Separation of Water and Fat Signal in Magnetic Resonance Imaging : Advances in Methods Based on Chemical Shift

Berglund, Johan

January 2011

Magnetic resonance imaging (MRI) is one of the most important diagnostic tools of modern healthcare. The signal in medical MRI predominantly originates from water and fat molecules. Separation of the two components into water-only and fat-only images can improve diagnosis, and is the premier non-invasive method for measuring the amount and distribution of fatty tissue. Fat-water imaging (FWI) enables fast fat/water separation by model-based estimation from chemical shift encoded data, such as multi-echo acquisitions. Qualitative FWI is sufficient for visual separation of the components, while quantitative FWI also offers reliable estimates of the fat percentage in each pixel. The major problems of current FWI methods are long acquisition times, long reconstruction times, and reconstruction errors that degrade image quality. In this thesis, existing FWI methods were reviewed, and novel fully automatic methods were developed and evaluated, with a focus on fast 3D image reconstruction. All MRI data was acquired on standard clinical scanners. A triple-echo qualitative FWI method was developed for the specific application of 3D whole-body imaging. The method was compared with two reference methods, and demonstrated superior image quality when evaluated in 39 volunteers. The problem of qualitative FWI by dual-echo data with unconstrained echo times was solved, allowing faster and more flexible image acquisition than conventional FWI. Feasibility of the method was demonstrated in three volunteers and the noise performance was evaluated. Further, a quantitative multi-echo FWI method was developed. The signal separation was based on discrete whole-image optimization. Fast 3D image reconstruction with few reconstruction errors was demonstrated by abdominal imaging of ten volunteers. Lastly, a method was proposed for quantitative mapping of average fatty acid chain length and degree of saturation. The method was validated by imaging different oils, using gas-liquid chromatography (GLC) as the reference. The degree of saturation agreed well with GLC, and feasibility of the method was demonstrated in the thigh of a volunteer. The developed methods have applications in clinical settings, and are already being used in several research projects, including studies of obesity, dietary intervention, and the metabolic syndrome.

Magnetic resonance imaging

digital image reconstruction

chemical shift imaging

water and fat separation

Dixon method

fat suppression

quantitative MRI

whole-body MRI

fatty acid composition

fat unsaturation

triglycerides

adipose tissue

liver fat

T2* mapping

Radiology

Radiologi

Flexibilidade conformacional do domínio catalítico da fosfatase Cdc25B / Conformational flexibility of the catalytic domain of Cdc25B phosphatase

