Assessing Recombinant Expression of Urease Enzyme from Sporosarcina ureae as a Carbonatogenic Method for Strength Enhancement of Loose, Sandy Soils

Whitaker, Justin

January 2016

Les sols qui ne rencontrent pas les normes d’ingénierie civile doivent êtres soumis à des améliorations géotechniques car les vibrations causées par les tremblements de terre ou par la surcharge sur des infrastructures en hauteur peuvent mener à la liquéfaction partielle ou totale des sols saturés en eau. Ceci peut donc entrainer des dommages importants aux structures construites sur ces sols. Certaines méthodes existent pour remédier à ce problème, mais elles demeurent couteuses et parfois toxiques car elles utilisent de l’acrylamide et des lignosulfates. La bio-précipitation in situ de calcite dans les sols représente une méthode alternative. Le tout se fait avec des bactéries qui démontrent une activité uréolytique. La présente étude s’est intéressée à l’activité uréolytique des souches Escherichia coli, Sporosarcina ureae, Bacillus pasteurii, Lysinibacillus sphaericus, Bacillus subtilis et Bacillus megaterium. Les résultats démontrent que l’urée est seulement dégradée par les souches S. ureae et S. pasteurii. L’incubation de S. ureae en présence de Ni2+ (0.1-1 ppm) et Fe2+ (1-10 ppm) a toutefois permis d’augmenter l’activité catalytique de la souche, ce qui démontre l’importance des éléments nutritifs lors de l’hydrolyse de l’urée. Afin de tester l’activité uréolytique des autres souches, nous avons introduit un système d’expression uréase dans la souche E. coli en substituant des amino-acides dans la structure primaire des protéines. Suite à cette modification, l’activité uréolytique de E. coli s’est améliorée et est devenue comparable à celle des souches S. ureae et S. pasteurii. L’injection de S. ureae et du mutant E. coli dans des sables non-consolidés a permis de cimenter de façon significative (p < 0.05) le matériel par rapport à des sables non inoculés, et ce après seulement 48 heures. Le transfert du système recombinant de E coli vers S. ureae est présentement en cours. Ces résultats prometteurs indiquent qu’il est possible de stimuler la précipitation in situ de calcite en utilisant des bactéries et de stabiliser les sols prônes à la liquéfaction. === Soils often do not satisfy functional requirements for civil engineering projects and as a result geotechnical improvements to soils are often made. Dynamic shaking during earthquakes or static overloading by overlying structures may still result in liquefaction in partially or fully water saturated soils. These have little bearing capacity for structures. Severe damages can result. Moreover, preventative soil grouting strategies are expensive, toxic, and permanent due to acrylamides, lignosulfonates, and otherwise harmful compounds present therein. Alternative methods of strength enhancement are advisable. Microbial induced calcite precipitation (MICP) was assessed in this investigation to consolidate loose, sandy soils. Ureolytic activty of Escherichia coli, Sporosarcina ureae, Bacillus pasteurii, Lysinibacillus sphaericus, Bacillus subtilis and Bacillus megaterium were assessed. Urea was readily degraded foremost by S. ureae and next by S. pasteurii with no significant (p <0.05) activity in other strains. Incubation of S. ureae with 0.1 - 1ppm Ni2+ and 1-10ppm Fe2+ was shown to improve catalytic activity, suggesting their importance as a dietary source for urea hydrolysis. A urease expression system was established in E. coli and particular amino acid substitutions in protein primary structure made. Enhanced ureolytic activity was observed in these E. coli mutants, comparable to native S. ureae activity. Application of wild type S. ureae and recombinant E. coli for MICP in a model sand showed significant (p < 0.05) improvements compared to controls after 48 hours. Transfer of the recombinant system in E. coli to S. ureae is currently underway. These results provide valuable insight affirming that a practical system for the application of MICP may be feasible in the field for the strength enhancement of native and construction-laid loose, sandy soils.

biotechnology

remediation

calcium carbonate

urease

carbonatogenesis

soil

bacteria

biofilm

recombinant protein

E. coli

S. ureae

S. pasteurii

Recombinant protein production in the chloroplast of microalgae : a systems biology approach

