Novel NMR Methods for Fast Data Acquisition : Application to Metabolomics

Pudakalakatti, Shivanand

January 2014

Synopsis My research work is focused on: (i) development of novel Fast NMR methods in solution state and their application to metabolomics and small molecules. (ii) NMR based metabolic study of human IVF to assess embryo viability for implantation. The major components of the embryo growth media were identified for evaluating the embryo quality. Described below are the projects carried out towards the dissertation of my PhD. Chapter 1 describes NMR methods which are the foundation stones for new Fast NMR methods developed. Typical 1D and 2D NMR experiments used in metabolomics and statistical methods for analysis are described. A few applications of metabolomics are also covered in the chapter. Chapter 2 describes a new Fast NMR method based on polarization sharing and parallel acquisition using the dual receiver system. The method developed helps in acquiring simultaneously three 2D NMR spectra: 2D [13C-1H] HETCOR, 2D [1H-1H] TOCSY and 2D [13C-1H] HSQC-TOCSY in a single data set. This method achieves a time saving of about two fold. All the experiments are acquired on molecules with natural abundance of 13C. The method was used to assign the side chain atoms (1H and 13C) of two important peptides. i) 12 amino acid residue peptide, which is a part of central linker domain of Human Insulin like Growth Factor Binding Protein-2 known to play a vital role in the IGF system and ii) a 18 amino acid residue peptide which acts as an antimicrobial agent. Chapter 3 describes extension of the Fast NMR method described in chapter 2. The method is combined with G-matrix Fourier Transform NMR spectroscopy. In this method we have acquire simultaneously two 2D NMR experiments and one reduced dimensional 3D experiment. The three experiments are 2D [13C-1H] HETCOR, 2D [1H-1H] TOCSY and GFT (3,2)D [13C-1H] HSQC-TOCSY, which provide complementary information for rapid assignments. GFT (3,2)D [13C-1H] HSQC-TOCSY gives 3D correlations in a 2D manner facilitating high resolution and unambiguous assignments. The experiments were applied for complete assignment of 21 unlabeled metabolite mixtures corresponding to the Innovative Sequential medium (ISM1) used for culturing human embryos for IVF. Further, a 13C multiplicity edition block is added to the method to simplify the resonances assignment in GFT (3,2)D [13C-1H] HSQC-TOCSY. Taken together, experiments provide time gain of order of magnitudes compared to conventional data acquisition. Chapter 4 of the thesis describes a metabolomics study of Human in-vitro fertilization to assess viable embryos of implantation potential using NMR as non-invasive tool. NMR study included the analysis of 127 embryo culture media (Innovative Sequential Media-1) and 29 controls (culture media without embryo) of both day-2 and day-3 transferred. The embryos were divided into 3 categories 1) implanted (successful) 2) transferred not-implanted (unsuccessful) 3) not transferred based on morphological studies. All NMR experiments were acquired with CPMG (T2 filter) incorporated in 1D 1H presaturation pulse scheme. The study was based on estimation of lactate, pyruvate and alanine levels in the embryo culture media (ISM1). The study reveals higher uptake of pyruvate and high pyruvate/alanine ratios in case of implanted embryos compared to one which failed to implant. Present study provides pyruvate/alanine ratio as a biomarker to select the embryos with high implantation potential. The method combined with morphology based assessment or with other biomarkers can be serve as a powerful tool to assess the embryo quality. Chapter 5 describes a novel NMR method for rapid characterization of translation diffusion of molecules in solution either in mixture or pure form. Unlike acquisition of several 2D [13C-1H] HSQC experiments with varying gradients to get diffusion measurement, a single 2D [13C-1H] HSQC is sufficient to measure the diffusion coefficients which is in the linewidths of peaks. The method uses the idea of accordion NMR spectroscopy, wherein gradients are linearly co-incremented with 13C chemical shift evolution period during t1. The methodology speeds up the acquisition by replacing series of 2D [13C-1H] HSQC with single 2D constant time [13C-1H] HSQC. The method was used to monitor the diffusion of metabolites in a time-resolved manner during polymerization of SDS-PAGE gel. Using this method, it was possible to detect the presence of oligomers of diphenylalanine (FF) during its self assembly to form nanotubular structures.

