Design of Mixing Pulses for NMR Spectroscopy by Repeated Rotating Frames

Coote, Paul William

06 June 2014

In protein NMR spectroscopy, homonuclear mixing pulses are used to reveal correlations amongst chemically bonded nuclear spins. / Engineering and Applied Sciences

Engineering

Hartmann-Hahn mixing

NMR spectroscopy

Pulse design

TOCSY

<b>Developing a 1D-TOCSY NMR-Based Dereplication Technique to Facilitate the Isolation of New, Cytotoxic Compounds from Natural Products</b>

Diaz-Allen, Cassandra

08 September 2022

No description available.

Analytical Chemistry

Biochemistry

Chemistry

Medicine

Organic Chemistry

Pharmaceuticals

Pharmacology

Pharmacy Sciences

TOCSY

NMR

Natural Products

Dereplication

Applications of NMR techniques: Hyphenations (LC-SPENMR), affinity (DOSY) and NOE based (STD and Tr-OESY) to probe the binding interactions of ligands (synthetic and natural) towards protein

Ahmad, Sheraz

17 January 2014

Made available in DSpace on 2016-06-02T20:34:49Z (GMT). No. of bitstreams: 1 5686.pdf: 10016184 bytes, checksum: e6a42772f0db7983f4cc9525851f9c5b (MD5) Previous issue date: 2014-01-17 / Universidade Federal de Sao Carlos / O foco principal desse trabalho foi a implementação, otimização e aplicações práticas de métodos de ressonância magnética nuclear (RMN) com o propósito de avaliar as interações entre moléculas de diferentes massas molares, sendo que essas técnicas foram implementadas pela primeira vez no laboratório de RMN do DQ-UFSCar. Existem várias abordagens que podem ser utilizadas com esse propósito, e dentre elas, destacamos: STD NMR, Tr-NOESY, WaterLOGSY, SALMON, INPHARMA, DOSY, SAR. Esses métodos são muito úteis para detectar mudanças de comportamento, a nível molecular, quando adicionamos macromoléculas em um meio contendo somente micromoléculas. O entendimento desse comportamento molecular ajuda a desvendar sistemas complexos de interações moleculares existentes no corpo humano, e que, são muito importantes para o descobrimento de novos medicamentos. O primeiro passo para a implementação das técnicas foi a utilização da proteína de soro bovino (do inglês BSA) e proteína de soro humano (do inglês HSA) como fonte de macromoléculas e micromoléculas orgânicas isoladas da fração etanólica do extrato bruto (1 mg) de Rauia resinous e da fração acetato de etila de Strypnodendron polyphyllum, utilizando cromatografia líquida de alta eficiência, extração por fase sólida e a ressonância magnética nuclear (CLAE-EFS/RMN) para a completa elucidação estrutural quando necessário. As técnicas utilizadas foram: saturation transfer difference (STD), transfer nuclear Overhauser spectroscopy (Tr-NOESY) e STD-TOCSY (total correlation spectroscopy). Essa mesma metodologia além de representar um importante mecanismo para avaliar as interações entre moléculas, também pode ser utilizada para outras matrizes variando tanto as macro quanto as micromoléculas. / The main focus of this work was the implementation, optimization and practical applications of nuclear magnetic resonance (NMR) methods for the purpose of evaluating the interactions between molecules of different masses, and these techniques were implemented for the first time in the laboratory NMR DQ - UFSCAR. There are a number of ligand-based screening approaches available, such that, STD NMR, Tr-NOESY, WaterLOGSY, SALMON, INPHARMA, DOSY, SAR by NMR etc. These methods are sensitive towards the perturbations as results of the macromolecular addition in a medium containing the small molecules. The molecular understanding of this behavior helps to uncover the complex systems of molecular interactions existing in the human body, which are very important for the discovery of new medicines. In the first step while implementing these techniques, Bovine Serum Albumin (BSA) and Human Serum Albumin (HSA) as a source of organic macromolecules were used. While, for the small organic molecules, a 1 mg crude extract from the hydroethanolic fraction of the Rauia resinous and ethyl acetate fraction of Strypnodendron polyphyllum was utilized, however, for the complete structural characterization, solid phase extraction following high-pressure liquid chromatography in an integrated fashion and then nuclear magnetic resonance (LC-SPE/NMR) was employed when necessary. On the other hand, the ligand screening techniques used were the saturation transfer difference (STD), Nuclear Overhauser Transfer Effect SpectroscopY (Tr- NOESY), Diffusion-Order Spectroscopy (DOSY) and STD- TOCSY (TOtal Correlation SpectroscopY). More importantly, this methodology also represents an important mechanism to evaluate the interactions between molecules or the first hand detection of the active constituents/inhibitors, which can also be used for other matrices varying both the macro and the small molecules.