Davies, Oluwafemi

January 2015

Several expression systems for recombinant protein production, essentially cells or whole organisms are currently in use today. Recently, research into recombinant protein production revealed a more attractive expression system based on the microalgae, C. reinhardtii, for significant savings in cost and production of correctly folded recombinant proteins. However, protein yield in the microalgae remain very low, non-predictable and whether this was due to limitations in the system was unclear. Using the expression of E. coli β-glucuronidase (gus) in C. reinhardtii chloroplast, the overall aim of the project was to address if the low recombinant gus yield in C. reinhardtii was due to limitations that affect growth and protein production, and if the fluxes for recombinant gus production were suboptimal (limiting). The finding was used to implement a strategy for a more predictable recombinant protein yield in C. reinhardtii. The research involved a range of experiments, analysis, and Flux Balance Analysis (FBA) modelling. The growth of C. reinhardtii cultures were characterized in autotrophic, heterotrophic and mixotrophic conditions to identify factors that limit growth and recombinant gus yields. These factors were availability of light, carbon and nitrogen substrates, pH changes, protein burden and energetic limitation (ATP). The highest biomass was obtained in autotrophic and mixotrophic cultures (>1 g/litre), the lowest biomass was in heterotrophic cultures (~0.4 g/litre). The recombinant gus yields on the basis of dry cell weight were: mixotrophic cultures (0.038%), autotrophic cultures (0.032%), heterotrophic cultures (0.026%). No detectable protein burden was observed for expression of recombinant gus in autotrophic and mixotrophic conditions, but protein burden was significant in heterotrophic condition (15 – 18% reduction in growth rate). A strategy that significantly increased growth and cell productivity (>3 fold) in heterotrophic condition was identified. FBA was used to identify suboptimal amino acid steady state fluxes (bottlenecks) that limited the gus yield. Using FBA modelling, model verifications and corrections, a strategy that significantly increased the yield of recombinant gus in each cell (~2 fold) was identified. Put together, the total increase represents a 6 fold increase in recombinant gus yield. Furthermore, this research presented a framework for identifying, analysing and understanding the effect of the uptake of individual amino acid towards recombinant protein yield.

660.6

Expressão heteróloga da defensina dehys de euphorbia hyssopifolia 32 em E. coli

GAZZANEO, Luiz Rodrigo Saldanha

14 March 2016

Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2017-07-12T14:29:17Z No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Tese_Gazzaneo (Biblioteca Central).pdf: 2832068 bytes, checksum: bb29fc38317d9f60a0d6129655b9b7a1 (MD5) / Made available in DSpace on 2017-07-12T14:29:17Z (GMT). No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Tese_Gazzaneo (Biblioteca Central).pdf: 2832068 bytes, checksum: bb29fc38317d9f60a0d6129655b9b7a1 (MD5) Previous issue date: 2016-03-14 / Defensinas são peptídeos antimicrobianos (AMPs) que apresentam atividade contra diversos microrganismos patogênicos, em especial fungos. Embora não totalmente elucidados, há diversos mecanismos de ação propostos para as defensinas, que incluem permeabilização seletiva ou ruptura da membrana plasmática de microorganismos, ação direta em alvos intracelulares, ativação de cascatas de sinalização e aumento da produção de espécies reativas de oxigênio. Desde a sua descoberta e, tendo em vista sua ampla atividade biológica, o uso de defensinas no melhoramento de plantas cultivadas, bem como na produção de novos medicamentos tem sido proposto. Estudos de atividade biológica e possível aplicação biotecnológica das defensinas demandam uma grande quantidade dessas proteínas. Entretanto, o processo de extração da mesma é laborioso, dispendioso e, de acordo com a população ou disponibilidades da espécie vegetal escolhida, não sustentável ecologicamente. Portanto, a utilização de sistemas heterólogos de expressão é uma importante ferramenta para obtenção de defensinas recombinantes em escala industrial. Nesse estudo, um gene de defensina “DeHys”, isolado da Euphorbia hyssopifolia, foi inserido no plasmídeo pET102/D-TOPO e células da linhagem BL21(DE3) de Escherichia coli foram transformada com essa construção. Foi produzida a defensina recombinante Dehys com tamanho aproximado de 24 kDa. Sua identidade foi confirmada por western blot e pela análise do padrão de digestão com proteases. / Defensins are antimicrobial peptides (AMPs) , which present activity against a variety of pathogenic microorganism, especially funghi. Although not completely elucidated, there are a variety of proposed mechanisms of action for defensins, which includes selective microorganisms plasmatic membrane permeabilization or rupture, straight action agains intracellular targets, activation of signaling cascades and the burst of reactive oxygen species. Since it’s discovery and due to it’s wide biological activities, it’s use in crop enhancing, as well as its use in the development of new drugs have been proposed. Defensin’s biological activity and biotecnological application studies demand a reasonable amount of purified protein. However, the extraction processes is laborious, expensive, time consuming and depending on the population or the chosen plant species supply, not ecologically sustainable. So, the use of heterologous expression sytems is an importante tool to obtain purified proteins in industrial scale. In this study, a defensing gene (Dehys) isolated from Euphorbia hyssopifolia was inserted in a p pET102/D-TOPO vector and trasnformed into BL21(DE3) Escherichia coli strains. A recombinat Dehys defensin of approximately 24 kDa was obtained. It’s identity was double-checked using by Western blot and protease digestion pattern analyses.