Nuclear Magnetic Resonance

Metabolomics

Human in-Vitro Fertilization,

NMR Metabolomics

Disease Diagnosis/Therapy

Cancer Metabolomics

Kidney Disease Metabolomics

AlZheimers Disease Metabolomics

GFT NMR Data Acquisition

2D FAST-DOSY

Resonance Assignments

Embryo Growth

Human IVF

Physics

Exploring Diverse Facets of Small Molecules by NMR Spectroscopy

Chaudhari, Sachin Rama

January 2014

The thesis entitled “Exploring Diverse Facets of Small Molecules by NMR Spectroscopy” consists of six chapters. The main theme of the thesis is to exploit one and two dimensional NMR methodologies for understanding the diverse facets of small organic molecules, such as, weak intra- and inter- molecular interactions, chiral discrimination, quantification of enantiomeric excess and assignment of absolute configuration. Several new pulse sequences have also been designed to solve specific chemical problems, in addition to extensive utility of existing one and two dimensional NMR experiments. The results obtained on different problems, are discussed under six chapters in the thesis. The brief summary of each of these chapters is given below. Chapter 1 begins with the discussion on the importance of small molecules and their various facets, the analytical techniques available in the literature to study them. The role of NMR spectroscopy as powerful analytical technique to understand the diverse facets of organic molecules and their importance is set out in brief. A short introduction to the basic principles of NMR, the interaction parameters, the commonly employed one and two dimensional homo- and herero- nuclear NMR experiments are also given. The basic introduction to product operators essential for understanding the spin dynamics in the developed pulse sequences is given. The application of diffusion ordered spectroscopy (DOSY), the general problems encountered in the analysis of combinatorial mixtures and the matrix assisted method in circumventing such problems are discussed. Chapter 2 focuses on the chiral discrimination and the measurement of enatiomeric excess. The NMR approach to discriminate enantiomers using chiral auxiliaries such as, solvating agents, derivatizing agents, lanthanide shift reagents, the choice of such auxiliaries and the limitations are discussed in detail. The in-depth discussion on the new protocols developed using both the solvating and derivatizing agents for enantiomeric discrimination of chiral amines, hydroxy acids and diacids are discussed. The new three-component protocols that serve as chiral derivatizing agents for the discrimination of primary amines, diacids and hydroxy acids are discussed. Also the role of organic base such as DMAP in the chiral discrimination is explored for discrimination of acids using BINOL as a chiral solvating agent. Accordingly the discussion is classified into two sections. In the first section the protocol developed utilizing an enantiopure mandelic acid, a primary amine substrate and 2-formylphenylboronic acid that is ideally suited for testing the enantiopurity of chiral primary amines is discussed. The broad applicability of the protocols for testing enantiopurity has been demonstrated on number of chiral molecules using 1H and 19F NMR. The second section contains the results on the new concept developed for discrimination of hydroxy acids. The strategy involves the formation of three component protocol using chiral hydroxy acid, R-alphamethylbenzylamine and 2-formylphenylboronic acid for 1H-NMR discrimination of diacids. The section also includes the utility of ternary ion-pair complex for the discrimination of acids. The ternary ion-pair not only permitted the testing of enantiopurity of chiral acids, but is also found useful for the measurement of enantiomeric excess. Chapter 3 discusses the utilization of the developed three-component protocols for the assignment of absolute configurations of molecules of different functionality. The protocols for the assignments of absolute configuration of primary amines using 2-formylphenylboronic acid and mandelic acid yielded the substantial chemical shift differences between diastereomers. The consistent trend in the direction of change of chemical shifts of the discriminated proton(s) gave significant evidence for employing them as parameters for the assignment of spatial configuration of primary amines. Another protocol using 2-formylphenylboronic acid, hydroxy acids and enantiopure alphamethylbenzylamine permitted their configurational assignment. In the second section a novel solvating agent, obtained by the formation of an ion-pair complex among enantiopure BINOL, DMAP and chiral hydroxy acid for the assignment of the spatial configuration of hydroxy acids is discussed. Chapter 4 focuses on the development of novel NMR methodologies, and also the utility of existing two-dimensional experiments for addressing certain challenging problems. This chapter has been divided into three sections. In Section-I the utilization of well-known homonuclear 2D-J-resolved methodology for unravelling the overlapped NMR spectra of enantiomers, an application for chiral discrimination and the measurement of enantiomeric excess is discussed. The utilization of the chiral auxiliaries, such as, chiral derivatizing agents, chiral solvating agents and lanthanide shift reagents permits enantiodiscrimination and the measurement of excess of one form over the other. Nevertheless many a times one encounters severe problems due to small chemical shift difference, overlap of resonances, complex multiplicity pattern because of the presence of number of interacting spins, and enormous line broadening due to paramagnetic nature of the metal complex. This section is focused on combating such problems utilizing 2D-J-1JNH resolved spectroscopy where a 450 tilting of the spectrum in the F2 dimension, yielded the pure shift NMR spectrum. The method circumvents several problems involved in chiral discrimination and allows the accurate measurement of enantiomeric excess. In Section-II, the development of novel NMR experimental methodology cited in the literature as C-HetSERF and its application for the study of symmetric molecules, such as, double bonded cis- and trans- isomers, and extraction of magnitudes and signs of long range homo- and hetero- nuclear scalar couplings among chemically equivalent protons in polycylic aromatic hydrocarbons is discussed. The extensive utility of the new pulse sequence has been demonstrated on number of symmetric molecules, where the conventional one dimensional experiment fails to yield spectral parameters. In section III, yet another novel pulse sequence called RES-TOCSY developed for unravelling of the overlapped NMR spectrum of enantiomers and the measurement of enantiomeric contents, has been utilized for the accurate measurement of magnitudes and signs of 1H-19F couplings in fluorine containing molecules. The method has distinct advantages as the strengths of the couplings and their relative signs could be extracted on diverse situations, such as, couplings smaller than line widths, the spectrum where the coupling fine structures are absent. Chapter 5 covers the study of nature of intra- and inter- molecular hydrogen bond in amide and its derivative. The chapter is accordingly divided into two sections. In the first section the study of acid and amide hydrogen bonding is discussed and the hydrogen bonded interactions are probed by extensive utility of 1H, 13C and 15N-NMR. The temperature perturbation experiments, measurements of the variation in the couplings, monitoring of diffusion coefficients and the association constants, detection of through space correlation have given unambiguous evidence for the hydrogen bond formation. The results were also supported by DFT calculations. Similar interaction in the solid state has also been derived by obtaining the crystal structure of complex phenylacetic acid with benzamide. In the second section of the chapter the hydrogen bond interaction of organic fluorine in trifluoromethyl derivatives of benzanilides has been explored and the involvement of CF3 group in the hydrogen bonding has been detected. The evidence for the participation of CF3 group in hydrogen bond has been confirmed by number of experiments, such as, the detection of through space couplings, viz., 1hJFH, 1hJFN, and 2hJFF , where the spin polarization between the interacting spins is transmitted through hydrogen bond, the temperature and solvent dependent studies, variation in the 1JNH and two dimensional heteronuclear correlation experiments. In an interesting example of a molecule containing two CF3 groups situated on two phenyl rings of benzanilide, the simultaneous participation of fluorines of two CF3 groups in hydrogen bond has been detected. The confirmatory evidence for such an interaction, where hydrogen bond mediated couplings are not reflected in the NMR spectrum, has been derived by 19F−19F NOESY. Significant deviations in the strengths of 1JNH, in addition to variable temperature, and the solvent induced perturbation studies yielded additional evidence. The NMR results are corroborated by both DFT calculations and MD simulations, where the quantitative information on different ways of involvement of fluorine in two and three centered hydrogen bonds, their percentage of occurrences, and geometries have been obtained. The hydrogen bond interaction energies have also been calculated. The study revealed the rare observation and the first example of the C-F…H-N hydrogen bond in solution state in the molecules containing CF3 groups. Chapter 6 focuses on the mixture analysis using the diffusion ordered spectroscopy (DOSY). High Resolution-DOSY works when the NMR spectrum is well resolved and the diffusion coefficients of the combinatorial mixtures are substantially different from each other. DOSY technique fails when the mixture contains the molecules of nearly identical weights and similar hydrodynamic radii. Thus, the positional isomers, enantiomers consequent to their nearly identical rates of diffusion, are not differentiated. Some of these problems can be overcome by Matrix-Assisted Diffusion Order Spectroscopy (MAD-spectroscopy), where an external reagent acts as a matrix and aids in their diffusion edited separation, provided the molecules embedded in it possess differential binding abilities with the matrix. Such different binding properties of the matrix are the basis for resolution of many isomeric species. In the present study three different novel auxiliaries, micelles-reverse micelles, crown ether and cyclodextrin are introduced for the resolution of positional isomers, double bonded isomers, viz., fumaric acid and maleic acid and also enantiomers. Accordingly, the results of each of these studies are discussed in three different sections.

