A Regio- and Stereodivergent Route to All Isomers of vic-Amino Alcohols

Olofsson, Berit

January 2002

<p>The first part of this thesis describes a synthetic strategythat provides all eight possible isomers of a given vic-aminoalcohol starting from vinylepoxides. The value of a generalroute is evident, as several isomers are needed ininvestigations of structure-activity relationships forpharmacologically active derivatives, and for optimizing theperformance of chiral ligands containing the amino alcoholmoiety.</p><p>Vinylepoxides, obtained in high enantiomeric excess, werering-opened both with inversion and retention ofstereochemistry, delivering two diastereomeric amino alcoholswith high regio- and stereoselectivity. Via ring-closure toaziridines and subsequent regioselective ring-opening withsuitable oxygen nucleophiles, the two remaining amino alcoholswere selectively achieved.</p><p>Within this study, two efficient protocols for theregioselective and stereospecific aminolysis of vinylepoxideshave been presented. Comparedto previous methods, theseprocedures use milder reaction conditions, shorter reactiontimes, generally give higher yields and are applicable to alarger set of substrates. Furthermore, the ring-closure ofvic-amino alcohols to the corresponding N-H vinylaziridines hasbeen investigated. Three routes have been found useful, whichone is preferred depends on substrate and scale.</p><p>In the second part of the thesis, the synthetic strategy isapplied on the synthesis of Sphingosine and its regio- andstereoisomers. Moreover, a rapid way of determining relativeconfiguration of vic-amino alcohols is described, which shouldbe of substantial use when amino alcohols are formed bydiastereoselective reactions.</p><p>amino alcohols, vinylepoxides, vinylaziridines, oxazolines,oxazolidinones, ring-opening, regioselective,diastereoselective, sphingosine, configuration, NMRspectroscopy.</p>

amino alcohols

vinylepoxides

vinylaziridines

oxazolines

oxazolidinones

ring-opening

regioselective

diastereoselective

sphingosine

configuration

NMR spectroscopy

One key to two doors : Dual targeting peptides and membrane mimetics

Ye, Weihua

January 2015

A targeting peptide at the N-terminus of a precursor protein usually directs the protein synthesized in the cytosol to a specific organelle in the cell. Interestingly, some targeting peptides, so-called dual targeting peptides (dTPs) can target their protein to both mitochondria and chloroplasts. In order to understand the mechanism of dual targeting, a dTP from threonyl tRNA synthetase (ThrRS-dTP) was investigated as a model dTP in this thesis work. The results suggest that ThrRS-dTP is intrinsically disordered in solution but has an α-helical propensity at the N-terminal part. Tom20 and Toc34 are the two primary receptors on the outer membranes of mitochondria and chloroplasts, respectively. We found that the N-terminal half of the ThrRS-dTP sequence, including an amphiphilic helix, is important for the interaction with Tom20. This part also contains a φχχφφ motif, where φ represents a hydrophobic/aromatic residue and χ represents any amino acid residue. In contrast, neither the amphiphilic helix nor φχχφφ motif in ThrRS-dTP has any special role for its interaction with Toc34. Instead, the entire sequence of ThrRS-dTP is important for Toc34 interaction, including the C-terminal part which is barely affected by Tom20 interaction. In addition, the role of lipids in the organelle membrane for the recognition of dual targeting peptides during protein import is also the focus of this thesis. The tendency to form α-helix in ThrRS-dTP, which is not observable in solution by CD, becomes obvious in the presence of lipids and DPC micelles. To be able to study such interactions, DMPC/DHPC isotropic bicelles under different conditions have also been characterized. These results demonstrate that bicelles with a long-chained/short-chained lipid ratio q = 0.5 and a concentration larger than 75 mM should be used to ensure that the classic bicelle morphology persists. Moreover, we developed a novel membrane mimetic system containing the galactolipids, MGDG or DGDG, which have been proposed to be important for protein import into chloroplasts. Up to 30% MGDG or DGDG lipids were able to be integrated into bicelles. The local dynamics of the galactolipids in bicelles displays two types of behavior: the sugar head-group and the glycerol part are rigid, and the acyl chains are flexible. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: In press.</p>

: Dual targeting peptides

protein import

mitochondria and chloroplasts

bicelles

galactolipids

NMR spectroscopy

Stereochemistry of Challenging Natural Products Studied by NMR-based Methods

Sun, Han

23 November 2012

No description available.

540

NMR spectroscopy

Stereochemistry

Natural product

Residual dipolar coupling

Absolute configuration

Chemie  (PPN62138352X)

Accessing the kinetics of the supra-tauc range via relaxation dispersion NMR spectroscopy

Ban, David

12 August 2013

No description available.

570

NMR spectroscopy

Relaxation Dispersion

Protein Dynamics

ubiquitin

supra tau-c

Biologie (PPN619462639)

Structural insights into Arginine-Serine rich proteins and N-H spin-spin coupling constants

Xiang, Shengqi

28 February 2013

No description available.