Peptídeo antimicrobiano

Defensina

E.coli.

Proteína recombinante

Antimicrobial peptides

Defensin

E. coli

Recombinant protein

Caracterização de uma proteína de Leptospira interrogans e avaliação do seu envolvimento na relação patógeno-hospedeiro. / Characterization of a Leptospira interrogans protein and evaluation of its involvement in the pathogen-host relationship.

Amanda Diaz Rossini

29 March 2018

As bactérias patogênicas do gênero Leptospira são o agente causador da leptospirose, uma doença de importância global. As leptospiras patogênicas causam infecção em um amplo espectro de animais e no homem. As leptospiras podem invadir o corpo humano através de abrasões na pele e mucosa. A invasividade bacteriana depende de várias etapas, tais como: aderência, invasão e disseminação através dos tecidos do hospedeiro. Recentemente, nosso grupo identificou proteínas de membrana externa que atuam como adesinas de leptospira e/ou receptores de componentes do plasma hospedeiro, o que poderia contribuir para a patogenicidade bacteriana. Assim, o presente projeto tem como objetivo avaliar as propriedades funcionais do gene LIC10920, identificado na sequência genômica de Leptospira interrogans sorovar Copenhageni, como uma proteína hipotética, predita de membrana externa. A sequência LIC10920 foi amplificada por PCR e clonada no vetor de expressão pAE. O plasmídeo pAE contendo o inserto foi introduzido em estirpes de E. coli para a expressão da proteína. A proteína recombinante rLIC10920 foi purificada por cromatografia de afinidade a níquel e sua integridade estrutural foi avaliada pela técnica de dicroísmo circular. Camundongos foram imunizados com a LIC10920 para a avaliação da sua imunogenicidade. A presença de IgG humano contra LIC10920, foi avaliada por ELISA, em amostras de soro de pacientes com leptospirose. Assim, como a sua ligação com componentes da matriz extracelular e plasma do hospedeiro. Animais imunizados apresentaram alto título de anticorpos contra LIC10920. Além disso, a proteína foi reconhecida por anticorpos presente em amostras de soro humano infectado. A proteína foi capaz de interagir com plasminogênio e laminina de maneira dose-dependente e saturável. Em ambas as interações, a participação das regiões imunogênicas se mostrou importante. rLIC10920 foi capaz de capturar o plasminogênio direto do soro humano também de maneira dose-dependente. Por fim, foi observado que o plasminogênio ligado a rLIC10920 pode ser convertido em plasmina. A proteína em estudo é expressa durante a infecção e podemos atribuir a função de adesina, com papel na patogênese da bactéria. / Pathogenic bacteria of genus Leptospira are the causative agent of leptospirosis, a disease of global importance. Pathogenic leptospires cause infection in a broad spectrum of animals and humans. Pathogenic leptospires can efficiently invade the human body through skin and mucosa and promptly spread into blood vessels, reaching target organs. Bacterial invasiveness depends on several steps, such as adherence, invasion and throughout host tissues. Recently, our group has identified outer membrane proteins that act as leptospiral adhesins and/or receptors of host plasma components, which could contribute for bacterial pathogenesis. This project aims to evaluate the functional properties of the gene LIC10920, identified in the genome sequence of Leptospira interrogans serovar Copenhageni, as a predicted outer membrane protein of unknown function. The LIC10920 sequence was amplified by PCR, cloned into the expression vector pAE. Plasmids containing cloned DNA were introduced in E. coli strains for protein expression. The recombinant protein was purified by the metal affinity chromatography and its structural integrity was assessed by circular dichroism spectroscopy. Mice were subcutaneously immunized with LIC10920 for immunogenicity evaluation. The presence of IgG against LIC10920 in confirmed leptospirosis human serum samples was evaluated by ELISA. Binding of protein with extracellular matrix or plasma components was also assessed. Sera from immunized animals show that the rLIC10920 protein is capable to stimulate antibody immune response in mice. In addition, the protein is recognized by antibodies in leptospirosis human serum samples. The recombinant protein was capable of binding plasminogen and laminin. Dose-dependent and saturable binding was observed when increasing concentrations of the rLIC10920 were allowed adhere to a fixed concentration of plasminogen or of laminin, fulfilling the receptor-ligand interactions. In both cases, the participation of the immunogenic regions occurs, but in the case of laminin, the dependence is greater with structured epitopes. It has been shown that plasminogen linked to rLIC10920 can be converted to plasmin in the presence of activator. The recombinant protein was able to capture the plasminogen directly from normal human serum in a dose-dependent manner, suggesting the involvement of native protein in host-pathogen interactions. The protein under study is expressed during the infection and due to its capacity of interaction with host components, we may anticipate its role in leptospiral pathogenesis.