Raphael Santa Rosa Sayegh

14 March 2016

A fosfatase Cdc25B atua na progressão do ciclo celular através da ativação de complexos Cdk/Ciclina. Atualmente, nos modelos estruturais propostos do domínio catalítico da Cdc25B não estão incluídos os últimos 16 resíduos da região C-terminal. Este segmento tem importante papel no reconhecimento do substrato proteico e pode estar envolvido na complexação de pequenas moléculas com a Cdc25B. Assim, o principal objetivo desta tese foi avaliar a flexibilidade conformacional do domínio catalítico completo da Cdc25B em solução através de simulações computacionais e por medidas experimentais de ressonância magnética nuclear (RMN). A similaridade entre as estruturas cristalográficas e em solução foi confirmada pela previsão de ângulos diedrais φ/ψ da cadeia principal a partir dos deslocamentos químicos (CS) e pela concordância entre os acoplamentos dipolares residuais (RDC) medidos e calculados a partir da geometria cristalina. Medidas de parâmetros de relaxação de 15N e RDC evidenciaram a presença de desordem conformacional na região C-terminal, em acordo com a ausência de densidade eletrônica desse segmento no experimento de difração de raios-X. Através da comparação entre CS experimentais e previstos de simulações de dinâmica molecular (DM) longas (total de 6µs de duração) foram apontados artefatos de cristalização, possíveis erros nos campos de força usados nas simulações, falhas na composição do sistema simulado e estados conformacionais populados pela Cdc25B em solução distintos da geometria cristalográfica. De maneira geral, os CS previstos a partir das simulações para a flutuação estrutural dos resíduos da região C-terminal desordenada estão em acordo com os valores experimentais, sugerindo que os estados conformacionais deste segmento foram razoavelmente bem amostrados nas simulações. Em particular, verificou-se que o contato tipo cátion-π entre as cadeias laterais dos resíduos 550W do C-terminal desordenado e 482R do núcleo proteico, ausente na estrutura cristalográfica, pode ser importante em solução. A formação desse contato na simulação de DM também está de acordo com medidas experimentais de perturbação de deslocamentos químicos (CSP) entre construções completa e truncada do domínio catalítico da Cdc25B. Assim, através do uso conjunto de simulações computacionais e medidas experimentais foi possível obter uma representação mais completa e realista da flexibilidade conformacional do domínio catalítico da Cdc25B em solução, incluindo a determinação de possíveis contatos intramoleculares entre a região C-terminal desordenada e o núcleo proteico. Essas informações poderão ser usadas na construção de um ensemble conformacional da Cdc25B. / Cdc25B phosphatase acts on the progression of cell cycle through the activation of Cdk/Cyclin complexes. Currently, the proposed structural models of Cdc25B catalytic domain lack the last 16 residues from the C-terminal region. This segment is important for protein substrate recognition and might be involved in small molecule binding to Cdc25B. Thus, the main goal of this thesis was to evaluate the conformational flexibility of the complete catalytic domain from Cdc25B through computer simulations and experimental nuclear magnetic resonance (NMR) measurements. Similarity between crystal and in solution structures was confirmed by the prediction of backbone φ/ψ dihedral angles from chemical shifts (CS) and by the agreement between observed and back-calculated residual dipolar couplings (RDC). 15N relaxation and RDC measurements pointed to the conformational disorder of the C-terminal region, in agreement with the X-ray diffraction experiment where this segment showed no electronic density. Comparison between experimental and predicted CS from long molecular dynamics (MD) simulations (6µs total running time) pointed to the presence of crystallographic artifacts, possible deficiencies in simulation force fields, inaccurate composition of the simulated system and conformational states visited by Cdc25B in solution that were not observed in the crystallographic geometry. Generally, CS predicted from simulations for the structural fluctuation of the disordered C-terminal region were in agreement with experimental values, suggesting that the simulations sampled the conformational states populated by this segment reasonably well. In particular, a cation-π contact not observed in the crystal structure between side chains of residue 550W from the disordered C-terminal tail and residue 482R from the protein core might be important in solution. This contact is also in agreement with experimental chemical shift perturbations (CSP) measured between complete and truncated constructs of Cdc25B catalytic domain. Therefore, the joint use of computer simulations and experimental measurements allowed the achievement of a more complete and realistic representation of the conformational flexibility of the Cdc25B catalytic domain in solution, including intramolecular contacts between the disordered C-terminal region and the protein core. This information might be used to obtain a conformational ensemble of Cdc25B.

Acoplamento dipolar residual

Contatos intramoleculares

Desordem conformacional

Dinâmica molecular

Parâmetros de ordem

Ressonância magnética nuclear

RMN

Simulação computacional

Trajetória do deslocamento químico

Chemical shift trajectory

Computer simulation

Conformational disorder

Intramolecular contacts

Molecular dynamics

NMR

Nuclear magnetic resonance

Order parameter

Residual dipolar coupling

Diferenciação de angiomiolipomas pobres em gordura de neoplasias renais malignas, com uso de ressonância magnética multiparamétrica / Differentiation fat-poor angiomyolipoma of malignant kidney tumors with use of multiparametric MRI sacans

