SYNTHESIS AND VISCOELASTIC PROPERTIES OF GELS OBTAINED FROM LINEAR AND BRANCHED POLYMERS

Debnath, Dibyendu, Debnath

24 May 2018

No description available.

Polymer Chemistry

Polymers

Chemistry

Materials Science

SYNTHESIS AND VISCOELASTIC PROPERTIES OF GELS OBTAINED FROM LINEAR AND BRANCHED POLYMERS

Debnath, Dibyendu

24 May 2018

No description available.

Chemistry

Materials Science

Polymer Chemistry

Polymers

Die Aktivierung von reaktionsträgen kleinen Molekülen an koordinativ ungesättigten Beta-Diketiminato-Nickelkomplexen

Holze, Patrick

06 September 2016

Kleine Moleküle wie Treibhausgase, aber auch Distickstoff und Disauerstoff stehen im Fokus der chemischen Forschung. Solche Moleküle sind durch ihr Vorkommen in der Atmosphäre ubiquitär vorhanden, preiswert und könnten als Synthesebausteine für die Darstellung von komplexeren Molekülen verwendet werden. In dieser Arbeit wurde die Reaktion koordinativ ungesättigter Diketiminato-Nickelkomplexe ([LNi] Komplexe) mit kleinen Molekülen untersucht. Zunächst wurden die Mechanismen der N2-Aktivierung durch reduzierte [LtBuNiI]- und [LMe6NiI] Komplexe miteinander verglichen. Dabei konnte das distickstoffaktivierende Schlüsselintermediat identifiziert und strukturell charakterisiert werden. Weiter wurden die N2-Komplexe [(LtBuNiI)( 1 1 N2)] bzw. K2[(LtBuNiI)( 1 1 N2)], die Vorläufer für [LNiI]- und [LNi0]– Komplexfragmente darstellen, hinsichtlich ihrer Potentials zur Aktivierung der reaktionsträgen Treibhausgase SF6 und NF3 untersucht. Über Reaktionen von Übergangsmetallkomplexen mit NF3 war bis dahin noch nicht berichtet worden; zur Umsetzung von SF6 existierten wenige Publikationen, in denen aber sehr viele mechanistische Fragen offengeblieben sind. Die Mechanismen der SF6- und NF3-Aktivierung wurden durch Kombination einer Vielzahl von ex- und in situ Analysen beleuchtet. Im Falle der SF6 Aktivierung gelang es zudem, ein Nickel(I)-Intermediat zu isolieren. Ein Produkt beider Systeme war der Fluorido-Nickel(II)-Komplex [LtBuNiIIF], dessen Reaktionsverhalten ebenfalls studiert wurde. Doch nicht nur Komplexe mit Nickelatomen in niedrigen Oxidationsstufen erwiesen sich für die Aktivierung kleiner Moleküle geeignet, sondern auch kationische [LtBuNiII(D)]+-Komplexe. Diese Nickel(II)-Komplexe reagierten mit fluorierten Molekülen, N2O sowie O2, was bemerkenswert ist, da Nickel(II)-Komplexe üblicherweise inert gegenüber O2 sind. Im Zuge der O2-Studien wurde ein metastabiler Oranoperoxidkomplex isoliert und strukturell charakterisiert, was beispiellos in der Literatur ist. / Current research focuses on the activation of small molecules like greenhouse gases, thermodynamically stable molecules like N2 and kinetically stabilized molecules like O2, which are all abundant in the atmosphere. Thus, it appears to be alluring to use them as cheap and readily available building blocks for the synthesis of value-added compounds. This dissertation deals with the reaction of low-coordinate diketiminate nickel complexes [LNi] and such small molecules. Initially, the mechanisms of the dinitrogen activation by reduced [LtBuNiI] and [LMe6NiI] complexes were studied. As a result, the key intermediate [(LtBuNiI)x(3 Br)xKx] (x > 1) was identified and structurally characterized. Subsequently, the nickel complexes [(LtBuNiI)( 1 1 N2)] and K2[(LtBuNiI)( 1 1 N2)], which represent sources for [LtBuNiI] and [LtBuNi0]– moieties, were applied to the activation of the inert, but very efficient greenhouse gases SF6 and NF3. Prior to these investigations, no transition metal complex had been reported to react with NF3. Publications dealing with the conversion of SF6 had been scarce, too, while at same time, the mechanisms involving its activation had been speculative. The mechanisms of the NF3 and SF6 activation reactions were deduced combining numerous ex-situ and in situ analytical methods. In case of the SF6 activation, even an intermediate could be isolated. In both systems, the nickel fluoride complex [LtBuNiIIF] was formed and its reaction behaviour was also studied. Furthermore, not only [LtBuNiI]- and [LtBuNi0]– moieties proved to be reactive towards small molecules, but also cationic [LtBuNiII(D)]+ complexes, which were specifically developed for this purpose. The reactions of [LtBuNiII(D)]+ complexes with fluorinated molecules (e. g. PhF, NF3), O2 and N2O were studied. In course of the O2 activation, a metastable organoperoxide complex was isolated and structurally characterized, which is unparalleled in the literature.

