to be industrially useful, they must perform for long periods of time without degradation in the presence of H2O substrate and electron donors in solution. Previous examinations of Ru(II),Rh(III),Ru(II) photocatalysts have found that they can perform for ca. 50 h of photolysis, but are not as effective as the initial few hours. Special care was taken to synthesize enantiopure LA subunits and incorporate them into Ru(II),Pt(II) and Ru(II),Rh(III),Ru(II) architectures to study their photolytic stability by monitoring how long the complexes retained their chirality using electronic circular dichroism (ECD) spectroscopy. After photolyzing for longer than 200 hours with an LED light source, the quantum yield for racemization (Φrac) for the Ru(II),Pt(II) and Ru(II),Rh(III),Ru(II) architectures is 2.6 ⨉ 10⁻⁸ and 0.72 ⨉ 10⁻⁸ respectively. Also, by photolyzing in the presence of free bpy, the bi- and trimetallic complexes racemize via a non-dissociative trigonal twist mechanism. This dissertation reports the detailed analysis of the electrochemical, spectroscopic, photophysical, and photochemical properties of a series of selectively deuterated [(TL)2Ru(BL)](PF6)2, [(TL)2Ru(BL)Ru(TL)2](PF6)4, [(TL)2Ru(BL)RhCl2(TL′)](PF6)3, and [{(TL)2Ru(BL)}2RhCl2](PF6)5 (TL = bpy or d8-bpy; BL = dpp or d10-dpp; bpy = 2,2′-bipyridine; dpp = 2,3-bis(2-pyridyl)pyrazine) supramolecular complexes and a series of [(bpy)2Ru(prolinate)](PF6), [(bpy)2Ru(dpp)](PF6)2, [(bpy)2Ru(dpp)PtCl2](PF6)2, and [{(bpy)2Ru(dpp)}2RhCl2](PF6)5 supramolecular complexes with enantiopure light absorbing subunits. The design of the supramolecular architecture and intrinsic properties of each subunit contribute to the function of these systems. The careful design, synthesis and purification, thorough characterizations, and experimentation have led to deeper understanding of the molecular properties required for efficient H2O reduction. / Ph. D.

supramolecular complexes

electrochemistry

photophysics

photochemistry

photocatalysis

polyazine

ruthenium

rhodium

platinum

solar energy

water splitting

hydrogen production

deuteration

chiral control

racemization

Syntéza a vlastnosti neuroaktivních steroidů / Synthesis and Properties of Neuroactive Steroids

Kapras, Vojtěch

January 2016

Herein is reported the synthesis of molecular probes for action of neuroactive steroids in vitro and in living organisms. In the first part, preparation of enantiomeric pregnane steroids is investigated, ultimately resulting into the total synthesis of ent-progesterone. The chirality of the target molecule is introduced by a highly effective organocatalytic asymmetric Robinson annulation. A new method for the sequential construction of five-membered carbocyclic ring is introduced as the key step. This is composed of substrate-controlled copper-catalyzed conjugate addition followed by radical oxygenation and subsequent thermal cyclization employing the persistent radical effect. The synthesis of truncated neurosteroid analogs is described and their biological activity at the NMDA receptor is compared with the native hormone. In the second part, methodology for specific deuterium labeling of both angular methyls of the 5β-pregnane steroid core is explored. Special attention was paid to the Barton-McCombie deoxygenation as the tool for introduction of the last deuterium atom into the methyl group. Both positions were labelled with total of three deuterium atoms in high isotopic purity.

Dynamique des protéines et de la couche d'hydratation étudiée par diffusion de neutrons et méthodes biophysiques complémentaires / Dynamics of proteins and the hydration shell's, explored by neutron scattering and other biophysical techniques

