Global ETD Search

21	Expression and Purification of Engineered Calcium Binding Proteins Castiblanco, Adriana P 21 April 2009 (has links) Previous studies in Dr. Yang’s laboratory have established a grafting, design, and subdomain approach in order to investigate the properties behind Ca2+-binding sites located in Ca2+-binding proteins by employing engineered proteins. These approaches have not only enabled us to isolate Ca2+-binding sites and obtain their Ca2+-binding affinities, but also to investigate conformational changes and cooperativity effects upon Ca2+ binding. The focus of my thesis pertains to optimizing the expression and purification of engineered proteins with tailored functions. Proteins were expressed in E. coli using different cell strains, vectors, temperatures, and inducer concentrations. After rigorous expression optimization procedures, proteins were further purified using chromatographic and/or refolding techniques. Expression and purification optimization of proteins is essential for further analyses, since the techniques used for these studies require high protein concentrations and purity. Evaluated proteins had yields between 5-70 mg/L and purities of 80-90% as confirmed by SDS-PAGE electrophoresis. Ion exchange chromatography Hydrophobic interaction chromatography Protein refolding Calcium sensing receptor Affinity chromatography Calmodulin STIM1
22	Construction, expression, and purification of soluble CD16 in bacteria Sinotte, Christopher Matthew 24 May 2006 (has links) CD16 is a physiologically essential Fc and #947; receptor III as either a single- pass transmembrane protein (CD16A) or as a glycosylated phosphatidylinositol (GPI) anchored protein (CD16B) on the surface of immune cells that have been implicated in many autoimmune and immune complex-mediated diseases. Its functions include binding and clearing antibody (IgG) coated foreign pathogens, receptor-mediated phagocytosis, and triggering antibody dependent cellular cytotoxicity. It is well established that these functions depend on protein-protein interaction between CD16 and the Fc domain of IgG. However, the molecular details of CD16-IgG interactions are less well defined, but are essential to developing therapeutic compounds to treat many autoimmune and IC diseases. Stable mammalian cell lines expressing wild-type CD16 isoforms and site-specific mutants, including extracellular soluble fragments of CD16 have been established. Soluble forms of wild type CD16A and these CD16 mutants were expressed in a bacterial pathway in order to amass sufficient quantities for x-ray crystallographic studies. The soluble portions of wild-type CD16A and several site-specific CD16A and CD16B mutants were constructed by PCR amplification and ligation with a pET vector. The proteins were expressed in a prokaryotic pathway, BL21 AI, for 8-10 hours and lysed to obtain inclusion bodies. A hand-held sonicator was used to wash the inclusion bodies, while a Urea solution separated and dissolved the proteins. The target proteins were then refolded by rapid dilution, concentrated with a stir cell, and purified. Wild type sCD16A and four site specific mutants were constructed with good sequencing, while wild type sCD16A, sCD16A F176V, and sCD16A G147D were expressed and refolded to optimal levels. X-ray crystallographic data has been collected from sCD16A F176V as a result of these studies and crystals are currently being grown from wild type sCD16A and sCD16A G147D. X-ray crystallography Protein refolding Prokaryotic expression CD16 X-ray crystallography Microbial genetics Prokaryotes Protein folding
23	Etudes structurales de l'ARN messager de l'histone H4 D'Orchymont, Arnaud 27 November 2013 (has links) (PDF) Chez les Eucaryotes, l'étape d'initiation est de loin la plus complexe et la plus lente du processus de traduction. Elle nécessite l'intervention de 12 facteurs protéiques, d'une coiffe m7GpppN située à l'extrémité 5' des ARNm et d'une queue poly(A) en 3'. Les ARNm des histones " réplication-dépendantes " sont particuliers car dépourvus d'extrémité 3' polyadénylée et dotés d'une extrémité 5' non traduite extrêmement courte, de 9 nt seulement chez l'ARNm H4 de la souris. Pour traduire ces ARNm, un processus d'initiation non conventionnel a été décrit au laboratoire. L'objectif de ma thèse a été d'établir les bases structurales de ce mécanisme en combinant différentes approches expérimentales. Deux protocoles originaux de repliement ont été mis au point afin d'isoler l'ARNm H4 dans deux conformations distinctes et stables. Une caractérisation fonctionnelle et structurale de ces deux formes de l'ARNm a ensuite été réalisée. La stabilité et la structure de ces deux formes ont été étudiées par