Reaktionsmechanismen

Treibhausgase

Nickelkomplexe

Organometallchemie

Aktivierung von kleinen Molekülen

Schwefelhexafluorid

Diketiminato-Komplexe

Stickstofftrifluorid

Disauerstoff

Lachgas

Distickstoffmonoxid

kationische Komplexe

schwach koordinierende Anionen

paramagnetisches NMR

NMR-Spektroskopie

ESR-Spektroskopie

Reaktionsverlaufsstudien

C-F-Aktivierung

N-F-Aktivierung

S-F-Aktivierung

reaction mechanisms

EPR spectroscopy

nickel complexes

organometallic chemistry

small molecule activation

sulfur hexafluoride

diketiminate complexes

nirtogen trifluoride

dioxygen

dinitrogen monoxide

cationic complexes

weakly coordinating anions

paramagnetic NMR spectroscopy

NMR spectroscopy

in-situ methods

greenhous gases

C-F activation

N-F activation

S-F activation

540 Chemie

30 Chemie

VH 7907

VH 6007

ddc:540

Structural and functional characterisation of the collagen binding domain of fibronectin

Millard, Christopher John

January 2007

Fibronectin is an extracellular multidomain glycoprotein that directs and regulates a variety of cell processes such as proliferation, development, haemostasis, embryogenesis, and wound healing. As a major component of blood, fibronectin exists as a soluble disulphide linked dimer, but it can also be incorporated into an insoluble cross-linked fibrillar network to form a major component of the extracellular matrix. Fibronectin is composed of an extended chain of module repeats termed Fn1, Fn2, and Fn3 that bind to a wide range of transmembrane receptors and extracellular matrix components, including collagen. The gelatin binding domain of fibronectin was first isolated as a 45kDa proteolytic fragment and has since been found to be composed of six modules: 6Fn1-1Fn2-2Fn2-7Fn1-8Fn1-9Fn1 (in this notation nFX represents the nth type X module in the native protein). This domain has been reported to bind to both collagen and denatured collagen (gelatin), but with 10-100 times higher affinity to the latter; it can be purified to homogeneity on a gelatin affinity column. In the work presented here, fragments of the gelatin binding domain are expressed in P. pastoris, purified to homogeneity, and investigated at the molecular level. Through a dissection approach, surface plasmon resonance (SPR) is used to characterise the recombinantly produced protein, to accumulate more information about the function of the full domain. NMR is used to assess the folding of the protein fragments at atomic resolution. In particular, the secondary structure of 8Fn1-9Fn1 is mapped using inter-strand NOEs, which suggests that the construct takes the fold of a pair of typical Fn1 modules. Gelatin affinity chromatography is used to confirm that both Fn1 and Fn2 modules contribute to gelatin binding, possibly in two clusters (1Fn2-2Fn2 and 8Fn1-9Fn1). The 7Fn1 module may perform a structural role in linking together these two interaction sites, in the same way as suggested for 6Fn1, which is thought to act in a structural manner to enhance the binding of 1Fn2-2Fn2 to gelatin. Three carbohydrate moieties are found on this domain, one on 2Fn2 and two on 8Fn1. Here, by means of expressing different protein length fragments, and by site directed mutagenesis, the role of each sugar chain is investigated independently. The sugar chain on 2Fn2 does not appear to promote binding to collagen, nor does the first sugar chain on 8Fn1 (N-linked to N497), implying another role for these sugars such as protection from proteolysis. However, the presence of at least a single GlcNAc sugar residue on the second sugar chain site on 8Fn1 (N- linked to N511) is essential for full affinity binding to collagen. Direct binding of the 8Fn1-9Fn1 module pair to collagen is assessed with a short collagen peptide and the binding is monitored by NMR. The peptide appears to bind, predominantly to the final strand of 8Fn1, the first β- strand of 9Fn1, and the linker between the two modules, with μM affinity. A model for bound peptide is proposed. The highly conserved amino acid motif Ile-Gly-Asp (IGD) is found on four of the nine N-terminal Fn1 modules of fibronectin. Tetrapeptides containing the IGD were demonstrated to promote the migration of fibroblast cells into a native collagen matrix. Two of these “bioactive” IGD motifs are found within the gelatin binding domain, one on 7Fn1 and one on 9Fn1. In this study, the motif in the 8Fn1-9Fn1 module pair is shown to be located in a tightly constrained loop within 9Fn1. By site directed mutagenesis, the IGD motifs of 7Fn1 and 9Fn1 are subjected to single amino acid substitutions, and their ability to stimulate cell migration assessed in our assay. By NMR, the fold of the IGD mutant proteins is found to be unaffected by the mutation with respect to the wild type, with the exception of small perturbations around the substitution site. While the wild type module is able to stimulate fibroblast migration, the mutant proteins show reduced or negligible bioactivity. The larger fragments show far more potency in stimulating fibroblast migration, with 8Fn1-9Fn1 (one IGD motif) 104 times more potent than the IGD peptide, and the full gelatin binding domain (two IGD motifs) 106 times more potent than the 8Fn1-9Fn1. Potential mechanisms for this enormous enhancement of the IGD potency in different contexts are discussed.