Paulo Henrique Moreira Alves

29 May 2015

Introdução: com o uso generalizado de métodos de imagem, aumentou-se a detecção de lesões renais como achados incidentais. Tais lesões podem ser tanto benignas, tais como os angiomiolipomas, e outras malignas, como os carcinomas de células renais, portanto torna-se importante um método não-invasivo com boa acurácia para sua distinção . A ultrassonografia é pouco específica para este fim. A tomografia computadorizada e a ressonância magnética são os métodos mais utilizados na caracterização de lesões incidentais renais. Na Ressonância Magnética, o uso de sequências convencionais ponderadas em T2W e T1W, antes e após a administração endovenosa de contraste paramagnético, mostrou-se pouco eficaz para este fim. Técnicas quantitativas associadas às imagens convencionais, tais como a oposição de fase e a restrição a difusão da água, vêm sendo estudadas, devido ao potencial para melhorar a caracterização não-invasiva, evitando nefrectomias parciais ou totais, e outras intervenções invasivas por lesões benignas. Objetivos: avaliar a acuidade diagnóstica de técnicas combinadas de ressonância magnética para diferenciação de angiomiolipomas pobres em gordura de lesões malignas do rim. Métodos: pacientes que obtiveram o diagnóstico histológico das lesões renais entre os anos de 2010 e 2014 e que realizaram exame pré-operatório. As lesões foram estudadas, colocando-se um ROI (region of interest, no inglês) na maior parte da lesão e córtex renal normal, evitando-se área de não-lesões, calculando a intensidade de sinal nas seqüências T1W in e out-phase, T2W, o Wash in, Wash out relativo e absoluto das lesões e o cálculo absoluto do sinal da lesão no ADC (coeficiente de difusão aparente, do inglês). Os resultados foram obtidos na forma de índices padronizados pelo córtex renal e baço, pelas fases pré e pós-contraste, e de forma absoluta pelo ADC. Os resultados foram confrontados com o diagnóstico final e feito associações estatísticas para observar a relevância. Resultados:Foram estudadas 85 lesões em 74 pacientes, sendo 40 do gênero masculino e 34 do feminino. O cálculo do teor de gordura se mostrou ineficaz para distinção entre CCRs e AMLpg; o índice de intensidade de sinal em T2W, lesão/córtex normal foi útil na diferenciação dos CCRs CC de AMLpg. Outro parâmetro importante foi a cálculo de wash out relativo que se mostrou mais acentuado no AMLpg que em todos os subtipos de CCRs estudados e da medida do ADC médio, que apresentou valores maiores nos casos de CCR CC, em comparação com os outros subtipos e com os AMLpg. Conclusão: As técnicas combinadas de RM, principalmente o índice de sinal T2W da lesão, Wash out relativo e IS do ADC, associados a dados epidemiológicos são viáveis, quando utilizados em conjunto, para a diferenciação de lesões malignas renais dos angiomiolipomas, podendo ter implicações na conduta terapêutica, com redução do número de nefrectomias por lesão benignas. / Introduction: With the widespread use of imaging methods, detection of incidental renal masses has steadily increased in recent years, and these may be either benign, such as angiomyolipoma, or malignant, such as renal cell carcinomas. Therefore, it is important to have a method that allows accurate characterization. Ultrassonography is not very specific for this purpose. CT and MRI are the methods used in the characterization of renal incidental lesions. In MRI, the use of conventional sequences, such as T1W and T2W before and after intravenous administration of paramagnetic contrast media, has proved ineffective for this purpose. Quantitative techniques associated with conventional images, such as chemical shift and diffusion weighted imaging (DWI), have played a key role in this differentiation, which aims to improve characterization, avoiding partial or total nephrectomy, and other invasive interventions for benign lesions. Objectives: to evaluate the diagnostic accuracy of combined techniques of MRI to differentiate fat-poor angiomyolipoma from renal cell carcinomas. Methods: Patients who had a histological diagnosis of renal lesions between 2010 and 2014 and underwent pre-operative exam. An ROI (region of interest)cwas placed in most of the lesion and normal renal cortex, avoiding area of non lesions, by calculating the signal intensity in all sequences, in and out phase T1W, T2W, and the wash in, wash out, relative and absolute, of the lesions and estimation of the ADC. The results were obtained in the form of standardized indices for renal cortex and spleen, the pre- and post-contrast phases, and absolute values for ADC. Results were confronted with the final diagnosis and statistical analysis to observe the relevancy. Results: the estimation of intracellular fat content was ineffective for characterization, while the T2W signal intensity index was used for differentiation between CCRs clear cells from fat-poor AML. Another important parameter was the \"wash out\", which was more prominent for AMLpg. ADC values was higher for CCR CC. Conclusion: We concluded that the combined techniques of MRI mainly T2W signal ratio, \"Wash out\" and ADC values, when used in association and correlated with epidemiological data may be feasible for the differentiation among fat-poor angiomyolipomas and renal malignancies, with important therapeutics implications, reducing unnecessary nephrectomies for benign lesions.