Nuclear Magnetic Resonance Spectroscopy

Molecular Spectroscopy

Nuclear Magnetic Resonance

Chiral Discrimination

Chirality (Chemistry)

Hydrogen Bonding

Acid-Amide Hydrogen Bonding

Small Organic Molecules

Diffusion Ordered Spectroscopy

1H NMR

Chiral Carboxylic Acid

NMR Spectroscopy

NMR Spectrum

Analytical Chemistry

A phytochemical and biological investigation of Sutherlandia Frutescens

Faleschini, Maria Teresa

06 1900

Since ancient times, indigenous plants have been used by traditional healers for treating various ailments. Sutherlandia frutescens is one of the most commonly used medicinal plants of southern Africa. This widely distributed plant has been traditionally used to treat cancer and HIV patients; however scientific validation is still in high demand. This research aimed to phytochemically characterise the various extracts prepared and to determine if any chemotypes were present. Subsequent biological characterisation was carried out to preliminary ascertain whether this medicinal plant could have anti-cancer and/or immunemodulating properties and which compounds might be responsible for these actions. Various traditional and organic extracts were prepared. Extracts, fractions and compounds generated were analysed and chemical profiles obtained. Column chromatographic techniques were used to isolate and purify compounds and structure elucidation was carried out using various analytical techniques. Sulforhodamine B and cytometric bead array assays were performed to determine the biological activities of samples generated. / Life and Consumer Sciences / (M. Sc. (Life Sciences)

Anti-cancer

Immune-modulating

Sulforhodamine B

Nuclear Magnetic Resonance

Chemotypes

Phytochemistry

Sutherlandia frutescens

Tradisional uses

HIV

Cytometric bead arrays

615.3210968

Biology -- Research -- Africa, Southern

Legumes -- Research -- Africa, Southern

Étude du métabolisme cérébral au cours du vieillissement sain chez le rat : impact de la diète cétogène et de la restriction calorique / The study of brain metabolism during aging in rats: the effect of the ketogenic diet and calorie restriction

