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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Structure, Dynamics, and Distance Measurements in Membrane Proteins and Peptides using EPR Spectroscopic Techniques

Ghimire, Harishchandra 09 December 2010 (has links)
No description available.
12

Nová metoda separace peptidů za využití elektrostatické vazby / New method of peptide separation using electrostatic binding

Palágyi, Attila January 2020 (has links)
The diploma thesis deals with the development of a new method of synthetic peptide separation using electrostatic binding. It deals with the development of a multi-charged anchored linker attachable to a synthetic peptide after its synthesis on solid phase. Subsequently, it investigates the separation using electrostatic binding; however, after peptide cleavage from the anchored linker and Boc deprotection with TFA, the peptide formed so strong electrostatic interactions with the cation exchanger that we were unable to recover it. The thesis is finished with discussion and method improvement proposal. Key words: peptide separation, solid-phase peptide synthesis, SPPS, electrostatic binding
13

Synthesis of bioactive compounds: Synthetic study of D-Lac-terminated peptidoglycan fragment structures / Syntes av bioaktiva föreningar: Syntetisk studie av D-Lac-avslutade peptidoglykanfragmentstrukturer

Saito, Yu January 2021 (has links)
Peptidoglycan (PGN) är en bakteriecellväggskomponent och känd för att känna igen olika receptorer eller enzymer för att leda aktiveringsimmunsystemet. Den allmänna strukturen för PGN består av sockerkedjor inklusive N-acetylglutamin (GlcNAc), N-acetylmuraminsyra (MurNAc) och tvärbundna peptidkedjor. PGN-fragment med D-Lac-ändpeptider har hittats från vankomycinresistenta enterokocker men ett kemiskt syntetiserat PGN-fragment med en D-Lac-ändpeptid har inte undersökts i detalj. Således fokuserade vi på syntesen av PGN-fragmentstrukturer som inkluderar en D-Ala-D-Lac-rest vid den terminala delen av peptidkedjan. För att syntetisera dessa fragmentstrukturer planerade vi att kombinera fastfassyntes (för Lac-peptiddelen) och lösningsfassyntes (för glykanberedning och kondensation). Detta tillvägagångssätt är fördelaktigt för framställning av peptidoglykanfragment med en komplex grenad peptiddel. Först beredde vi sockerdelen MurNAc-derivatet i lösningsfassyntes från ett glukosderivat. Medan den Lac-innehållande peptiden framställdes med fastfas-peptidsyntes med användning av 2-klortritylkloridharts. Med denna förening gav kondensationen av dessa två föreningar det önskade D-Lac-avslutade peptidoglykanfragmentet. / Peptidoglycan (PGN) is a bacterial cell wall component and known to be recognized by various receptors or enzymes to lead the activation immune system. The general structure of PGN consists of sugar chains including N-acetylglutamine (GlcNAc), N-acetylmuramic acid (MurNAc) and cross-linked peptide chains. PGN fragments having D-Lac terminus peptides have been found from vancomycin-resistant enterococcus, but a chemically synthesized PGN fragment having a D-Lac terminus peptide has not been examined in detail. Thus, we focused on the synthesis of PGN fragment structures that include a D-Ala-D-Lac residue at the terminal part of the peptide chain. In order to synthesize these fragment structures, we planned to combine solid-phase synthesis (for the peptide- Lac part) and solution-phase synthesis (for glycan preparation and the condensation). This approach is advantageous for the preparation of peptidoglycan fragments having complex branched peptide moiety. First, we prepared the sugar moiety MurNAc derivative in solution-phase synthesis from a glucose derivative. While, the Lac-containing peptide was prepared with solid-phase peptide synthesis using 2-chlorotrityl chloride resin. Having this compound, the condensation of these two compounds gave the desired D-Lac-terminated peptidoglycan fragment.
14

Minimizing Liquid Waste in Peptide Synthesis : A New Application for the Rotating Bed Reactor