STD NMR

Tr-NOESY

STD-TOCSY

Química orgânica

Ressonância magnética nuclear

Interação ligante-proteína

CIENCIAS EXATAS E DA TERRA::QUIMICA

Identification and Dereplication of Bioactive Secondary metabolites of Penicillium aurantiacobrunneum, a Fungal Associate of the Lichen Niebla homalea

Tan, Choon Yong

02 September 2020

No description available.

Pharmacy Sciences

Natural products

dereplication

selective 1D TOCSY

Penicillium aurantiacobrunneum

lichen

Niebla homalea

secondary metabolites

bioassay guided

anticancer

fungus

Pushing the Limits of NMR Sensitivity and Chiral Analysis : Design of New NMR Methods and Bio-Molecular Tools

Lokesh, N

January 2015

The thesis entitled "Pushing the Limits of NMR Sensitivity and Chiral Analysis: Design of New NMR Methods and Bio-molecular Tools" consists of six chapters. The research work reported in this thesis is focused on the development of novel chemical and NMR methodological approaches for enantiomeric analysis and mea- surement of residual dipolar couplings (RDCs), and the development of sensitivity enhanced slice selective NMR experiments for obtaining pure shift 1H spectra and the measurement of scalar couplings. The thesis is divided into two parts. The Part I comprises chapters 2-4, where the enantiomeric analysis is discussed, which includes newly developed chiral reagents, two new weak chiral aligning media and design of novel NMR techniques. Part II comprises chapters 5 and 6, which discusses new sensitivity enhanced slice selective NMR techniques. Chapter 1 gives a general introduction to NMR and the problems investigated in the remaining chapters of the thesis. The chapter starts with a brief discussion on the introduction, advancements and general applications of NMR, discussion is also given on the NMR approaches for enantiomeric analysis both in isotropic and anisotropic phases and the measurement of RDCs, including the benefits and limitations associated with each approach. The chapter sets the tone by discussing limitations of the existed NMR enantiomeric approaches and slice-selective techniques, and builds the bridge for the rest of the chapters by addressing these limitations. The chapter also introduces slice selective experiments, their benefits over other conventional methods and limitations. Additional introductory notes are also given on some related concepts. Part I : NMR Chiral analysis and RDCs measurements Chapter 2 discusses chiral sensing properties of RNA nucleosides and their utility as chiral derivatizing agents for the enantio-discrimination of 1o-amines using one dimensional 1H NMR. A three component protocol has been proposed for the complexation of nucleosides with amines, which is rapid, economical and provides maximum diastereomeric conversion. The chiral differentiating ability of nucleosides are examined for different amines based on the 1H NMR chemical shift differences between the diastereomers (∆δ R, S ). Enantiomeric differentiation has been observed at multiple chemically distinct proton sites. It is observed that adenosine and guanosine exhibit large chiral differentiation (∆δ R, S ) due to the presence of a purine ring. The comparison of the diastereomeric excess (de) measured by NMR with those of the gravimetrically prepared ratios are in excellent agreement with each other confirming the robustness of these RNA nucleosides in discriminating primary amines. Chapter 3 establishes the smooth connectivity with the chapter 2 by discussing the limitations of the enantiomeric discrimination using NMR in isotropic solutions. This chapter discusses two new water compatible aligning media that were developed based on self-assembling strategy of small bio-molecules. The self-assembled folic acid, and the binary mixture of 50-GMP and guanosine are introduced as two novel weak aligning media. The properties of these low ordered media have been systematically studied for their easy preparation, physical parameter dependent tunability of their degree of alignment, mesosphere sustainability over a broad range of temperature and the concentration of the ingredients, and the phase reproducibility. The applications of both these new media are demonstrated for chiral and pro-chiral discrimination and also for the measurement of RDCs. Both these