Angiomiolipoma pobre em gordura

Carcinoma de células renais

Células claras

Contraste paramagnético

Cromófobo

Desvio químico

Difusão

Papilífero

Realce

Ressonância Magnética

Teor de gordura

Chemical shift

Chromophobe

Clear cell

Diffusion

Enhancement

Fat-poor angiomyolipoma

MRI

Papillary

Paramagnetic

Renal cell carcinoma

Ajuste de funções de base atômicas para o cálculo de propriedades moleculares

Paschoal, Diego Fernando da Silva

26 August 2014

Submitted by isabela.moljf@hotmail.com (isabela.moljf@hotmail.com) on 2017-05-08T11:42:32Z No. of bitstreams: 1 diegofernandodasilvapaschoal.pdf: 9955630 bytes, checksum: a25cace9c9785b91c273376bf940d222 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-05-17T13:42:19Z (GMT) No. of bitstreams: 1 diegofernandodasilvapaschoal.pdf: 9955630 bytes, checksum: a25cace9c9785b91c273376bf940d222 (MD5) / Made available in DSpace on 2017-05-17T13:42:19Z (GMT). No. of bitstreams: 1 diegofernandodasilvapaschoal.pdf: 9955630 bytes, checksum: a25cace9c9785b91c273376bf940d222 (MD5) Previous issue date: 2014-08-26 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Um estudo sistemático a respeito da importância do nível de teoria e do conjunto de funções de base no cálculo de propriedades moleculares foi conduzido. Foram realizados estudos a respeito das propriedades ópticas lineares (OL) e não-lineares (ONL) de moléculas diatômicas, pequenas moléculas poliatômicas e moléculas orgânicas conjugadas com grupos doadores e retiradores de elétrons. Além disso, foi avaliada a estrutura e reatividade de complexos de Pt(II) e Pd(II). Por fim, um estudo a respeito do deslocamento químico de 195Pt foi conduzido, onde diversos parâmetros que influenciam em tal propriedade foram extensivamente analisados. Para cada trabalho proposto um novo conjunto de funções de base foi desenvolvido. Foram propostas as bases D10 (BH), P3 (CO), F3 (CS), J5 (N2), NLO (H,C,N,O,F,S), NLO-X (X=I,II,III,V,aV) (H,B-F,Si-Cl), mDZP (Pd,Pt), kPd-ADZP(Pd) e NMR-TZPP-DKH (H-He, Li-Ne, Na-Ar, K-Ca, Ga-Kr, Rb-Sr, In-Xe e Pt). Previsões das propriedades OL e ONL de diversas moléculas foram realizadas. Para um conjunto de moléculas com valores de primeira hiperpolarizabilidade (β) variando de 0 a 190 esu um desvio médio absoluto de 13,2 esu foi encontrado no nível cam-B3LYP/NLO-V em comparação com um desvio de 27,2 esu com a base da literatura 6-31G(2d). Além disso, foram realizados estudos de estrutura e reatividade da cisplatina e do cispaládio. Para a reação de hidrólise da cDDPt foi prevista uma barreira de energia no nível B3LYP/mDZP/6-31+G(d) de 22,8 kcal.mol-1 que está em excelente acordo com o valor experimental de 22,±0,4 kcal.mol-1. Considerando a mesma reação, porém para o análogo de Pd, um valor de 17,11 kcal.mol-1 no nível B3LYP/mDZP/6-31+G(d) e de 16,94 kcal.mol-1 no nível B3LYP/kPd-ADZP/6-31+G(d) foram previstos e estão em bom acordo com o valor esperado de 16,34 kcal.mol-1. Somado a isso, uma análise a respeito do deslocamento químico de 195Pt foi abordada, onde para uma ampla faixa de 73 complexos de Pt(II) um desvio absoluto médio de apenas 156 ppm foi encontrado no nível GIAO-B3LYP(DKHSO)/NMR-TZPP-DKH/IEFPCM-UFF. Todas as bases aqui propostas foram testadas de forma sistemática e, no geral, bons resultados foram encontrados para as propriedades analisadas e com custos computacionais altamente acessíveis. / A systematic study about the importance of the level of theory and the basis sets in the calculation of molecular properties was conducted. It performed studies on the linear and nonlinear optical properties of diatomic molecules, small polyatomic molecules and conjugated donor/acceptor organic molecules. In addition, the structure and reactivity of Pt(II) and Pd(II) complexes were evaluated. Finally, a study about the 195Pt chemical shift was conducted, where various parameters that influence such property have been extensively analyzed. For each work proposed a new basis set was developed. The following basis sets were proposed: D10 (BH), P3 (CO), F3 (CS), J5 (N2), NLO (H,C,N,O,F,S), NLO-X (X=I,II,III,V,aV) (H,B-F,Si-Cl), mDZP (Pd,Pt), kPd-ADZP(Pd) and NMR-TZPP-DKH (H-He, Li-Ne, Na-Ar, K-Ca, Ga-Kr, Rb-Sr, In-Xe e Pt). Estimates of L-NLO properties of several molecules were performed. For a set of molecules with values of first hyperpolarizability (β) ranging from 0 to 190 esu, an average absolute deviation of 13,2 esu was found at cam-B3LYP/NLO-V level compared with 27,2 esu with the standard basis set 6-31G(2d). Furthermore, studies of structure and reactivity of cisplatin and cispalladium were performed. For the aquation reaction of cisplatin an energy barrier of 22.8 kcal.mol-1 was predicted at B3LYP/mDZP/6-31+G(d) level, which it is in excellent agreement with the experimental value of 22.9±0.4 kcal.mol-1. Considering the same reaction, but for Pd analogous, a value of 17.11 kcal.mol-1 at B3LYP/mDZP/6-31+G(d) level and 16.94 kcal.mol-1 at B3LYP/kPd-ADZP/6-31+G(d) level were predicted and these values are in good agreement with the expected value of 16.34 kcal.mol-1. Added to this, an analysis about the 195Pt chemical shift was addressed, where for a wide range of 73 Pt(II) complexes and average absolute deviation of only 156 ppm was found at GIAO-B3LYP(DKHSO)/NMR-TZPP-DKH/IEFPCM-UFF level. All basis sets proposed here were systematically tested and, in general, good results were found for the properties of interest and highly affordable computational costs.