Roy, Maggie

January 2014

Résumé : Les personnes atteintes de la maladie d’Alzheimer présentent une diminution de la capture cérébrale du glucose, qui semble être impliquée dans le développement des problèmes cognitifs associés à la maladie. Toutefois, il n’y a encore aucun consensus quant à savoir si la capture cérébrale du glucose est diminuée chez les personnes âgées cognitivement saines. En condition de déficit de glucose, les cétones sont le substrat énergétique alternatif pour le cerveau. La diète cétogène, induisant une cétose légère, améliore les fonctions cognitives chez les modèles animaux et chez l’homme. Notre premier objectif était d’évaluer l’effet du vieillissement sain et de la diète cétogène sur la capture cérébrale du glucose et des cétones chez le rat. Pour cela, la capture cérébrale de radiotraceurs analogues au glucose et aux cétones a été mesurée par tomographie par émission de positons. Nos résultats montrent que la capture des deux principaux substrats énergétiques du cerveau est globalement similaire chez des rats sains jeunes et âgés, mais est plus élevée suite à la diète cétogène. L’induction d’une cétose légère pourrait corriger la diminution de capture cérébrale du glucose subvenant au cours de la maladie d’Alzheimer. Le second objectif était de déterminer l’effet d’une diète cétogène sur le métabolisme cérébral du glucose et des cétones chez le rat. Pour cela, les différents intermédiaires des voies métaboliques du glucose et des cétones ont été mesurés par spectroscopie par résonance magnétique nucléaire. Les résultats démontrent que le métabolisme du glucose et des cétones dans les cellules du cerveau est plus élevé suite à la diète cétogène. Le contenu en acide [gamma]-aminobutyrique, le principal neurotransmetteur inhibiteur, est aussi plus élevé suite à la diète cétogène, ce qui pourrait contribuer à l’effet antiépileptique de la diète cétogène. Le troisième objectif était d’évaluer l’impact d’une restriction calorique à long terme, pouvant induire une cétose légère, sur le métabolisme cérébral chez des rats âgés sains. Nos résultats montrent que, couplée à une diète à haute teneur en sucrose et faible en acides gras oméga-3, la restriction calorique à long terme chez les rats âgés ne modifie pas le profil des métabolites et des acides gras du cerveau. La déficience en acides gras oméga-3 et la surcharge de sucrose pourraient empêcher une grande partie des effets bénéfiques de la restriction calorique au cerveau.//Abstract : Alzheimer’s disease is associated with a reduction of brain glucose uptake, which may be involved in the development of the cognitive problems associated with the disease. It is however unclear whether brain glucose uptake is decreased in the cognitively healthy elderly. Under conditions of glucose deficit, ketones are the alternative brain energy substrate. A mild ketosis, induced by the ketogenic diet, improves cognitive functions in animal models and humans. Our first objective was to evaluate the effect of healthy aging and of a ketogenic diet on brain glucose and ketone uptake in the rat. Brain uptake of radiotracers analogous to glucose and ketones was measured by positron emission tomography. Our results show that the uptake of the brains two main energy substrates is generally similar in healthy young and aged rats, but is higher under the ketogenic diet. The induction of a mild ketosis may compensate the reduction of brain glucose uptake occurring in Alzheimer’s disease. The second objective was to assess the effect of a ketogenic diet on brain glucose and ketone metabolism in the rat. Metabolic pathway intermediates of glucose and ketones were measured by nuclear magnetic resonance spectroscopy. Results show that glucose and ketone metabolism in brain cells is higher under the ketogenic diet. Content of [gamma]-aminobutyric acid, the main inhibitory neurotransmitter, is also higher under the ketogenic diet, which could contribute to the antiepileptic effect of the ketogenic diet. The third objective was to evaluate the effect of a long-term calorie restriction, which may induce a mild ketosis, on brain metabolism in healthy aged rats. Our results show that, in conjunction with a diet enriched in sucrose and low in omega-3 fatty acids, long-term calorie restriction in aged rats does not change brain metabolite and fatty acid profiles. Omega-3 fatty acid deficiency and an overload of sucrose may prevent the beneficial effects associated with calorie restriction in the brain.

Métabolisme cérébral

Glucose

Cétones

Vieillissement

Diète cétogène

Restriction calorique

Tomographie par émission de positons

Brain metabolism

Glucose

Ketones

Aging

Ketogenic diet

Calorie restriction

Positron emission tomography

Nuclear magnetic resonance spectroscopy

Fermentability of dietary fibre and metabolic impacts of including high levels of fibrous feed ingedients in maize-soyabean growing pig diets supplemented with exogenous enzymes