liquid crystalline media could be tuned to very low degree of alignment (order parameter of the order of 10−4), which provides simple first order spectra of molecules aligned in them, the analysis provide order dependent NMR spectral parameters. The 50-GMP:guanosine orienting medium can be prepared in less than 1 hour, and has been demonstrated to be an ideal medium for the determination of RDCs that are used as restraints in the structure calculations of small molecules. Chapter 4 describes 1H NMR spectral complexity in isotropic and anisotropic phases and its consequences on enantiomeric analysis. In circumventing such problems, new NMR techniques have been developed and the spin dynamics involved in the designed sequences are discussed. The newly developed 2D 1H NMR experimental method termed as RES-TOCSY, and its applicability for resolving R and S enantiomeric or diastereomeric peaks of all the coupled proton spins in isotropic phase is discussed. The utility of the developed method is demonstrated in diverse situations, such as, for suppressing impurities peaks, resolving the severely overlapped peaks and unraveling the peaks masked due to severe line broadening when metal complexes are used as chiral auxiliaries. The advantages and limitations of the method over other methods available in the literature are discussed and the significant advantage of the present method is illustrated by spectral comparison with J-resolved experiment. The appli- cation of the method for the accurate measurement of enantiomeric excess has also been demonstrated. The chapter also introduces another NMR experimental technique developed for resolving enantiomeric peaks and complete unraveling of R and S spectra in anisotropic phase. The developed 2D NMR method is cited in the literature as CH-RES-TOCSY. In addition to spectroscopic visualization of R and S spectra, the method also yields C-H RDCs. The applicability of the new experiment has been demonstrated on a chosen example. The wide utility of the method has also been demonstrated for the assignment of symmetric cis- and trans- isomers. Part II : Sensitivity Enhancement of Slice selective NMR Experiments Chapter 5 describes applications of slice selective NMR experiments over conven tional NMR methods and their limitations as far as the sensitivity of signal detection is concerned, especially in low concentrated samples. The chapter introduces the implementation of Acceleration by Sharing Adjacent Polarization (ASAP) technique in slice selective experiments. It is convincingly demonstrated that ASAP helps in reducing inter scan relaxation delay and consequently permits acquisition of more number of scans in a given time, resulting in the gain in signal enhancement by a factor of two. The pulse sequences have been suitably designed for obtaining the pure shift 1H spectra and in G-SERF experiment for the measurement of 1H-1H couplings, both with significantly enhanced signal intensities. Chapter 6 describes new sensitivity enhanced slice selective NMR methods for mea- surement of scalar couplings. A new experiment has been developed which is named as Quick G-SERF (QG-SERF). It is a 1D NMR slice selective method developed based on real time spin manipulation technique. The method gives multiple scalar couplings of a selected spin with simplified multiplets, which is analogous to the 2D G-SERF but with considerable saving in instrument time by 1-2 orders of magnitude. The rapidness of the experiment arises due to reduced dimensionality. The spin dynamics involved in the pulse sequence and its working principle have been described. The application of the method is illustrated for the measurement of 1H-1H couplings. The sequence has been further improved to obtain the heteronuclear couplings between two abundant spins in an orchestrated manner and has been demonstrated for measurement of 1H-19F couplings. This sequence cited as HF-QG-SERF has been implemented on the molecules containing number of chemically non-equivalent fluorine atoms.

Nuclear Magnetic Resonance

Chiral Analysis

NMR Chiral Analysis

Nuclear Magentic Resonance Spectroscopy

RNA Nuclosides - Chiral Sensing

Residual Dipolar Couplings (RDC)

Enantiomeric Spectroscopy

CH-RES-TOCSY

NMR Chiral Analysis

Solid State and Structural Chemistry