Nordström, Peter January 2021 (has links)
Peptide drugs are used to treat a broad spectrum of diseases such as cancer and HIV and have many more promising applications, such as new vaccines against SARS-CoV-2. The most popular manufacturing method for peptides is solid-phase peptide synthesis (SPPS). The main drawback of SPPS is that it is a costly and wasteful process.  SpinChem is a company that provides technology solutions for chemical processes. Recently, SpinChem has started investigating if their Rotating Bed Reactor (RBR) is suitable for peptide synthesis. The goal of this project is to investigate how the RBR can make processes like SPPS more resource-efficient. The idea is that the RBR-system can maximize the solid-phase to liquid ratio (STL). The STL is the ratio of the volume of solid-phase material and the volume of liquid. By maximizing the STL, it is possible to manufacture peptides using less solvents and chemicals. The main quest of the project is formulated into a single question:  How does a high STL affect the efficiency of the RBR-system?  To answer the question, Minitab's statistical software and design of experiments (DOE) will be used to plan and perform experiments in both lab- and industrial scales. DOE factorial experiments are used to gain as much information as possible about the new RBR-system. The results are analyzed and summarized to make a solid foundation for the continued work on the new RBR application.  Peptide synthesis efficiency in the RBR-system is measured using ionic adsorption. The ionic adsorption rate is measured in both lab-scale and industrial-scale experiments. In the lab-scale experiments, the decrease of ions was on average 86,5% after just 15 s with an average STL of 0,936. The industrial-scale experiments showed a similar result where the average decrease in ions was 92,9% after 20 s with an average STL of 0,947. It was concluded that the RBR-system can reduce the consumption of washing-solvent in SPPS by up to 82%.
15

Design, Syntheses, and Bioactivities of Conformationally Locked Pin1 Ground State Inhibitors

Wang, Xiaodong 12 April 2005 (has links)
Pin1 (protein interacting with NIMA 1) is a peptidyl-prolyl isomerase involved in mitosis. As a potential anti-cancer drug target, Pin1 interacts and regulates the activity of an increasing number of cell cycle enzymes by an unknown mechanism. These cell cycle enzymes include Cdc25, Cdc27, Cyclin D1, Myt1, Wee1, NIMA, Cdc2, Plk1 and c-Myc. Recent research has revealed that Pin1 is overexpressed in a variety of cancer cell lines and Pin1 inhibitors inhibit proliferation activity of several cancer cells overexpressing Pin1. The most potent Pin1 inhibitors identified so far are in the micromolar range and no pharmacophore has been identified. In order to assist the understanding of the biological function of Pin1 using molecular probes, two amide isosteres of Ser-<i>trans</i>-Pro and Ser-<i>cis</i>-Pro dipeptides were designed and stereoselectively synthesized. The conformationally locked Ser–<i>trans</i>–Pro mimic, Boc-SerΨ[(<i>E</i>)CH=C]Pro–OH, was synthesized through the use of an Ireland-Claisen [3,3]-sigmatropic rearrangement in nine steps with 13% overall yield from a serine derivative. The Ser-<i>cis</i>-Pro mimic, Boc-SerΨ[(<i>Z</i>)CH=C]Pro–OH, was synthesized through the use of a Still-Wittig [2,3]-sigmatropic rearrangement in 11 steps with an overall yield of 20% from the same starting material. Conformationally locked peptidomimetics, including two exactly matched peptidomimetics, Ac–Phe–Phe–pSer–Ψ(<i>E</i>)CH=C]Pro–Arg–NH2 and Ac–Phe–Phe–pSer–Ψ[(<i>Z</i>)CH=C]Pro–Arg–NH2, were synthesized from these Ser-Pro isosteres using Fmoc SPPS. A protocol for in vitro Pin1 inhibition assay was established for measuring the inhibition constant for these peptidomimetics. A conformationally locked cis peptidomimetic inhibits Pin1 with a <i>K</i><sub>i</sub> of 1.7 <i>μ</i>M, 23-fold more potent than its trans counterpart, illustrating the preference of Pin1 for a cis amide bond in its PPIase domain. The A2780 ovarian cancer cell antiproliferation activity of these peptidomimetics parallels their respective Pin1 inhibition data. This research provides a start toward more drug-like Pin1 inhibitor design. Gly–<i>trans</i>–Pro isosteres were synthesized using the Ireland-Claisen route. The construction of a non-peptidic (Z)-alkene library for Pin1 inhibition was attempted using the Ser-<i>cis</i>-Pro mimic, Boc—SerΨ[(Z)CH=C]Pro–OH as the core. / Ph. D.
16

Unraveling Phytosulfokine Trafficking in Arabidopsis thaliana Using Fiber-Optic Fluorescence Microscopy