Fushai, Felix

03 1900

The objectives of the research were to examine the effects of high dietary levels of fibrous feeds, and of supplementation with Roxazyme® G2 (RX), on the digestive metabolic and physiological responses of growing pigs fed maize-soybean diets. The nutrient and dietary fibre (DF) composition, the swelling and water-binding capacities of maize (MM), its hominy chop (HC) and cobs (MC), dehulled soybean (dSBM) and the hulls (SH), brewer’s grains (BG), lucerne hay (LH) and wheat bran (WB) were evaluated using standard procedures. Feed fibre fractions were isolated by simulating upper tract digestion in an Ankom® DaisyII Incubator, whereby each feed was digested in pepsin (porcine, 200 FIP-U/g, Merck No, 7190), followed by pancreatin (porcine, grade IV, Sigma No P-1750), with recovery of the fibrous residues. In a third step to complete the simulated pig gastro-intestinal digestion, the pepsin-pancreatin fibre extracts were digested by RX or Viscozyme L ® V2010 (VZ). Enzyme activity was measured as the coefficients of partial degradability (solubilisation) of the washed fibre extracts. The kinetics and products of fermentation of the DF were evaluated in an AnkomRF gas production system, using buffered faecal inoculum. Among the feed ingredients, dissimilar, fibre source-dependent activities between RX (0.02 to 0.12) and VZ (0.04-0.33) were observed. The lowest RX activities were observed on the maize and soybean derived fibres, with similarly low VZ activity on MC fibre. Variation in the activity of faecal microbial enzymes was similarly indicated by the variable production of fermentation gas (51.8-299.4 mL g-1 DM) and short chain fatty acids (SCFA) (2.3-6.0 mMol g-1 DM). Soy hull, dSBH, MM and HC fibres were highly fermentable, with low fermentability of BG, MC and WB fibres. The fibres differed in the composition of fermentation SCFA, whereby SH, LH and MC shifted fermentation to Ace, and BG, dSBM, WB, MM, HC favoured Pro, while MM and HC favoured But production. The same nutritional properties were similarly evaluated in complete diets which were formulated from the ingredients for growth, and metabolic trials. For the growth trial, a standard (STD) (control), 141 g total dietary fibre (TDF) kg-1 dry matter (DM) maize-soybean growing pig diet, and five iso-nutritive, 246 g TDF kg-1 DM nutritionally balanced diets were formulated. The high DF was achieved by partial replacement of the MM and dSBM in the STD diet with MC, SH, BG, LH or WB. The differences in RX and VZ activities and in the fermentation characteristics which were observed on the fibre extracts from the high fibre ingredients were reflected in the DF from the respective complete diets in which they were included. However, the fibre from the basal dietary ingredients reduced the absolute values and the variation in the activities of RX (0.03-0.06) and VZ (0.16-0.22), and similarly reduced the variation in gas (126.6-187.6 mL g-1 DM) and SCFA (4.1-5.4 mMol g-1 DM) production of the DF from the fibrous diets. Enzyme activities on the STD DF were low for RX (0.03) and high for VZ (0.25). The STD DF produced 205.3 mL gas g-1 DM, which was similar to SH DF, and higher than all the other diets. The STD DF produced 5.0-mMol SCFA g-1 DM, which was quantitatively, and not statistically higher than the other fibres. The composition of SCFA was similar across all diets, except for the high percent Ace, with low Pro by the SH DF. Compared to the STD, the high DF diets increased percent Ace, with reduced Pro and But. The STD, MC, SH, BG, LH and WB diets were each prepared in duplicate mixes, one of which was fortified with 200 mg RX kg-1 feed (as fed). Seventy-two intact Large White X Landrace, male, 32.0 ± 5.6 kg live weight (LW) pigs were allocated to the diets in two completely randomised weight blocks in a 2 (fibre source) X 2 (enzyme) factorial arrangement. The pigs were fed ad libitum for 10 weeks. Cumulative LW gain and feed intake were measured at different stages of growth, and at slaughter. Apparent total tract digestibility (ATTD) of nutrients was estimated at 65-70 kg LW, using 0.2% (as fed) chromium oxide as the indigestible marker. Ileal tissue was sampled 50 cm above the ileo-caecal valve, on which villi height and area, and crypt depth were evaluated by computerised image analysis. Blood was sampled at slaughter from the severed vena jugularis, 16 hours after feeding. Serum urea, creatinine, triglycerides, glucose, and total cholesterol were analysed chemically. The serum metabolome was further explored using Proton Nuclear Magnetic Resonance Spectroscopy (1H -NMRS). There was fibre X RX interaction for villi height, whereby the enzyme reduced the villi height in pigs on the SH, STD and WB diets, with an opposite effect on pigs on the MC, BG, LH diets. The soluble fibre content was negatively correlated with crypt depth. Chemical analysis did not detect differences in metabolite concentration between the STD and the high fibre diets. However, more serum cholesterol was observed in pigs fed the WB compared to the LH and MC diets. 1H-NMRS indicated that feeding pigs the WB diet increased serum Cys and His, while supplementation of RX increased serum formate, glucose, and urea. There was diet X enzyme interaction for fructose, glucose, Arg, Cys, Ser, and Trp, whereby RX increased the levels in pigs on MC and WB, with an opposite effect in pigs on the other diets. There was large DF source-dependent variation among diets in ATTD of DM (0.80-0.85), organic matter (OM) (0.81-0.87), gross energy (GE) (079-0.85) and CP (0.81-0.85), whereby, relative to the STD diet, high DF reduced the ATTD of DM (all diets except SH), organic matter (OM) and energy and CP (all diets except the MC). Positive correlation was observed between fermentability and the ATTD digestibility of DM, OM, energy, ADF, NDF, and fat. Negative correlation was observed between the swelling capacity and the ATTD of DM, OM, energy and protein, between DF solubility and DM, OM, protein, ADF and NDF, and between water binding capacity and ATTD of DM and OM, energy and NDF. At slaughter, there was similarly large, and DF source-dependent variation among the high fibre diets in feed intake (2.31-2.71 kg as fed day-1), live weight gain (0.75-0.86 kg day-1), and feed: gain ratio (2.73-3.00). Corresponding values for the STD diet were 2.44 kg day-1, 0.83 kg day-1and 2.86 kg day-1, respectively. Relative to the STD, LH reduced feed intake and live weight gain, and MC increased the feed: gain ratio. Predictions based on the in vitro fermentability of DF and feed intake suggested that due to poor fermentability, and or restriction of feed intake, relative to a standard fibre diet, high dietary levels of MC, WB and BG may reduce fermentation in the lower gut, while similar dietary levels of SH and LH may result in substantial increases in fermentation. At 50 kg LW, the fermentability of DF was positively correlated with feed intake and with weight gain, while water binding capacity and solubility of DF were negatively correlated with feed intake. At slaughter, the solubility of DF was negatively correlated with feed intake and feed: gain ratio. Large variation among the high fibre diets was also observed in the slaughter weight (89.2-96.8 kg), dressing % (68.6-76.4), meat colour (80.4-82.3), lean % (69.5-71.2), and fat % (10.1-12.6). In comparison, pigs on the STD diet scored 94.7 kg slaughter weight, 75.1% dressing, 81.6 cm carcass length, 82.5 meat colour, 68.4% lean, and 15.0% fat. Relative to the STD, LH reduced dressing and fat %. Lucerne hay and WB increased the lean%. For the metabolic trial, two iso-nutritive, mixed high fibre (319 g TDF kg-1 DM), nutritionally balanced diets were formulated to contain DF of high (HF) versus low (LF) fermentability. The diets had similar content of soluble DF and similar swelling and water binding capacities. Viscozyme was more active than RX on both the HF (0.20 versus 0.04) and the LF (0.17 versus 0.07) DF. The combination of RX and VZ statistically increased the enzyme activity on the HF (0.25) and quantitatively increased enzyme activity on the LF (0.18) DF, suggesting additive or synergistic effects. More gas was produced by the HF (159.5 mL g-1 DM) compared to the LF DF (96.6 mL g-1 DM). More SCFA were produced by HF (5.0 mMol g-1 DM), compared to the LF DF (3.6 mMol g-1 DM). Compared to the STD, HF DF increased percent Ace, with reduced Pro and But. The LF DF increased percent Ace, with quantitative, and not statistical reduction of Pro and But. In a metabolic trial, the HF and LF diets, and their duplicates containing 0.270 g RX kg-1 DM of feed (as fed) were fed ad libitum to eight ileum T-cannulised, intact Large White X Landrace male pigs weighing 65.0 ± 5.1 kg. The diets were allocated to the pigs in a duplicate 4 x 4 Latin Square design, in a 2 (enzyme) x 2 (fermentability) factorial arrangement. Each period consisted of two weeks of adaptation followed by five days of sampling. The ileal digesta was collected in each period and was similarly subjected to the fermentation test. Apparent ileal digestibility (AID) and ATTD were determined using 0.2% (as fed) chromium oxide as the indigestible marker. N excretion in faeces and urine were measured, and N retention was calculated. Blood was sampled by vena jugularis puncture on the last day of each period. Two blood samples were collected, the first 15 hours after removal from feed (15-hour serum), and the second 3 hours after re-introduction to feed (3-hour serum). Serum metabolites were evaluated by both chemical analyses and by 1H-NMRS, as described for the growth trial. Roxazyme did not affect the fermentation characteristics of the ileal digesta. In similar proportion to the fermentability of the PP digesta, the HF ileal digesta was more fermentable (65.4 mL gas g-1 DM and 6.1 mMol SCFA g-1 DM) than the LF ileal digesta (46.7 mL gas g-1 DM and 4.4 mMol SCFA g-1 DM SCFA). Prediction based on the in vitro fermentability of DF and feed intake suggested the HF diet could support one half times more fermentation in the lower gut compared to the LF diet. The HF diet had higher AID of DM (62.5 vs. 58.6), OM (65.6 vs. 62.1), energy (64.4 vs. 61.0), fat (85.8 vs. 81.7) and ash (41.8 vs. 32.7). The AID of HO-Pro, Met and Val were higher for the LF diet. There was diet X enzyme interaction on the AID of Met, whereby the RX reduced the AID of met in the LF diet, and not that of the HF diet. The ATTD was higher for the HF diet for DM (74.2 vs. 68.4), NDF (64.7 vs. 57.4), and ADF (35.1 vs. 21.0). There was positive correlation between the fermentability of DF and the AID DM, OM, ash, ash, fat and energy. The solubility of DF was negatively correlated with the AID of DM, OM, ash, fat, ADF and energy, and with the ATTD of DM, OM, ash, fat, energy, NDF, and ADF. Negative correlation was also observed between the swelling capacity of DF and the AID of protein, Trp and Lys. The solubility of DF was positively correlated with Ser, Ala, Val, Iso-Leu and His. There was diet X enzyme interaction for urea in the 15- hour serum, whereby RX tended to reduce the urea in the LF diet, while it increased that of the HF diet. Fermentability negatively correlated with urea in the 15- hour serum, and positively correlated with serum glucose in the 3-hour serum. In the 3-hour sample, 1H-NMRS indicated higher fucose, Pro and cholesterol in the LF diet. 1H-NMRS also indicated fermentability x RX interaction for Ser, Tyr, Lys, creatine, and possibly, glucose or fructose, glycerol or Gly and His or Arg, whereby RX increased the levels in the LF diets, with opposite effect in the HF diet. In conclusion, enzyme activities and fermentability were higly variable among different DF sources, and the effects were evident in the fibrous complete diets. The results of the in vitro studies supported the application of the methods to formulate fermentable insoluble fibre-rich, maize-soybean-mixed co-product diets. Correlation analyses suggested that DF fermentability, and solubility, swelling and water binding capacities explained significant proportions of the variances of the metabolic and physiological responses of the pigs to different feeds. Predictions based on the in vitro fermentability of DF and feed intake suggested that a strategy whereby pig diets are enriched in DF after the feedstuffs are screened on DF fermentability could substantially increase fermentation in the lower gut. Overall, the results suggested that productivity can be maintained in growing pigs fed diets containing up to twice the standard levels of DF, provided producers target co-product feeds that contain highly fermentable DF. The use of RX to improve nutrient digestion and to stimulate gut fermentation was not justified. / Environmental Sciences / Ph.D. (Environmental Sciences)