572.6

Coherent transfer between electron and nuclear spin qubits and their decoherence properties

Brown, Richard Matthew

January 2012

Conventional computing faces a huge technical challenge as traditional transistors will soon reach their size limitations. This will halt progress in reaching faster processing speeds and to overcome this problem, require an entirely new approach. Quantum computing (QC) is a natural solution offering a route to miniaturisation by, for example, storing information in electron or nuclear spin states, whilst harnessing the power of quantum physics to perform certain calculations exponentially faster than its classical counterpart. However, QCs face many difficulties, such as, protecting the quantum-bit (qubit) from the environment and its irreversible loss through the process of decoherence. Hybrid systems provide a route to harnessing the benefits of multiple degrees of freedom through the coherent transfer of quantum information between them. In this thesis I show coherent qubit transfer between electron and nuclear spin states in a ¹⁵N@C₆₀ molecular system (comprising a nitrogen atom encapsulated in a carbon cage) and a solid state system, using phosphorous donors in silicon (Si:P). The propagation uses a series of resonant mi- crowave and radiofrequency pulses and is shown with a two-way fidelity of around 90% for an arbitrary qubit state. The transfer allows quantum information to be held in the nuclear spin for up to 3 orders of magnitude longer than in the electron spin, producing a ¹⁵N@C₆₀ and Si:P ‘quantum memory’ of up to 130 ms and 1.75 s, respectively. I show electron and nuclear spin relaxation (T₁), in both systems, is dominated by a two-phonon process resonant with an excited state, with a constant electron/nuclear T₁ ratio. The thesis further investigates the decoherence and relaxation properties of metal atoms encapsulated in a carbon cage, termed metallofullerenes, discovering that exceptionally long electron spin decoherence times are possible, such that these can be considered a viable QC candidate.

004.1

Hybrid ferrocene-based systems

Kelly, Michael Jon

January 2014

This thesis explores the capacity of sterically and electronically unsaturated boranes to bind substrates of biological and environmental interest, and transduce such binding events into a photo-physical and/or electrochemical response, hence reporting the presence of these substrates. Chapter three details the synthesis of a range of novel ferrocenyl boranes featuring either a proximal hydrogen-bond donor or a second Lewis acidic centre. These novel boranes were shown to be competent at binding both cyanide and fluoride anions, with the role played by a proximal hydrogen-bond donor or a second Lewis acidic centre in anion binding investigated by both NMR and crystallographic studies. Chapter four reports the synthesis of novel pyridinyl and related boronic esters, as well as unexpected mixed alkenyl/aryl boranes. The capacity of both types of system to bind fluoride or cyanide anions in solution was investigated by UV-Vis and NMR studies. The photo-physical responses to these anions were also probed, leading to the establishment of both switch-on and switch-off fluorescent responses. Chapter five extends the knowledge derived from selective anion receptor design and combines this with recent developments in the field of frustrated Lewis pairs (FLPs) to activate, bind and report the presence of nitrous oxide (N₂O) molecule. Thus, the syntheses of novel, highly Lewis acidic ferrocenyl boranes that incorporate a high degree of steric loading around the boron centre are reported. The electrochemical and photo-physical response of an FLP system to the presence of N₂O was investigated leading to the development of a novel N₂O reporting system.