Função de base

Óptica não-linear

Primeira hiperpolarizabilidade

Complexos de Pt(II) e Pd(II)

Reatividade

Deslocamento químico

Basis set

Nonlinear optics

First hyperpolarizability

Pt(II) and Pd(II) complexes

Reactivity

Chemical shift

Beyond Speciation: A Study of Modifier Cation Clustering in Silicate Glasses by ²⁹Si Magic Angle Flipping NMR

Sanders, Kevin Joseph

27 September 2013

No description available.

Chemistry

Environmental Geology

Materials Science

Physical Chemistry

Analytical Chemistry

Chemistry

Nuclear Magnetic Resonance

NMR

glass

silicate glass

glass structure

magic angle flipping

chemical shift anisotropy

29-Si

natural abundance

NMR Methods For The Study Of Partially Ordered Systems

Lobo, Nitin Prakash

07 1900

The work presented in this thesis has two parts. The first part deals with methodological developments in the area of solid-state NMR, relevant to the study of partially ordered systems. Liquid crystals are best examples of such partially ordered systems and they are easily oriented by the magnetic field used for the NMR study. They provide spectra rich in information useful for the study of structure and dynamic s of the oriented molecule. Dipolar couplings and anisotropic chemical shifts are relatively easy to obtain for these systems. However, the methodologies used for extracting the required information are constantly undergoing change, with newer ideas being used for optimal use of the technique and increasing the sensitivity of the methodology. In this thesis, existing methods used for obtaining dipolar couplings from oriented liquid crystalline samples are examined in detail and conditions for optimal use of the methods are investigated. Different approaches for enhancing the sensitivity of the techniques are also proposed. Estimation of chemical shift anisotropy of carbons for a molecule that is used as a building block for several mesogens has been obtained and its utility for estimating the order parameters of the system have been examined. The second part of the thesis deals with the application of solid state NMR methods to the study of a number of novel liquid crystalline systems and for the estimation of dynamics, order and orientation of the mesogenic molecules in the magnetic field. Chapter-2 deals with a detailed and systematic study to improve the sensitivity of cross-polarization based separated local field (SLF) NMR spectroscopy techniques such as PISEMA(Polarization Inversion Spin Exchange at the Magic Angle) and PDLF(Pro-ton Detected Local Field). The chapter has been further divided into three sections. Section-A describes the optimization procedure for cross-polarization period for reducing zero-frequency peaks in SLF experiments. Polarization Inversion(PI) is one of the important components of PISEMA and plays a crucial role in enhancing the dipolar cross-peaks and suppressing the axial-peaks. Shortening this period has the advantage of less r.f. power input into the system, thus less susceptibility to sample heating. Therefore it is crucial to arrive at the optimum condition for which maximum sensitivity and resolution are obtained. A detailed experimental investigation of the role of the initial po1arization period has been carried out for two different samples of static oriented liquid crystalline material at two different temperatures and a contact time of 2ms has been found to be optimal for such samples. Insection-B of this chapter, the initial preparation period of the experiment is considered as a possible means of increasing the sensitivity of the experiment. Thus the use of cross-polarization via the dipolar bath by the use of a diabatic demagnetization in the rotating frame(ADRF-CP) has been proposed to be incorporated into PISEMA. To understand the CP dynamics, magnetization in double-and zero-quantum reservoirs of an ensemble of spin-1/2 nuclei and their role in determining the sensitivity the experiments have been