Obuaba, Issaka 01 December 2024 (has links) (PDF)
As sessile organisms, plants manage stress through complex signaling networks involving phytohormones such as phytosulfokine (PSK). PSK, a disulfated pentapeptide, regulates plant growth, development, and stress responses by interacting with specific PSK receptors (PSKRs). In this study, we explored the trafficking dynamics of PSK, its post-application fate, and the synthesis of an analog. We administered both native PSK and a fluorescent version tagged with TAMRA (5(6)-carboxytetramethylrhodamine) to various Arabidopsis thaliana genotypes, including wild type, a PSKR-deficient mutant, and a strain overexpressing PSKR1 tagged with green fluorescent protein (GFP) over the wild-type background. Fiber-optic fluorescence microscopy revealed that receptor presence influences PSK’s internal movement. Additionally, we extracted TAMRA–PSK from treated plants and recovered it using solid-phase extraction to assess its stability post-application. HPLC analysis suggested that TAMRA–PSK is substantially unchanged in the plant matrix. Furthermore, a PSK analog was partially synthesized via solid-phase peptide synthesis for future studies.
17

Synthesis of Fmoc-3-(N-ethyl-3-carbazolyl)-L-alanine and Its Incorporation into a Cyclic Peptide

Pan, Jinhong 14 August 2002 (has links)
"Ghadiri reported the first synthetic peptide nanotubue in 1993, which has triggered extensive studies on peptide-based nanotubes and their potential application in molecular wires, catalysts and novel drug delivery vehicles. Our concerns focus on chromophore-modified cyclic peptides, which open a new way to design and synthesize novel nanoscale electronic or photonic devices, and are expected to provide the highly efficient electron and energy transfer that such devices require. This research concerned the design and synthesis of chiral a-amino acids with specific chromophores, including N-ethyl-3-carbazolylalanine and 9-anthrylalanine, and an 8-mer linear peptide (H-Aib-Car-Aib-Phe-Aib-Bpa-Aib-Phe-OH) and its corresponding cyclic peptide cyclo(Aib-Car-Aib-Phe-Aib-Bpa-Aib-Phe) that incorporate the N-ethyl-3-carbazolylalanine. This thesis describes the relevant background, synthetic strategies, experiments and results in detail. The carbazole derivatives were found to be very labile to strong acid, which might have caused self-condensation. In order to avoid the formation of acid-derived side-products, the Wittig-Horner reaction was used successfully in preparation of N-protected-3-(N'-ethyl-3-carbazolyl)-DL-alanine methyl ester. Dual enzymatic hydrolyses were developed to produce the chiral amino acids with high enantiomeric excess. ChiroCLEC-BL was used to selectively hydrolyze the N-acetyl-L-amino acid methyl ester, while amanoacylase was adopted to remove the acetyl group from the resulting N-acetyl-L-amino acid. Two model peptides were synthesized, a 4-mer peptide (H-Car-D-Ala-Bpa-D-Ala-OH) via the Boc-strategy, and an 8-mer peptide (H-Ala-D-Ala-Npa-D-MeAla-Ala-D-Ala-Bpa-D-Ala-OH) by the Fmoc-strategy. Eventually, the target linear peptide was synthesized via the Fmoc-strategy and then cyclized in solution."
18

Design, Synthesis, and Evaluation of Bicyclic Peptides as Ammonium Ionophores

Nowak, Cheryl L 28 April 2003 (has links)
A series of bicyclic peptides have been designed and synthesized to provide ammonium ion complexation sites via hydrogen bonding in a tetrahedral geometry. Molecular modeling dynamics and electrostatics studies indicate that target compounds 1d-6d may provide better selectivity for ammonium ions over potassium ions than the ammonium ionophore currently used for blood analysis applications, nonactin. Attempts to synthesize 1d, cyclo(L-Glu1�D-Val2�L-Ala3�D-Lys4�D-Val5�L-Val6)-cyclo-(1ã-4å), were unsuccessful due to poor solubility of the synthetic intermediates. This led to the design of 2d-6d in which specific amino acid residues were chosen to provide higher solubility. Compound 2d, cyclo(L-Glu1�D-Ala2�D-Ala3�L-Lys4�D-Ala5�L-Ala6)-cyclo-(1ã-4å), was successfully synthesized, but was also too insoluble for characterization or testing in an ion selective electrode (ISE) sensor format. Compound 6d, cyclo(L-Glu1�D-Leu2�Aib3�L-Lys4�D-Leu5�D-Ala6)-cyclo-(1ã-4å), was successfully synthesized and characterized. When 6d was incorporated into an ISE sensor and tested as an ammonium ionophore, results indicated that the bicyclic peptide lacked solubility in the ISE membrane. A 13C-NMR study has been initiated in order to evaluate selectivity of 6d for ammonium over potassium and sodium cations in solution. Preliminary results with the potassium ionophore valinomycin as a control have been completed.
19