Adesina

Leptospira

Leptospirose

Patogenicidade

Proteína recombinante

Adesine

Leptospira

Leptospirosis

Pathogenesis

Recombinant protein

Transientní transfekce bezsérové buněčné kultury pomocí polyethyleniminů / Transient transfection of a serum free cell culture using polyethyleneimines

Čutová, Michaela

January 2010

Master’s thesis deals with the transient transfection of the serum free animal cell culture using polyethyleneimines. In the theoretical part formation of recombinant DNA molecules, used expresion vectores, used DNA transfer and detection of recombinant proteins are discussed. The experimental part deals with efficiency of the polyethylenimine mediated transient transfection under various experimental conditions. 293HEK/EBNA cell line was chosen as an experimental model. First the most effective plasmide - pCEP4/SEAP was selected. Then three transfection methodes were tested: Muller (2005), Durocher et al. (2007) and Backliwal et al. (2008). The highest recombinant protein expresion was reached using the method of Backliwal et al. (2008).

Využití kultivačních desek pro tkáňové kultury k testování podmínek exprese rekombinantních proteinů v buněčné linii HEK293 / Application of tissue culture test plates for production of recombinant protein in HEK293 cells; determination of optimal conditions

Krzyžanková, Marcela

January 2016

Efficient production of the recombinant proteins (r-proteins) must be based on previous testing of an expression of a small amount of the r-proteins. This work focuses on optimizing the expression of the r-proteins in 12-well plates. It includes testing of an appropriate speed of shaking, production and transfection volume. It compares all the current testing vessels (it compares a 50-ml centrifugation tube to new tested plates that can substitute the unsuitable tubes). It also compares these new tested plates to production square bottles in order to compare the r-protein expression in the plates to the r-protein expression in the bottles. It monitors effects of carbon dioxide on a number of vital cells, their viability, a relative frequency of positive cells on GFP in various cultivation vessels (plates, tubes, bottles), and pH of HEK 293 cellular cultivation during the 4-day cultivation process as well. On the basis of the results and statistical processing of the results, we have set the optimal agitation speed of 230 rpm for the 12-well plates. We have also set the appropriate production and transfection volume of 2 and 0.5 ml for the 12-well plates. In order to evaluate variables and compare cultivations in all the vessels, the tubes could be substituted by the plates. There is a statistically significant impact of carbon dioxide on the number of cells, their variability, relative frequency of cells (positive on GFP) and pH of the cellular HEK 293 cultivation in the cultivation vessels. There is the strongest r-protein expression in carbon dioxide conditions. The results of this work allow to employ the 12-well plates when we aim to test the expression of the r-proteins in a small amount and in carbon dioxide conditions. On the basis of the findings, the expression of the r-proteins in the 12-well plates and carbon dioxide conditions can substitute the expression of the r-proteins in the production bottle and in carbon dioxide free conditions.