Enzymes

Fermentability

Fibre

Grain-processing co-products

Growing pigs

ileal histo-morphology

Maize-soybean diets

Non-stach polysaccharides

Roxazyme G2

636.40852

Swine -- Nutrition -- Requirements

Isolation and characterisation of the active phyto-pharmaceutical ingredient from Lobostemon trigonus for use in the development of a microbicide

Mbobela, Phindiwe Felicia

01 1900

The HIV-1 pandemic affects millions of people worldwide with approximately 70% of those affected residing in sub-Saharan Africa (SSA) relying on traditional medicines for treatment. The key aim of the study was to isolate and characterise an active phyto-pharmaceutical ingredient (API) from L. trigonus for use as a vaginal microbicide. The aerial parts of L. trigonus were oven-dried at 80°C, ground and then extracted with boiling water for 30 minutes. Aqueous extracts were screened using an HIV-1 neutralization assay in TZM bl cells. Chromatographic and spectroscopic techniques were used to purify, isolate and identify the API. The API (BP36-117-26464C) was identified as a polymeric macromolecule with IC50 = 0.04 μg/ml against HIV-1 HXB 2 subtype B. This activity is comparable to the ARV drug, enfuvirtide (IC50 = 0.02 μg/ml). The API consists of galacturonic acid polymer and a mixture of seven compounds. Its mode of action may involve inhibiting virus attachment. The activity of this precipitate (BP36-117-26464C) tested against HIV-1 subtype C pseudovirions and shown to compare favorably with that of enfuvirtide (T20). The water-soluble nature of this API and its mode of action identified it as a potential microbicide. In the current form, the precipitate (API) would be difficult to develop as an oral treatment for HIV, as high-molecular weight agents often have poor bioavailability following oral administration. However, large molecules with potent anti-HIV activity are ideal for topical use and potent development as a microbicide. / Life & Consumer Sciences / M.Sc (Life Sciences)

Lobostemon trigonus

Traditional uses

Anti-HIV

Vaginal microbicide

Formulations

HIV-1 neutralisation assay

Phytochemistry

Nuclear magnetic resonance spectroscopy

Bornesitol

Rosmarinic acid

615.32394

HIV infections

AIDS (Disease)