Gallat, Francois-Xavier

14 December 2011

Ce travail de cette thèse porte sur la dynamique des protéines, accompagnées de leur eau d'hydratation, une couche de solvant autour des protéines vitale pour leur fonction biologique. Chacune de ces deux composantes s'accompagne d'une dynamique qui lui est propre et dont la réunion reforme le paysage énergétique du système biologiquement actif. La mise en application conjointe de la deutération sélective, de la diffusion incohérente de neutrons ainsi que la spectroscopie terahertz a permis d'explorer de manière indépendante la dynamique des protéines et de celles des couches d'hydratation. L'influence de l'état de repliement de la protéine sur sa dynamique a été étudié par diffusion élastique de neutrons. Les protéines globulaires se sont montrées moins dynamiques que ses analogues intrinsèquement désordonnées. Eux même semblent être plus rigides que les protéines dépliées non physiologiques. L'état d'oligomérisation et les conséquences sur la dynamique de ces protéines ont été développés. Les agrégats d'une protéine globulaire se sont avérés être plus flexibles que la forme soluble. A l'inverse, les agrégats d'une protéine désordonnée voient leur dynamique moyenne baisser par rapport à la forme soluble. Ces observations témoignent de la grande diversité de dynamiques à travers le protéome. Les expériences de diffusion incohérente de neutrons sur les couches d'hydratation des protéines globulaires et désordonnées ont permis d'obtenir des informations sur la nature des mouvements de l'eau autour des protéines. Les mesures ont mis en évidence la présence de mouvements translationnels concomitants à l'apparition de la transition dynamique dans les couches d'hydratations, vers 220 K. Les mesures ont de même montré un couplage plus fort entre une protéine désordonnée et son eau d'hydratation que celui entre une protéine globulaire et son eau d'hydratation. La nature de la couche d'hydratation et son influence sur sa dynamique ont été explorés, avec l'utilisation de polymères qui miment le comportement de l'eau et agissent comme source de flexibilité pour la protéine. Pour terminer, la dynamique des groupements méthyles, impliqués dans les modifications dynamiques observées à 150 et 220 K, a été étudiée. / This thesis work focused on the dynamics of proteins, surrounded by their hydration layer, a water shell around the protein vital for its biological function. Each of these components is accompanied by a specific dynamics which union reforms the complex energy landscape of the system. The joint implementation of selective deuteration, incoherent neutron scattering and terahertz spectroscopy allowed to explore the dynamics of proteins and that of the hydration shell. The influence of the folding state of protein on its dynamics has been studied by elastic neutron scattering. Globular proteins were less dynamic than its intrinsically disordered analogues. Themselves appear to be stiffer than non physiological unfolded proteins. The oligomerization state and the consequences on the dynamics were investigated. Aggregates of a globular protein proved to be more flexible than the soluble form. In contrast, aggregates of a disordered protein showed lower average dynamics compared to the soluble form. These observations demonstrate the wide range of dynamics among the proteome. Incoherent neutron scattering experiences on the hydration layer of globular and disordered proteins have yielded information on the nature of water motion around these proteins. The measurements revealed the presence of translational motions concomitant with the onset of the transition dynamics of hydration layers, at 220 K. Measurements have also shown a stronger coupling between a disordered protein and its hydration water, compared to a globular protein and its hydration shell. The nature of the hydration layer and its influence on its dynamics has been explored with the use of polymers that mimic the water behavior and that act as a source of flexibility for the protein. Eventually, the dynamics of methyl groups involved in the dynamical changes observed at 150 and 220 K, was investigated.

Protéine Tau

Diffusion incohérente de neutrons

Spectroscopie terahertz

Deutération de protéines

Transition dynamique

Protein Tau

Terahertz spectroscopy

Protein deuteration

Dynamic transition

530

Efeitos de confinamento em líquidos iônicos hidratados

Zanatta, Marciléia

January 2017

Líquidos iônicos imidazólios (LIIs) associados a ânions com caráter básico foram sintetizados, caracterizados e seu comportamento estudado em solução. Inicialmente a troca isotópica H/D preferencial no grupo C2-CH3 de sais de 1-nbutil-2,3-dimetilimidazólio (BMMI) foi avaliada. Ficou evidente que o contato entre os pares de íons e a atuação do ânion como uma base neutra influenciaram fortemente a deuteração. Após a análise dos resultados de RMN, cálculos de DFT (Teoria do Funcional de Densidade) e Difração de Raios X, um complexo entre uma molécula de água e alguns LI foi sugerido, modificando fortemente a estrutura organizacional e afetando também a troca isotópica nestes sais. Através do mecanismo reacional proposto, surgiu a possibilidade de deuteração de novos substratos contendo H ácidos, usando os LIIs como catalisadores. A reação de troca isotópica em alcinos e cetonas foi estudada e bons resultados foram obtidos. O efeito da variação de cátions e ânions na atividade catalítica foi analisado, assim como a variação dos substituintes dos substratos. Além disso, um estudo cinético foi realizado através de análises de RMN de 1H e o mecanismo reacional foi proposto. Por fim, a capacidade de formação de pares iônicos em soluções aquosas de LIIs foi avaliada na captura de CO2. Ótimos resultados foram obtidos e atribuídos à ocorrência de sorção física e química devido à ativação da água pelo LII. / Imidazolium based ionic liquids (ImIL) associated with basic anions were synthesized, characterized and studied. Initially the preferred H/D isotopic exchange to C2-CH3 group of 1-nbutyl-2,3-dimethylimidazolium salts (BMMI) was studied. In this context, it became evident that the ion-pairing formation and the anion action as a neutral base strongly influence the deuteration reaction. NMR analysis, theoretical calculation (Density Functional Theory) and X-ray Diffraction have been performed and a complex between a water molecule and the IL have been suggested, strongly modifying the IL structure and characteristics. The isotope exchange reaction in alkynes and ketones was studied using imidazolium based ionic liquids as catalysts and good results obtained. The effect of cation and anion variation on the catalyst activity were analyzed, also a variation of the substrate substituent’s. Also, a kinetic study was performed by 1H NMR analyzes and the reaction mechanism were proposed. Finally, the ability to form ion pair contact of ILs in aqueous solutions was evaluated for CO2 capture. Great results were obtained and this success can be attributed to the occurrence of physical and chemical sorption due to water activation by the IL.

Líquidos iônicos : Imidazólio

Deuteração

Imidazóis

Imidazolium based ionic liquids

NMR

CO2 capture

Guest@host complex

Contact ion pair

Neutral base

Deuteration reaction