DLS, par SAXS et par équilibre de sédimentation. Puis, nous avons étudié la capacité de ces deux formes d'ARNm H4 à fixer le facteur d'initiation eIF4E et les ribosomes assemblés sur le codon d'initiation ainsi que leur aptitude à être traduits in vitro. Un modèle de repliement de la structure secondaire de l'ARNm H4 a été construit après sondage enzymatique et chimique des deux formes de l'ARNm. Ce modèle a servi de base pour le travail d'ingénierie de l'ARNm H4 qui a conduit à son découpage en sous-domaines. Des essais de cristallisation ont porté sur 18 de ces fragments ainsi que sur les deux formes de l'ARNm H4 complet. [SDV:BC] Life Sciences/Cellular Biology MRNA Refolding Structure Translation Histone
24	Researching the improbable: is there a recipe to “unboil” an egg? / Investigando lo improbable: ¿existe una receta para “deshervir” un huevo? Mendoza Paredes, Erick 25 September 2017 (has links) El premio Ig-Nobel de Química de este año 2015 fue entregado al profesor Tom Yuan y su equipo de colaboradores por crear una receta para “deshervir un huevo” de forma sencilla. Aunque no lo aparente, este trabajo es de vital importancia, pues ofrece la posibilidad de regresar proteínas desnaturalizadas y agregadas a su estado natural, lo que podría beneficiar a la industria actual evitando la pérdida de miles de millones de dólares. / Professor Tom Yuan and his team were awarded the Ig-Nobel Prize in Chemistry 2015 for creating a recipe to “unboil” an egg. Although it may seem unimportant, this work has crucial importance, as it offers the possibility of refolding denatured proteins and getting them back to its natural state. This research might have an impact on industry, as it could prevent the loss of billions of dollars. Chemistry Ig-Nobel Boil Egg Protein Refolding Ig-Nobel Hervir Huevo Replegamiento De Proteínas
25	Antimicrobial Proteins for Human Health Berhane, Nahom Ahferom January 2018 (has links) Bacteria are one of the largest causes of human disease, with millions of deaths every year attributed to bacterial infections, and they have become more difficult to tackle with the widespread emergence of antibiotic resistance. In this thesis, I describe my studies that pursued two approaches: one focus was on using antimicrobial histones as an alternative to treatment for antibiotic resistant bacteria; in another approach the recombinant version of an eggshell cuticle protein was expressed and purified for testing against food-safety pathogens. One major pathogen that is contributing to this challenge of antibiotic resistance is Staphylococcus aureus. The methicillin-resistant strain of S. aureus leads to increased hospital stays and increased mortality in patients. The impact of such pathogens is worsened when bacteria form surface-attached aggregates known as biofilms. Development of new approaches to eradicate antibiotic- resistant biofilms will benefit human health. This study looked at an alternative method to eradicate bacteria compared to traditional antibiotics. Histones with antimicrobial activity were extracted from chicken blood and tested against methicillin-sensitive and methicillin-resistant strains of Staphylococcus aureus biofilm (MSSA and MRSA). The histone mixture completely eradicated both strains in biofilm form at relatively low concentrations. In addition, the histone mixture also displayed fast kill kinetics against planktonic forms of the two strains. Finally, the interaction of the histone mixture with the bacterial membrane in MRSA biofilms was observed by scanning electron microscopy (SEM). Bacteria treated with the histone mixture showed clear morphological changes, including pore formation and cell collapse. Therefore, the histone mixture purified from chicken red blood cells could prove to be a good alternative to traditional antibiotics for protection against antibiotic-resistant strains of bacteria in their planktonic and biofilm forms. Reduction of food-borne illness is another important aspect in the promotion of human health. A significant contributor to food-borne illness is contaminated table eggs. The unfertilized egg can be contaminated by a variety of pathogens including Salmonella spp. and Bacillus spp. The egg is protected by the eggshell which is traversed by respiratory pores that are normally covered by a cuticle plug to restrict pathogen entry. This cuticle consists of several proteins including ovocaxlyin-32 (OCX-32). OCX-32 has a large number of naturally occurring haplotypes due non-synonymous single nucleotide polymorphisms (SNPs). In this study, the goal was to express five of the most common haplotypes of OCX-32 in Escherichia coli and purify the recombinant protein for assay of its antimicrobial