theoretically examined. Experimentally, a modification incorporating ADRF-CP is shown to result in enhancement of signal-to-noise by as much as 90% in the case of rigid single crystals of a model peptide and up to 50% in non-rigid, partially ordered liquid crystalline systems. In section-C another useful SLF technique known as PDLF spectroscopy has also been examined. In this case a sweep of one of the r.f. amplitudes(RAMP-CP),rather than ADRF is found to work well. The reason for the different behaviours has been discussed. Chapter-3 highlights two experimental approaches used to extract the chemical shift anisotropy(CSA) tensor information from rotating solids. Section-A is devoted to the measurement of the CSA values of thiophene by using MAS side band analysis, by extracting the principal values from the intensities of just a few spinning side bands. Experiments have been performed on thiophene-2 carboxylic acid and thiophene-3 carboxylic acid samples and the carbon CSA values have been obtained. In section-B, CSA values of carbons of the core unit of the liquid crystal4- hexyloxybenzoic acid (HBA) have been obtained by using the recoupling pulse sequence SUPER(Separation of Undistorted Powder patterns by Effortless Recoupling).HBA belongs to an important class of thermotropic liquid crystals which are structurally simple and often used as starting materials for many novel mesogens. As this molecule could serve as an ideal model compound, high resolution13C NMR studies of HBA in solution, solid and liquid crystalline phases have been also undertaken. The CSA values obtained from the 2D SUPER experiment showed good agreement to those computed by DFT calculations. The CSA values were used for obtaining the order parameter of the system at different temperatures. These matched well the order parameter obtained from the 13C-1 H dipolar couplings in the nematic phase determined by SLF spectroscopy at various temperatures. A knowledge of the CSA of the carbons is thus very useful, as they can be used for gaining knowledge about the system from the chemical shifts obtained from a simple 1D spectrum. In chapter-4, 1-and 2-dimensional13CNMR techniques have been utilized to obtain extensive information about some novel mesogenic molecules. Four molecules of different structure and topology have been taken up for study. These molecules have the following features. Mesogen-1 has a terminal hydroxyl group. Such systems with further modification can result in mesogenic monomers for side chain liquid crystalline polymers. Mesogen-2 has a dimethyl amino group at one end and has three phenyl groups connected by appropriate linking units that form the core. In the third case, mesogen-3, the terminal hydroxyl group of mesogen-1 is replaced with a hydrogen such that13C-1 H dipolar couplings provide directly information on molecular ordering and orientation. In the fourth case, mesogen-4, the core is built with four phenyl rings. Here the fourth ring is linked to other three rings via a flexible chain unit. In each of these cases the 2DSLFNMR experiments have been carried out where13C-1 H dipolar couplings as well as13C chemical shifts were used for obtaining the order parameters of various segments of the molecule. The data provide useful insight into the phase behaviour, ordering and orientation of the molecules. Chapter-5 discusses the applications of the natural abundance 13CNMR techniques to thiophene based mesogens, that have the potential for use in molecular electronics material. Typically, these molecules consist of phenyl rings appropriately connected by linking units with thiophene. Different core units as well as different linking units to thiophene have been considered. The six mesogens thus obtained have been investigated in detail using 1D and 2D NMR methods.13C-1 H dipolar couplings have been used to obtain ordering information, that show interesting correlation to the molecular orientation and dynamics.