Botanical chemistry -- South Africa

Antiviral agents

Pharmaceutical chemistry -- South Africa

Medicinal plants

Regulation of kinases by synthetic imidazoles, nucleotides and their deuterated analogues

Nkosi, Thokozani Clement

19 April 2016

Deuteration is the replacement of a hydrogen atom by deuterium atom in a molecule. The replacement begins at the most acidic hydrogen in the molecule. In ATP, the deshielded hydrogen is C8-H which is the first replaced during deuteration. During ATP deuteration some of the ATP is hydrolysed to ADP concurrently. Using kinetic analysis, it was confirmed that the ATP hydrolysis that occurs is 1st order in ATP concentration, while the hydrogen replacement is 2nd order. The ATP and its C8 deuterated analogue were tested against three enzymes shikimate kinase (SK), acetate kinase (AK) and glutamine synthetase (GS) to determine if a kinetic isotope effect (KIE) exists in these systems. With AK and GS, the KIED increased as the KIEH decreased, while with SK the KIED decreased as the KIEH increased as the concentration of the ATP or deuterated analogue increased. Deuteration of imidazole and purine compounds reduced the specific activity of AK or SK at low concentrations in an enzyme-catalysed reaction. From a library of imidazole-containing compounds that inhibited SK, three compounds were selected and their IC50 values were determined on the SK-catalysed reaction. These compounds show a differential potency and efficiency between their protonated and deuterated analogues when compared in a 1:1 mixture. Synthesized purines incorporating three different substituents at N-9 were tested against AK or SK for their ability to lower the specific activity of the enzymes used / Physics / M. Sc. (Physics)

Acetate kinase

Glutamine synthetase

Shikimate kinase

Adenosine triphosphate rate order

Proton nuclear magnetic resonance

Enzyme activity and kinetics

Imidazole and purine deuteration

572.744

Deuterium

Acetates

Glutamine synthetase

Adenosine triphosphate

Proton magnetic resonance

Enzyme activation

Enzyme kinetics

Nuclear orientation of odd-A nuclei near to '1'3'2SN

White, Gareth Nicholas

January 1999

No description available.

539.7

Purification par affinité et marquage isotopique spécifique pour études d’ARN fonctionnels

Dagenais, Pierre

11 1900

Il existe un lien étroit entre la structure tridimensionnelle et la fonction cellulaire de l’ARN. Il est donc essentiel d’effectuer des études structurales de molécules d’ARN telles que les riborégulateurs afin de mieux caractériser leurs mécanismes d’action. Une technique de choix, permettant d’obtenir de l’information structurale sur les molécules d’ARN est la spectroscopie RMN. Cette technique est toutefois limitée par deux difficultés majeures. Premièrement, la préparation d’une quantité d’ARN nécessaire à ce type d’étude est un processus long et ardu. Afin de résoudre ce problème, notre laboratoire a développé une technique rapide de purification des ARN par affinité, utilisant une étiquette ARiBo. La deuxième difficulté provient du grand recouvrement des signaux présents sur les spectres RMN de molécules d’ARN. Ce recouvrement est proportionnel à la taille de la molécule étudiée, rendant la détermination de structures d’ARN de plus de 15 kDa extrêmement complexe. La solution émergeante à ce problème est le marquage isotopique spécifique des ARN. Cependant, les protocoles élaborées jusqu’à maintenant sont très coûteux, requièrent plusieurs semaines de manipulation en laboratoire et procurent de faibles rendements. Ce mémoire présente une nouvelle stratégie de marquage isotopique spécifique d’ARN fonctionnels basée sur la purification par affinité ARiBo. Cette approche comprend la séparation et la purification de nucléotides marqués, une ligation enzymatique sur support solide, ainsi que la purification d’ARN par affinité sans restriction de séquence. La nouvelle stratégie développée permet un marquage isotopique rapide et efficace d’ARN fonctionnels et devrait faciliter la détermination de structures d’ARN de grandes tailles par spectroscopie RMN. / The tridimensional structure of a given RNA molecule is closely linked to its cellular function. For this reason, it is crucial to study the structure of RNA molecules, such as riboswitches, to characterize their mechanism of action. To do so, NMR spectroscopy is often used to gather structural data on RNA molecules in solution. However, this approach is limited by two main difficulties. First, the production of preparative quantities of natively folded and purified RNA molecules is a long and tedious process. To facilitate this step, our laboratory has developed an RNA-affinity purification method using an ARiBo tag. The second limiting step comes from the extensive signal overlap detected on NMR spectra of large RNA molecules. This overlap is proportional to the length of the RNA, which often prevents high-resolution structure determination of RNAs larger than 15 kDa. To solve this problem, specific isotopic labeling of RNAs can now be achieved. However, existing labeling protocols are expensive, require several weeks of laboratory manipulations and usually provide relatively low yields. This thesis provides an alternative strategy to achieve specific isotopic labeling of RNA molecules, based on the ARiBo tag affinity purification technique. The protocol includes the separation and the purification of isotopically labeled nucleotides, an enzymatic ligation step performed on a solid support and the affinity purification of the RNA of interest, without any sequence restriction. This new strategy is a fast and efficient way to label functional RNAs isotopically and should facilitate NMR structure determination of large RNAs.