546

Sulfonamide supported catalysts for the ring opening polymerisation of cyclic esters

Schwarz, Andrew Douglas

January 2010

This Thesis describes the synthesis and characterisation of sulfonamide supported titanium, zirconium and aluminium complexes and their use as ring opening polymerisation catalysts for ε-caprolactone and rac-lactide. Chapter 1 introduces polyester use, development and characterisation in general. Metal catalysed ring opening polymerisation of cyclic esters is considered in a literature review of the field. Titanium, zirconium and aluminium complexes supported by polydentate sulfonamide ligands are also discussed. Chapter 2 describes the synthesis and characterisation of new sulfonamide supported titanium amide, isopropoxide and zirconium isopropoxide complexes. Their application as catalysts for the ring opening polymerisation of ε-caprolactone and rac-lactide is discussed and compared with known zirconium isopropoxide complexes supported by bis(phenolate) amine ligands. Chapter 3 describes the synthesis and characterisation of Cs symmetric titanium amide and alkoxide complexes supported by dianionic, tri- and tetradentate sulfonamide ligands. Zirconium alkyl and amide complexes supported by C3- symmetric trianionic ‘tren’ type ligands bearing three different sulfonamide groups are also presented. The application of these complexes for the ring opening polymerisation of ε-caprolactone and rac-lactide is described and compared with the complexes presented in Chapter 2. Chapter 4 provides an overview of the synthesis and characterisation of aluminium alkoxide and alkyl complexes supported by dianionic, tri- and tetradentate sulfonamide ligands. Solution state behaviour and solid state structures are presented and discussed. An assessment of these complexes for the ring opening polymerisation of rac-lactide is presented. Chapter 5 presents full experimental procedures and characterisation data for the new complexes reported. CD Appendix contains .cif files for all new crystallographically characterised complexes described, and additional polymerisation graphs.

541.39

Chemistry of Cyanoform (Tricyanomethane); and Rearrangement of 1H-1,2,3-Triazoles to the Corresponding 2H-Isomers / Die Chemie des Cyanoforms (Tricyanomethan) und Umlagerung von 1H-1,2,3-Triazolen in die entsprechenden 2H-Isomere

Chityala, Madhu

28 March 2017

Cyanoform (tricyanomethane) is one of the strongest carbon-based organic acids reported in text books of organic chemistry, which has evaded synthesis and isolation in its free state, since 120 years. In this dissertation, the acid-free synthesis of cyanoform by an absolutely new approach has been discussed. Generation of the elusive molecule, cyanoform from the photolysis and thermolysis of 2-(azidomethylidene)malononitrile, has been confirmed at very low temperatures by 1H NMR, 13C NMR, 15N NMR, and the relevant 2D NMR spectroscopic techniques. Moreover, it has been proved that cyanoform is relatively stable, but can be detected only below –85 oC, and not at high temperatures (at –45 oC, as has been reported in literature), because of a rapid equilibration with an another species. Furthermore, the chemistry of cyanoform in the ring enlargement reactions with various highly strained epoxides, azirines, and aziridines, via the highly reactive dicyanoketenimine intermediate, as well as its Michael addition reactions with different α,β-unsaturated carbonyl compounds has been well explored. In addition, the synthesis of N1-substituted 1,2,3-triazoles and study of their rearrangement to the corresponding N2-substituted 1,2,3-triazoles, under thermal and nucleophile-catalyzed reaction conditions, has been well investigated. / Cyanoform (Tricyanomethan) ist eine der stärksten in der Literatur beschriebenen organischen Kohlenstoffsäuren, welche sich seit 120 Jahren einer erfolgreichen Synthese und Isolierung entzogen hat. In dieser Arbeit wird die säurefreie Synthese des Cyanoforms mittels eines neuartigen Ansatzes diskutiert. Die Bildung des schwer fassbaren Moleküls durch Photolyse und Thermolyse von 2 (Azidomethyliden)malonitril ist bei tiefen Temperaturen durch 1H-NMR, 13C-NMR, 15N-NMR und relevante 2D-NMR-Methoden bestätigt worden. Es konnte bewiesen werden, dass Cyanoform relative stabil ist, aber erst unterhalb von –85 °C detektierbar ist und nicht bereits bei hӧherer Temperature (bei –45 °C, wie es in der Literatur beschrieben wurde) bedingt durch die rasche Äquilibrierung mit einer weiteren Species. Des Weiteren wurde die Reaktivität von Cyanoform in Ringerweiterungsreaktionen mit verschiedenen, stark gespannten Epoxiden, Azirinen und Aziridinen untersucht, wobei das hoch reaktive Dicyanoketenimin-Intermediat durchlaufen wird. Auch die Michael-Addition an α,β ungesättigte Carbonylverbindungen wurde ausführlich untersucht. Zusätzlich wurde die Synthese N1 substituierter 1,2,3-Triazole und deren Umlagerung in N2 substituierte 1,2,3-Triazole unter thermischen und nucleophil-katalysierten Bedingungen erforscht.