activity. Five constructs that contain the cDNA of common OCX-32 haplotypes (A, B, C, D, and O) with a histidine tag at the C-terminus were generated. The constructs were subcloned into pGEX4T-1 vector which encodes Glutathione-S-transferase (GST) upstream of the multiple cloning site. My study developed methods to optimize the expression conditions, and to increase the solubility of the recombinant protein. Various expression strains of E. coli and solubility buffers were tested. In addition, the construct was subcloned into a plasmid containing the small ubiquitin-like modifier (SUMO) fusion tag; the solubility of the new SUMO-OCX-32 haplotype A recombinant fusion protein was evaluated. The best results were obtained by slow dialysis refolding of denatured SUMO-OCX-32 fusion protein. This recombinant protein showed almost complete solubility with minimal precipitation and was tested against the egg-related pathogen, Bacillus cereus. Unfortunately, the SUMO-OCX-32 recombinant protein did not inhibit growth of B. cereus. In my studies reported in this thesis, two very different approaches were taken. A histone mixture was isolated from an abundant starting material, which proved to be highly effective and promising in the eradication of S. aureus biofilms at relatively low concentrations. Alternatively, expression of a soluble recombinant protein for functional activity assay was very challenging and required the optimization of a number of methods to prepare soluble protein for testing. One of the methods tested proved effective in obtaining large amounts of soluble protein. However, further developmental work will be essential to determine if this approach is a viable strategy in acquiring functional protein. Antibiotic resistance protein purification protein expression refolding biofilm histone OCX-32 eggshell
26	Gas Phase Techniques for the Study of Biomolecular and Supramolecular Structures and Chemistry Arslanian, Andrew J. 09 June 2022 (has links) This dissertation expounds on the investigations of the structure and chemistry of peptides and supramolecular host-guest systems in the gas phase. These investigations used two different kinds of analytical instrument: Fourier transform ion cyclotron resonance mass spectrometry (FTICR-MS) and ion mobility mass spectrometry (IM-MS, IMS). These investigations were complemented by chemical modeling. The FTICR was used to radially trap ions with its 4.7 T magnet, which allowed the ions to undergo sustained off-resonance irradiation collision-induced dissociation (SORI-CID). A subsequent event then measured the collision cross sections (σ) of the targeted precursor ion and one of the selected product ions. These experiments were repeated multiple times to measure σ for as many precursor/product pairs as possible. A similar kind of experiment was performed in the IM-MS instrument, through in-source collision-induced dissociation and size-based ion separation in the instrument’s mobility region. When the precursor/product σ ratios were compared, the values obtained by both methods were in good agreement with each other. Application of the FTICR-based technique to [2.2.2]-cryptand+Cs+ caused the externally bound Cs+ to migrate into the cryptand’s cavity. Further development of the FTICR-based technique allowed me to perform the post-SORI σ measurements in a time-resolved fashion. Data collected in this manner revealed that collisionally activated peptides refold over a 5 – 10 second timescale, as determined by their σ shrinking with time. These experiments allowed for observation of a peptide refolding. The IM-MS instrument was applied to a supramolecular chemistry problem surrounding cucurbit[7]uril (CB7), and its ability to bind two identical guests within its cavity. Literature precedent and conventional wisdom suggested that only one guest would bind within CB7’s cavity while the other guest would be bound externally. When ion mobility cross sections (Ω) were obtained for [CB7 + Guest2]2+ systems, it was discovered that both guests could be bound within CB7’s cavity. This was possible because the guests possessed the correct shape and chemistry to favor dispersive interactions between CB7’s cavity and the adjacent guest, and ion-dipole interactions with CB7’s carbonyl-lined portal. FTICR SORI CID CA refolding IM-MS cucurbiturils CRAFTI Physical Sciences and Mathematics
27	Recovery and refolding of OmpT fused with a Z-basic tag on a cation exchange solid support Persson, Astrid January 2011 (has links) No description available. OmpT Zbasic refolding membrane protein cation exchange chromatography. Engineering and Technology Teknik och teknologier