Ribonucléoside monophosphate (NMP)

ARN

Marquage isotopique

Séparation de NMP

Purification par affinité

Résonance magnétique nucléaire (RMN)

Ribonucleoside monophosphate (NMP)

NMP separation

RNA

Affinity purification

Isotopic-labeling

Nuclear magnetic resonance (NMR)

Caractérisation structurale et fonctionnelle des interactions impliquant TFIIH et la machinerie de réparation de l’ADN

Lafrance-Vanasse, Julien

09 1900

La réparation de l’ADN par excision des nucléotides (NER) est un mécanisme capable de retirer une large variété de lésions causant une distorsion de la double hélice, comme celles causées par les rayons ultraviolets (UV). Comme toutes les voies de réparation de l’ADN, la NER contribue à la prévention de la carcinogénèse en prévenant la mutation de l’ADN. Lors de ce processus, il y a d’abord reconnaissance de la lésion par la protéine XPC/Rad4 (humain/levure) qui recrute ensuite TFIIH. Ce complexe déroule l’ADN par son activité hélicase et recrute l’endonucléase XPG/Rad2 ainsi que d’autres protéines nécessaires à l’excision de l’ADN. Lors de son arrivée au site de lésion, XPG/Rad2 déplace XPC/Rad4. TFIIH agit également lors de la transcription de l’ADN, entre autres par son activité hélicase. Outre cette similarité de la présence de TFIIH lors de la transcription et la réparation, il est possible de se demander en quoi les deux voies sont similaires. Nous nous sommes donc intéressés aux interactions impliquant TFIIH et la machinerie de réparation de l’ADN. Nous avons donc entrepris une caractérisation structurale et fonctionnelle de ces interactions. Nous avons découvert que Rad2 et Rad4 possèdent un motif d’interaction en nous basant sur d’autres interactions de la sous-unité Tfb1 de TFIIH. Par calorimétrie à titrage isotherme, nous avons observé que les segments de ces deux protéines contenant ce motif interagissent avec une grande affinité au domaine PH de Tfb1. Le site de liaison de ces segments sur Tfb1PH est très semblable au site de liaison du domaine de transactivation de p53 et au domaine carboxy-terminal de TFIIEα avec Tfb1PH, tel que démontré par résonance magnétique nucléaire (RMN). De plus, tous ces segments peuvent faire compétition les uns aux autres pour la liaison à Tfb1PH. Nous avons aussi démontré in vivo chez la levure qu’une délétion de Tfb1PH crée une sensibilité aux radiations UV. De plus, la délétion de multiples segments de Rad2 et Rad4, dont les segments d’interaction à Tfb1PH, est nécessaire pour voir une sensibilité aux rayons UV. Ainsi, de multiples interactions sont impliquées dans la liaison de Rad2 et Rad4 à TFIIH. Finalement, les structures des complexes Rad2-Tfb1PH et Rad4-Tfb1PH ont été résolues par RMN. Ces structures sont identiques entre elles et impliquent des résidus hydrophobes interagissant avec des cavités peu profondes de Tfb1PH. Ces structures sont très semblables à la structure de TFIIEα-p62PH. Ces découvertes fournissent ainsi un lien important entre la transcription et la réparation de l’ADN. De plus, elles permettent d’émettre un modèle du mécanisme de déplacement de XPC/Rad4 par XPG/Rad2 au site de dommage à l’ADN. Ces connaissances aident à mieux comprendre les mécanismes de maintient de la stabilité génomique et peuvent ainsi mener à développer de nouvelles thérapies contre le cancer. / The nucleotide excision repair pathway (NER) is a mechanism capable of removing a wide variety of helix-distorting lesions, such as those caused by ultraviolet irradiation (UV). As all DNA repair pathways, NER contributes to the prevention of carcinogenesis by preventing DNA mutation. During this process, the lesion is first recognized by the protein XPC/Rad4 (human/yeast), which then recruits TFIIH. This complex unwinds the DNA with its helicase activity and then recruits the endonuclease XPG/Rad2 and other proteins necessary for DNA excision. Upon arrival at the lesion site, XPG/Rad2 displaces XPC/Rad4. TFIIH also acts in DNA transcription, using its helicase activity. In addition to the similarity of the presence of TFIIH in transcription and DNA repair, it is possible to ask ourselves how the two pathways are similar. We were interested in the interactions involving TFIIH and the DNA repair machinery. We have therefore undertaken a structural and functional characterization of these interactions. We have found that Rad2 and Rad4 have a motif of interaction based on other interactions of the Tfb1 subunit of TFIIH. Using isothermal titration calorimetry, we found that segments of these two proteins containing this motif interact with high affinity to the PH domain of Tfb1. The binding site of these segments is very similar to Tfb1PH binding site of transactivation domain of p53 and the carboxyl-terminal domain of TFIIEα with Tfb1PH, as demonstrated by nuclear magnetic resonance (NMR). In addition, these segments can compete with each other for binding to Tfb1PH. We also demonstrated in vivo that deletion of Tfb1PH in yeast creates a sensitivity to UV irradiation. In addition, the deletion of multiple segments of Rad2 and Rad4, including segments of interaction Tfb1PH, is required to observe a sensitivity to UV. Thus, multiple interactions are involved in the binding of TFIIH to Rad2 and Rad4. Finally, the structures of the Rad2-Tfb1PH and Rad4-Tfb1PH complexes were solved by NMR. These structures are identical to each other and involve hydrophobic residues interacting with shallow grooves on Tfb1PH. These structures are very similar to the structure of TFIIEα-p62PH. These findings provide an important mechanistic link between transcription and DNA repair. In addition, they provide a model of the mechanism of the displacement of XPC/Rad4 by XPG/Rad2 at the damaged site. This knowledge helps to better understand the mechanisms of genomic stability and can lead to novel cancer therapies.

XPC/Rad4

XPG/Rad2

TFIIH

interaction protéine-protéine

résonance magnétique nucléaire

titrage calorimétrique isotherme

Nucleotide excision repair of DNA

protein-protein interaction

nuclear magnetic resonance

isothermal titration calorimetry