The MHC-glycopeptide-T cell interaction in collagen induced arthritis : a study using glycopeptides, isosteres and statistical molecular design in a mouse model for rheumatoid arthritis

Holm, Lotta January 2006 (has links)
<p>Rheumatoid arthritis (RA) is an autoimmune disease affecting approximately 1% of the population in the western world. It is characterised by a tissue specific attack of cartilage in peripheral joints. Collagen induced arthritis (CIA) is one of the most commonly used animal models for (RA), with similar symptoms and histopathology. CIA is induced by immunisation of mice with type II collagen (CII), and the immunodominant part was previously found to be located between residues 256-270. This thesis describes the interaction between the MHC molecule, glycopeptide antigens from CII and the T cells that is essential in development of CIA. The glycopeptide properties for binding to the mouse MHC molecule Aq have been studied, as well as interaction points in the glycopeptide that are critical for stimulation of a T-cell response.</p><p>The thesis is based on five studies. In the first paper the minimal glycopeptide core, that is required for binding to the Aq molecule while still giving a full T cell response was determined. The second paper studied the roles of amino acid side-chains and a backbone amide bond as T-cell contact points. In the third paper the hydrogen bond donor-acceptor characteristics of the 4-OH galactose hydroxyl group of the glycopeptide was studied in detail. In the fourth paper we established a structure activity relationship (QSAR model) for (glyco)peptide binding to the Aq molecule. Finally, the stereochemical requirements for glycopeptide binding to the Aq molecule and for T-cell recognition was studied in the fifth paper.</p><p>The study was performed using collagen glycopeptide analogues, which were synthesised on solid phase. Amide bond and hydroxyl group isosteres were introduced for study of hydrogen bond donor-acceptor characteristics. Statistical methods were used to design a representative peptide test set and in establishing a QSAR model.</p><p>The results give a deeper understanding of the interactions involved in the ternary MHC-glycopeptide-T cell complex. This information contributes to research directed towards finding new treatments for RA.</p>
20

Apoptosis Regulation via the Mitochondrial Pathway : Membrane Response upon Apoptotic Stimuli

Sani, Marc-Antoine January 2008 (has links)
The aim of this thesis was the investigation of the mitochondrial response mechanisms upon apoptotic stimuli. The specific objectives were the biophysical characterization of membrane dynamics and the specific roles of lipids in the context of apoptotic regulation occurring at the mitochondrion and its complex membrane systems. The BH4 domain is an anti-apoptotic specific domain of the Bcl-2 protein. Solid phase peptide synthesis was used to produce large amount of the peptide for biophysical studies. A protocol has been established and optimized, guarantying the required purity for biophysical studies. In detail the purification by high performance liquid chromatography and the characterisation via mass spectroscopy are described. The secondary structure of BH4 changes significantly in the presence of lipid vesicles as observed by infrared spectroscopy and circular dichroism. The BH4 peptide aggregates at the membrane surface and inserts slightly into the hydrophobic part of the membrane. Using nuclear magnetic resonance (NMR) and calorimetry techniques, it could even be shown that the BH4 domain modifies the dynamic and organization of the liposomes which mimic a mitochondrial surface. The second study was on the first helix of the pro-apoptotic protein Bax. This sequence called Bax-α1 has the function to address the cytosolic Bax protein to the mitochondrial membrane upon activation. Once again a protocol has been established for the synthesis and purification of this peptide. The aim was to elucidate the key role of cardiolipin, a mitochondria-specific phospholipid, in the interaction of Bax-α1 with the mitochondrial membrane system. The NMR and circular dichroism studies showed that Bax-α1 interacts with the membrane models only if they contain the cardiolipin, producing a strong electrostatic lock effect which is located at the membrane surface. Finally, a new NMR approach was developed which allows the investigation of the lipid response of isolated active mitochondria upon the presence of apoptotic stimuli. The goal was there to directly monitor lipid specific the occurring changes during these physiological activities.

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