28	Functional studies of the interstrand cross-link repair protein, SNM1A and its beta-CASP domain Buzon, Beverlee D. 10 1900 (has links) <p>Interstrand cross-linking (ICL) damage to DNA is cytotoxic as it blocks replication and transcription. This cytotoxicity is exploited in anti-cancer therapies, but increased ICL repair limits the efficacy of these chemotherapies. SNM1A (sensitive to nitrogen mustard 1A), of the beta-CASP family of nucleases, has been shown to participate in the initiation of one of the ICL repair processes. Biochemical studies of SNM1A have been limited due to insolubility and instability of SNM1A in bacteria and insect cell lines and toxicity in human cell lines. Work reported in this thesis describes a novel and efficient method of generating active protein from inclusion body expression of the beta-CASP domain of SNM1A. This refolded beta-CASP domain shows 5’ exonuclease activity on single stranded and double stranded DNA in vitro. Nevertheless, this domain alone is unable to complement <em>pso2</em> null ICL repair defects in<em> S. cerevisiae</em> after exposure to ICL agents. These functional studies of the beta-CASP domain of SNM1A will be helpful in directing future research on its role in ICL repair. Additionally, this will aid future structural and inhibitor studies of this essential interstrand cross-link repair protein, SNM1A.</p> / Master of Science (MSc) SNM1A interstrand crosslink repair beta-CASP inclusion body protein refolding nuclease cisplatin Biochemistry Biochemistry
29	Bacterial expression, purification and characterization of human alpha 2 antiplasmin Bhatia, Harminder Singh 01 January 2006 (has links) The serpin antiplasmin (APL) is the primary inhibitor of plasmin, a proteinase that digests fibrin, the main component of blood clots. Most serpins are serine protease inhibitors, which undergo dramatic conformational change in forming a tight covalent complex with the target protease. Plasmin has been shown to be angiogenic through its protease activity, but it is also angiostatic, being the source of angiostatin, which inhibits angiogenesis. The main objective of our study is to obtain antiplasmin in large amounts, for crystallization and structure determination of APL and of its complex with plasmin, and for solution studies of the complex. Bacterially expressed APL will not be glycosylated, an advantage in crystallization trials.Bacterial expression of rAPL has been problematic. We have found that it can be greatly enhanced through the use of host E.coli cells that carry extra copies of genes for tRNAs coding for rarely used codons in E.coli that occur in high frequency in eukaryotic genes. Several vectors were screened for rAPL expression (pET19b, pET20b and pET28b). rAPL is expressed in high yield from a pET28b construct in host BL-21 RIPL codon plus cells. rAPL thus expressed accumulates as inclusion bodies, but can be solubilized using N-lauroyl sarcosine at pH11. Refolding and purification of rAPL is achieved by using a sizing column followed by a Nickel His-tag affinity column with an imidazole gradient. rAPL fractions thus obtained are stable at 4Â°C in the presence of EDTA. However, no inhibitor activity of this rAPL towards trypsin was observed, nor did it form inhibition complex with trypsin. The presence of trace protease and/or failure to fold correctly may be preventing recovery of inhibitory activity. A screen of various refolding buffers failed to yield soluble, stable APL. plasmin inhibitor angiogenesis serine protease - serpin complex protein expression fibrinolysis protein refolding Life Sciences
30	Serinová proteasa SmSP2 z krevničky Schistosoma mansoni / Serine protease SmSP2 of Schistosoma mansoni Leontovyč, Adrian January 2014 (has links) Blood fluke Schistosoma mansoni is one of the most important human parasites. Proteolytic system of schistosoma is crucial for parasite - host interactions. Therefore some of the proteases became potential therapeutic targets. This work is focused on not yet characterized serine protease SmSP2. SmSP2 is newly discovered protease of S. mansoni, whose biological role is unknown. This protease is highly expressed in developmental stages parasitizing humans. SmSP2 was recombinantly expressed in prokaryotic and eukaryotic expression system (E. coli a P. pastoris) and purified using chromatographic methods. Recombinant SmSP2 was used for polyclonal antibody production. Conditions for refolding were optimized. Basic biochemical properties of the protease were detected and substrate amino acid preferences for P1 - P4 sites for single aminoacids were identified using synthetic fluorogenic peptides for positional scanning substrate combinatorial library (PS-SCL). (In Czech)

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