Molekulární podstata interakce rostlinného HSP90 s mikrotubuly / Molecular base of plant HSP90-MT interaction

Benáková, Martina

January 2013

Microtubules (MTs) are one of the essential cell structure that participate in a number of key events in the plant cells and their properties and functions are influenced and modified by many other proteins. These proteins belong to a group of microtubule- associated proteins (MAPs, microtubule-associated proteins). One of the MAPs, the molecular chaperone Hsp90, examines and fulfills a large number of different functions in the cell. Its colocalization with MTs has been demonstrated previously by Freudenreich and Nick (1998) and Petrášek et al. (1998). However, direct interaction with MTs was described only recently using cosedimentation assay. The specific cytosolic isoform of tobacco Hsp90 bound to MTs was called Hsp90_MT due to its ability to bind MTs. It has been also found that the binding to MTs is independent on the activity of ATP (Krtková et al., 2012). The authors also described a positive effect of Hsp90_MT on MT recovery after their exposure to cold stress. Although MT cytoskeleton dynamics is influenced by a large number of MAPs, it is surprising that the molecular mechanism of MAPs interaction with MTs and their MT-binding domains have not been described yet. Therefore, we decided to determine the tobacco Hsp90_MT MT-binding domain by production of a set of recombinant proteins...

Strukturní charakterizace intracelulární formy myšího Nkr-p1a proteinu. / Structural characterization of intracellular form of mice protein Nkr-p1a

Vaňková, Pavla

January 2016

NK cells are a component of innate immunity system, which is derived from lymphoid progenitor. By a sophisticated receptor repertoire, which is expressed on their surface, they provide a surveillance against pathogenic, virus infected or tumour cells. Simultaneously they produce cytokines, thereby are involved in adaptive immune response. This work is focused on the study of structure of mice soluble mNkr-p1a isoform. Recently this short isoform was identified at the transcriptional level by a member of our laboratory and it is designated as isoform 2. The aim was to produce mNkr-p1a iso2 protein in the prokaryotic expression system and to perform its renaturation and purification in vitro. In the next phase of work, the obtained product was analyzed by the mass spectrometry methods. Recieved results made us think about that our protein is in unfolded state. This assumption was refuted by following biophysical methods, nuclear magnetic resonance, circular dichroism and dynamic light scattering measurement. Keywords: NK cells Receptor mNkr - p1a Short isoform mNkr - p1a iso2 Alternative splicing Protein biosynthesis Recombinant protein production Protein purification Mass spectrometry Disulfide bond Chemical cross-linking NMR, CD, DLS 5

Interakce povrchového markeru imunitních buněk s nízkomolekulárními ligandy a jejich polymerními konjugáty / Interaction of a surface marker of immune cells with low-molecular weight ligands and their polymer conjugates