Hamiltonian Systems

Partially Ordered Systems

Nuclear Magnetic Resonance

Solid State Nuclear Magnetic Resonance

Mesogens - Nuclear Magnetic Resonance

Nuclear Spin Hamiltonian

Dipolar Coupling

Chemical Shift Anisotropy

Nuclear Magnetic Resonance Spectroscopy

13C NMR Spectroscopy

Thiophene

13CNMR

Magnetism

Variable pressure NMR analyses to assess compressive motion in PETNR and catalytically germane PETNR:Ligand complexes

Guerriero, Andrew

January 2012

The involvement of dynamical fluctuations in driving enzymatic processes is widely accepted. With respect to NQM tunnelling enzymes, the role of promoting motions in facilitating hydrogenic transfers is well studied. Few studies have however, specifically attributed, dedicated dynamical fluctuations characterised by their timescales and magnitudes, as a function of a reaction coordinate, to specific groups in a protein system. An effectively full suite of backbone resonance assignments were obtained for PETNR and on relevant ligand complexes. This provided an essential platform on which residue specific, backbone amide fluctuations were assessed. This thesis documents the application of pressure up to 1500 bar, in tandem with high resolution TROSY based NMR analysis, as a means of studying residue specific, conformer exchange perturbations. Residue specific amide compression profiles of the PETNR:FMN free enzyme system, and complexes with progesterone and tetrahydropyridine dinucleotides have been obtained. The binding of progesterone appears to induce conformational tightening of residues within the active site vicinity. The complexation of PETNR:FMN with tetrahydropyridine dinucleotides, appears to stimulate conformational shifts towards intermediate, and in some cases, slow exchange regimes in multiple residues about the active site vicinity. This is evidenced by extensive intensity attenuation of 1H-15N TROSY resonances, on the binding of tetrahydropyridine dinucleotides at 1 bar pressure, and on going from 1 bar to 1500 bar pressure. Multiple regions of sequence, spatially clustering about the active site vicinity within a 10 Å sphere of the FMN binding pocket, display appreciable sensitivity to ligand binding. Differential responses of residues to the application of high pressure between complexes was noted within segments of these regions. A region of sequence, named the β-hairpin flap displays significant differential compression profiles between the PETNR:FMN free enzyme system, and associated progesterone and tetrahydropyridine dinucleotide complexes. A role in mediating ligand engagement is proposed for R130 and R142 in the β-hairpin flap. A central hydrogen bonding network, perhaps constituting a putative proton wire in the active site of the PETNR:FMN:Progesterone complex, has been identified that could enable the shuttling of protons following catalytic protonation of oxidative substrate. The resonance response behaviour of G185 acts as a sensitive reporter on the formation of these interactions, revealed by an interrogation of the differences in chemical shift changes on progesterone binding, and in response to high pressure. The recruitment of high resolution crystallographic data sets readily supported a structural and dynamical interpretation of the observed chemical shift responses to ligand binding at 1 bar pressure, and on the application high pressure. A definitive atomistic identification of fast motion contribution to activation barrier compression was not obtained. Nevertheless, detailed, residue specific amide compression profiles, and shifts in backbone amide conformational exchange regimes in response to ground state ligand binding, and at high pressure, have been catalogued in the PETNR:FMN free enzyme system. These dynamical profiles in the free enzyme are contrasted against comparative, residue specific observations in analogue complexes of the oxidative and reductive half reactions of PETNR.

572.7