570

NMR spectroscopy

SR protein

phosphorylation

scalar coupling

hydrogen bond

Biologie (PPN619462639)

Modulating Calcium Signaling by Protein Design and Analysis of Calcium Binding Proteins

Zhuo, You

18 December 2013

Transient change of cytosolic calcium level leads to physiological actions, which are modulated by the intracellular calcium stores, and gated by membrane calcium channels/pumps. To closely monitor calcium dynamics there is a pressing need to develop calcium sensors that are targeted to high calcium environment such as the ER/SR with relatively low binding affinity and fast kinetic properties to complement the current calcium indicator toolkits. In this dissertation, the development of fast red florescent calcium binding protein using the protein design is reported. The results show the calcium dependent fluorescence increase of mCherry mutant MCD1 (RapidER) and MCD15 (RapidER’) is able to monitor the ER calcium release in several cell lines responding to perturbations of extracellular calcium signaling. The specific targeting to the ER membrane was achieved by fusing the ryanodine receptor 1 transmembrane domains for the spatio-temporal calcium imaging. To understand the underlying mechanism of calcium binding induced fluorescence increase in the designed calcium sensor CatchER, the fluorescence lifetime of CatchER was determined in calcium free and bound forms using time resolved florescence spectroscopy. The results suggest that calcium binding inhibits the geminate quenching, resulting in a longer lifetime when the anionic form is indirectly excited at 395 nm. It is believed that such unique calcium-induced lifetime change can be applied to monitor calcium signaling in cell imaging. NMR spectroscopy was used to investigate the protein-protein/ligand interaction in this dissertation. The residual dipolar coupling and T1, T2, NOE dynamic study were carried out to understand the binding mode of CaM and the N-terminal intracellular loop of connexin 43. The results show that both N and C terminal domains of Ca2+-CaM contact with the peptide, leading to a partially unwound and bending central helix of CaM. The ligand binding induced conformational change was demonstrated by selectively labeled proteins including extracellular domain of calcium sensing receptor and the bacterial membrane protein SecA fragments C34 and N68.

Protein design

Calcium binding

Kinetics

Fluorescence

NMR spectroscopy

Ligand-protein interaction

Characterization and Germination of 13C Labeled Seeds by Comprehensive Multiphase NMR Spectroscopy

Lam, Leayen

18 March 2014

Seeds are complex entities, within which the intricate processes of germination and early growth occur. We describe here a novel technique of our group in 2012 which is capable of simultaneous solution-, gel-, and solid-state analysis. CMP-NMR was applied to intact seeds where all components are studied and differentiated in situ. Characterization, germination and early growth of seeds were studied by variety of 1D and 2D 1H and 13C CMP-NMR experiments. Various metabolites, lipids, carbohydrate biopolymers and structural carbohydrates were first identified and further studied in germination and early growth stages. This research demonstrates the utility of CMP- NMR as a powerful tool to better understand the composition of seeds and processes underlying early seed growth.

multiphase

seed

NMR spectroscopy

intact sample

germination

CMP-NMR

0486

0749

Characterization and Germination of 13C Labeled Seeds by Comprehensive Multiphase NMR Spectroscopy

Lam, Leayen

18 March 2014

Seeds are complex entities, within which the intricate processes of germination and early growth occur. We describe here a novel technique of our group in 2012 which is capable of simultaneous solution-, gel-, and solid-state analysis. CMP-NMR was applied to intact seeds where all components are studied and differentiated in situ. Characterization, germination and early growth of seeds were studied by variety of 1D and 2D 1H and 13C CMP-NMR experiments. Various metabolites, lipids, carbohydrate biopolymers and structural carbohydrates were first identified and further studied in germination and early growth stages. This research demonstrates the utility of CMP- NMR as a powerful tool to better understand the composition of seeds and processes underlying early seed growth.

multiphase

seed

NMR spectroscopy

intact sample

germination

CMP-NMR

0486

0749

Many body dynamics in nuclear spin diffusion

Dumez, Jean-Nicolas

04 July 2011

Since its introduction by Bloembergen in 1949, nuclear spin diffusion has been a topic of significant interest in magnetic resonance. Spin diffusion, which can be defined as the transfer of spin polarisation induced by the dipolar interaction, is a ubiquitous transport mechanism in solids. Experimental observations of spin diffusion contain structural information. However, the many-body nature of the problem makes it difficult to describe from first principles. The central goal of this thesis is to obtain a quantitative description of the spin diffusion phenomenon from first-principles, through the development of suitable models of the underlying many-body dynamics. To that end we first consider an extension of an existing approach that relies on a master equation to describe the polarisations, for the case of proton-driven carbon-13 spin diffusion (PDSD). Second, a novel approach is introduced for the simulation of the time evolution of selected observables for large strongly coupled nuclear spin systems, using low-order correlations in Liouville space (LCL). Following the introduction of this new simulation method, Liouville-space reduction in solids is analysed in more detail, in order to identify the conditions under which the LCL approximation is valid. Finally, using the LCL model, simulations of proton spin diffusion (PSD) and PDSD are performed, directly from crystal geometry and with no adjustable parameters, and are found to be in excellent agreement with experimental measurements for polycrystalline organic solids.

[CHIM:OTHE] Chemical Sciences/Other

Spin diffusion

Solid-state NMR spectroscopy

Magnetic resonance

Numerical simulation

Predicition of the molecular structure of ill-defined hydrocarbons using vibrational, 1H, and 13C NMR spectroscopy

Obiosa-Maife, Collins

Unknown Date

No description available.

Infrared Spectroscopy

Raman Spectroscopy

NMR Spectroscopy

Ill-defined hydrocarbons

Density Functional Theory (DFT)