Šimonová, Lenka

January 2019

Millions of people worldwide die of cancer every year. In the last decade, im- munotherapy offered new treatment options achieving long-lasting remissions in a number of patients. Several new immunotherapy-based drugs have been ap- proved by Food and Drug Administration. However, majority of patients either do not respond or soon relapse. Combination of therapies as well as exploring new immune checkpoints seems promising. This thesis focuses on the new immunotherapeutic target CD73. CD73 is membrane ectonucleotidase, widely expressed on the regulatory leukocytes and on cancer cells. The enzymatically active CD73 contributes to the tumour mi- croenvironment by production of immunosuppressive adenosine. This novel im- mune checkpoint is being intensively studied. This thesis aims on development of new approaches for targeting and inhibition of CD73. Soluble recombinant CD73 (rhCD73) was prepared in mammalian expression system and transfectants stably expressing membrane-bound CD73 were prepared as well. Inhibitors necessary for both of my goals have been designed based on published inhibitor of CD73. Development and evaluation of novel antibody mimetic for CD73 characteri- sation was done. The so-called iBody, HPMA polymer conjugate decorated with CD73 inhibitor for targeting, fluorophore for...

Optimization of the heterologous expression of folate metabolic enzymes of Plasmodium falciparum

Goolab, Shivani

30 March 2011

Malaria is a fatal tropical disease affecting billions of people in impoverished countries world-wide. An alarming fact is that a child in Africa dies of malaria every 30 seconds that amounts to 2500 children per day (www.who.int/features/factfiles). Malaria is caused by the intraerythrocytic forms of Plasmodium species, notably P. falciparum, P. vivax, P. ovale and P. malariae (Hyde 2007). The spread of drug-resistant strains, failure of vector control programs, rapid growth rate of the parasite, and lack of a vaccine have further exacerbated the effects of malaria on economic development and human health. It is therefore imperative that novel drug targets are developed or current antimalarial drugs optimized (Foley and Tilley 1998). One such target is folate biosynthesis, given that folates and their derivatives are required for the survival of organisms (Muller et al. 2009). DHFR and DHPS are currently the only folate targets exploited however, their antifolate drugs are almost useless against parasite resistant strains. As such, guanosine-5’triphosphate cyclohydrolase I (GTPCHl) among other antifolate candidates are considered for intervention (Lee et al. 2001). Knock-out studies (of P. falciparum gtpchI) resulted in the suppression of DHPS activity (Nzila et al. 2005). Additionally, gtpchI amplified 11-fold in P. falciparum strains resistant to antifolates due to mutations in dhps and dhfr and this may be a mechanism for the compensation of reduced flux of folate intermediates (Kidgell et al. 2006; Nair et al. 2008). Over-expression of P. falciparum proteins in E. coli remains a challenge mainly due to the A+T rich Plasmodium genome resulting in a codon bias. This results in the expression of recombinant proteins as insoluble proteins sequestered in inclusion bodies (Carrio and Villaverde 2002; Mehlin et al. 2006; Birkholtz et al. 2008a). Comparative expression studies were conducted of native GTPCHI (nGTPCHI), codon optimized GTPCHI (oGTPCHI) and codon harmonized (hGTPCHI) in various E. coli cell lines, using alternative media compositions and co-expression with Pfhsp70. The nGTPCHI protein did not express because the gene consisted of codons rarely used by E. coli (codon bias). The expression levels of purified hGTPCHI were a greater in comparison to oGTPCHI using the different expression conditions. This is because codon-harmonization involves substituting codons to replicate the codon frequency preference of the target gene in P. falciparum, as such the translation machinery matches that of Plasmodium (Angov et al. 2008). Furthermore, greater expression levels of GTPCHI were achieved in the absence of Pfhsp70 due to expression of a possible Nterminal deletion product or E. coli protein. Purification conditions could be improved to obtain homogenous GTPCHI and further analysis (mass spectrometry and enzyme activity assays) would be required to determine the nature of soluble GTPCHI obtained. To improve the expression of soluble proteins the wheat germ expression system was used as an alternate host. However, GTPCHI expression was not effective, possibly due to degradation of mRNA template or the absence of translation enhancer elements. / Dissertation (MSc)--University of Pretoria, 2010. / Biochemistry / unrestricted

Folate biosynthesis

Recombinant protein expression

Guanosine 5’ triphosphate

Codon harmonization

Malaria

UCTD