Cyanoform

Tricyanomethan

Dicyanoketenimin

Hydroniumtricyanomethanid

2-(Azidomethyliden)malonitril

CH-Säure

Tieftemperatur-NMR-Spektroskopie

Ringerweiterungsreaktionen

Michael-Addition

Triazole

Umlagerungsreaktionen

Cyanoform

Tricyanomethane

Dicyanoketenimine

Hydronium tricyanomethanide

2-(azidomethylidene)malononitrile

CH-acid

Low temperature NMR spectroscopy

Ring enlargement reactions

Michael addition

Triazoles

Rearrangement reactions

ddc:547

Chemie

Säure

Fotolyse

Antimikrobiální peptidy izolované z jedu blanokřídlého hmyzu / Antimicrobial peptides isolated from the venom of hymenopterous insect

Monincová, Lenka

January 2014

Rapid development of bacterial resistance and multiresitance to conventional antibiotics has resulted in an intensive search for alternative antimicrobial agents. Antimicrobial peptides (AMPs) belong to promising anti-infective candidates since they do not development bacterial resistance. They kill microbes by disturbing or permeabilizing the cytoplasmic membrane, or may target putative key intracellular compartments. Their advantages include fast action and selectivity between prokaryotic and eukaryotic cells. We have isolated several novel AMPs from the venom of wild bees: halictines (HAL-1 and HAL-2) from Halictus sexcinctus, lasiocepsin (Las) from Lasioglossum laticeps and macropin (MAC-1) from Macropis fulvipes. They are active against Gram-positive and Gram- negative bacteria and against yeast Candida albicans. While halictines and macropin have moderate hemolytic activity, Las shows no hemolytic activity. A novel AMP was isolated also from the mucus of Xiphydria camelus. This AMP belongs to the category of insect defensins. It contains 55 amino acid residues, three disulphide bridges and its C-terminus is amidated. CD and NMR studies of HAL-1, HAL-2 and MAC-1 revealed propensity to form amphipathic α-helical structure in the presence of sodium dodecyl sulfate or trifluoroethanol. For the...

Spectroscopie RMN du 1H pondérée en diffusion, du 13C et du 17O : développements méthodologiques pour l’étude de la structure et de la fonction cellulaire in vivo / 1H diffusion-weighted, 13C and 17O NMR spectroscopy : methodological developments to study brain structure and function in vivo

Najac, Chloé

26 September 2014

La spectroscopie par résonance magnétique nucléaire (RMN) est un outil puissant permettant d’acquérir des profils biochimiques du cerveau et de quantifier de nombreux paramètres cellulaires in vivo. Au cours de ce travail de thèse, nous nous sommes intéressés à trois techniques : (i) la spectroscopie RMN du 1H pondérée en diffusion, (ii) la spectroscopie RMN du carbone-13 (13C) et (iii) de l’oxygène-17 (17O) pour étudier la microstructure et la fonction cellulaire in vivo.Les métabolites cérébraux sont des traceurs endogènes spécifiques d’un type cellulaire (neurones et astrocytes) dont la diffusion dépend des nombreuses propriétés cellulaires (par exemple la viscosité du cytosol et la restriction intracellulaire). L’étude de la dépendance du coefficient de diffusion (ADC) aux temps de diffusion (td) permet de quantifier chacun de ces paramètres. En particulier, la mesure de l’ADC aux td longs permet d’évaluer la compartimentation des métabolites. Dans une première étude, nous avons mesuré l’ADC de plusieurs métabolites neuronaux et astrocytaires sur une large gamme de td (de ~80 ms à ~1 s) dans un large voxel dans le cerveau du macaque. Aucune dépendance de l’ADC de l’ensemble des métabolites au td n’a été observée suggérant que les métabolites diffusent majoritairement dans les prolongements neuronaux (axones, dendrites) et astrocytaires et ne sont pas confinés dans le corps cellulaire ou les organelles (mitochondries, noyau). La grande taille du voxel, liée à la sensibilité de détection limitée, ne nous a pas permis d’étudier la compartimentation des métabolites dans la substance blanche (SB) et la substance grise (SG). C’est pourquoi, une nouvelle étude a été réalisée dans le cerveau de l’Homme. Les résultats montrent que les métabolites diffusent dans des structures fibrillaires dans la SG et la SB. Enfin, une dernière étude, avec une gamme de td jusqu’à 2 s chez le macaque, nous a permis d’estimer, à l’aide de modèles analytiques simples mimant la structure cellulaire, la longueur des fibres neuronales (~110 μm) et astrocytaires (~70 μm). L’oxydation du glucose au sein des mitochondries permet de produire l’ATP (adénosine triphosphate), la principale source d’énergie de l’organisme. La spectroscopie du 13C permet de mesurer la vitesse de dégradation du glucose dans le cycle de Krebs (VTCA). Cette méthode est largement reconnue pour l’étude du métabolisme. Néanmoins, de nombreuses limitations, en termes de modélisation des données en détection indirecte ou de puissance émise dans le contexte du découplage hétéronucléaire en détection directe, ont été rencontrées sur notre scanner IRM. C’est pourquoi, la spectroscopie du 17O a ensuite été développée afin de quantifier la vitesse de consommation de l’oxygène pendant la phosphorylation oxydative (CMRO2). Des développements méthodologiques et technologiques ont été nécessaires et sont encore en cours pour mettre en place et valider cette technique qui n’a encore jamais été utilisée chez le macaque. / Magnetic Resonance Spectroscopy is a unique tool that allows acquiring brain biochemical profiles and quantifying many cellular parameters in vivo. During this thesis, three different techniques have been developed: (i) 1H diffusion-weighted, (ii) carbone-13 (13C) and (iii) oxygen-17 (17O) NMR spectroscopy to study brain structure and function in vivo. Brain metabolites are cell-specific endogeneous tracers of the intracellular space whose translational diffusion depends on many cellular properties (e.g.: cytosol vicosity and intracellular restriction). Studying the variation of the diffusion coefficient (ADC) as a function of diffusion time (td) allows untangling and quantifying those parameters. In particular, measuring metabolites ADC at long diffusion times gives information about the metabolites compartmentation in cells. In a first study, we measured neuronal and astrocytic metabolites ADC over a large time window (from ~80 ms to ~1 s) in a large voxel in the macaque brain. No dependence of all metabolites ADC on td was observed suggesting that metabolites primarily diffuse in neuronal (dendrites and axons) and astrocytic processes and are not confined inside the cell body and organelles (nucleus, mitochondria). The large size of the voxel, due to low detection sensitivity, did not allow us to study metabolites compartmentation in pure white (WM) and grey matters (GM). Therefore, we performed a new study in the human brain. Results showed that in both WM and GM metabolites diffuse in fiber-like cell structure. Finally, using an even larger time window (up to 2 s) in the macaque brain and analytical models mimicking the cell structure, we estimated the length of neuronal (~110 μm) and astrocytic (~70 μm) processes. ATP (adenosine triphosphate), the main source of energy in the organism, is produced thanks to glucose oxidation inside the mitochondria. 13C NMR spectroscopy is a well-known technique to study brain energy metabolism and can be used to estimate the rate of glucose degradation within the Krebs cycle (VTCA). However, many limitations, concerning data modeling when performing indirect detection or power deposition due to heteronuclear decoupling during direct detection, were encountered on our MRI scanner. Therefore, 17O NMR spectroscopy was developed to quantify the rate of oxygen consumption during oxidative phosphorylation (CMRO2). Methodological and technological developments were necessary and are still ongoing to validate this technique, which has never been used with macaque.

Spectroscopie RMN

Proton

Oxygène-17

Carbone-13

Coefficient de diffusion apparent

Vitesse du cycle de Krebs

Consommation cérébrale en oxygène

Structure cellulaire

Métabolisme énergétique

Diffusion

Modélisation

NMR spectroscopy

Proton

Oxygen-17

Carbon-13

Apparent diffusion coefficient

Krebs cycle rate

Cerebral metabolic rate of oxygen

Cell structure

Energy metabolism

Diffusion

Modeling