Rekombinantní exprese a purifikace nitrilasy z Neurospora crassa / Recombinant expresion and purification of nitrilase from Neurospora crassa

Zawadová, Dorota

January 2014

Nitrilases are enzymes able to convert toxic nitriles to corresponding carboxylic acids or amides. Thus they might be used in the detoxification of dyes, herbicides and pharmaceutical intermediates and byproducts. They can be used also for enzymatic syntheses of carboxylic acids not available by standard procedures. The aim of this diploma thesis is a recombinant expression of nitrilases from Neurospora crassa and the optimization of their purification. Cells of E. coli (BL 21 Gold) were utilized as an expression system. The purification was performed by ion-exchange chromatography, chelation chromatography and gel filtration - all under reducing conditions. Purified enzymes were studied by sedimentation analysis in an analytical ultracentrifuge. They were also used for searching of optimal conditions for their crystallization. Keywords: nitrilase, Neurospora crassa, recombinant expression

CaracterizaÃÃo parcial de uma pro-lectina funcional de sementes de Dioclea grandiflora Benth expressa em Escherichia coli / Partial characterization of a pro-functional lectin seed Dioclea grandiflora Benth expressed in Escherichia coli

Bruno Lopes de Sousa

01 March 2010

Banco do Nordeste do Brasil / CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / A pro-lectina de sementes de Dioclea grandiflora apresentou-se ativa quando expressa de forma recombinante (r-pro-DGL) no citoplasma do modelo procariÃtico Escherichia coli. Obtida de forma solÃvel a partir do vetor pET32a, a proteÃna recombinante apresentou massa aparente (25 kDa) e sequÃncia (obtida por espectrometria de massas) idÃnticas ao precursor natural, mostrando-se atipicamente funcional em comparaÃÃo a outras lectinas de leguminosas expressas de forma heterÃloga, possuindo uma atividade especÃfica de 134.217.728 (U.H./mg). Diferentemente de sua contraparte silvestre a r-pro-DGL nÃo reconheceu especificamente glicose, sendo apenas fracamente inibida por manose. Em decorrÃncia da alta homologia de sequÃncia entre os precursores de lectinas na subtribo Diocleinae e lectinas ligantes de galactose pertencentes a outras tribos de leguminosas, hà a hipÃtese de que o processamento pÃs-traducional peculiar dessa subtribo poderia influir de forma decisiva sobre a especificidade fina dessas proteÃnas. Entretanto, a r-pro-DGL nÃo apresentou afinidade por galactose ou lactose, demonstrando ser a topologia do sÃtio de ligaÃÃo, bem como a conformaÃÃo das alÃas que os estruturam, os principais fatores determinantes da especificidade a monossacarÃdeos. Assim, pode-se afirmar que precursores de lectinas na subtribo Diocleinae apresentam-se ativos enquanto deglicosilados, sendo ainda capazes de formar oligÃmeros e estabelecer ligaÃÃes cruzadas entre membranas celulares. / The pro-lectin from Dioclea grandiflora presented active when expressed in recombinant (r-pro-DGL) in the cytoplasm of the model prokaryotic Escherichia coli. Obtained in soluble form from the pET32a vector, the recombinant protein presented apparent mass (25 kDa) and sequence (obtained by mass spectrometry) identical to the natural precursor, being unusually functional compared with other lectins of the pulses expressed heterologously having a specific activity of 134 217 728 (HU / mg). Unlike its counterpart wild r-Pro-DGL not specifically recognize glucose, and only weakly inhibited by mannose. Due to the high sequence homology among the forerunners in the subtribe lectins Diocleinae and galactose-binding lectin belonging to other tribes of legumes, there is the hypothesis that post-translational processing of this peculiar subtribe could influence decisively on the fine specificity of these proteins. However, the pro-r-DGL showed no affinity for galactose or lactose, showing that the topology of the binding site and the conformation of the loops that structure, the main specificity determinants of the monosaccharides. Thus, it can be stated that in the subtribe lectins precursors Diocleinae presents deglicosilados active while being still able to form oligomers and to establish cross-links between cell membranes.

Dioclea grandlora

ExpressÃo recombinante

Dioclea grandlora

Recombinant expression

BIOQUIMICA

Characterizing the Role of Cysteine Protease 2 in Trichomonas Vaginalis

Balayan, Shaina-Jill S.

01 January 2015

Trichomonas vaginalis is a human urogenital parasite and the causal agent of trichomoniasis, the most common non-viral, sexually transmitted disease in the United States. Much of the pathogenic properties of T. Vaginalis stem from cysteine proteases. Here, we present the results of several studies on one variant, TvCP2, including purification and characterization of its active form, gene regulation in response to iron and oxygen, and localization and trafficking. Homologous to human Cathepsin L, TvCP2 was hypothesized to function as a protease, presumably localize to lysosomes, and play a role in T. vaginalis pathogenesis that is distinct from TvCP4. Levels of bacterially-expressed TvCP2 decreased faster in activation assays of lower pH. In Pichia pastoris, the amounts and form of TvCP2 expressed were variable, and protease activity was influenced by reducing agent and pH. Post-translational modifications may be in effect, or TvCP2 may be autocatalytic, however, actual autocatalytic processing remains to be determined. Consistent with previous reports, and contrary to TvCP4 regulation, TvCP2 mRNA levels were increased in T. vaginalis grown in media with reduced iron supplementation. Expression of processed TvCP2 protein increased, demonstrating post-transcriptional regulation and the potential for iron to influence processing of and/or proper sorting of TvCP2. Also, unlike TvCP4 expresion, which is unaffected by oxygen, both TvCP2 protein and mRNA were greatest under anaerobic conditions, suggestion transcriptional and translational regulation by oxygen, and that upon initial infection TvCP2 is not required immediately. Although overall immunofluorescent staining patterns were different between TvCP2 and TvCP4, hinting at distinct functions, both localized bto punctate vesicles, for which some colocalization was observed. Additionally, unlike TvCP4, TvCP2 did not colocalize with Vamp1/2 and did colocalize with legumain. These data suggest that TvCP2 is intracellular, targeted to lysosomes, and sorted independently from TvCP4. In conclusion, TvCP2 may play a unique role in the cell and is important for the life cycle and pathogenesis of T. vaginalis.

molecular biology

molecular regulation

recombinant expression

Trichomoniasis

cellular biology

microbiology

Příprava a studium lidského NK buněčného receptoru AICL / Preparation and study of human NK cell receptor AICL

Nový, Jiří

January 2015

Natural killer cells, or NK cells are an integral component of innate immunity and fullfills the function of recognizing and killing tumor and virus-infected cells. Their function is regulated by signals produced by the interaction of inhibitory and stimulatory receptors on their surface with their specific ligands on the targer cell surface. NKp80 is an activating receptor of NK cells and forms specific complex with cell receptor AICL, both of which belong to the family of C-type lectin-like receptors. Overexpression of AICL receptor is preferably specific for tumor cells of myeloid character. This master's thesis describes the production of AICL mutated form by expression in Escherichia coli BL21 Gold (DE3) followed by isolation and in vitro renaturation of the target protein. In a previous study it was found that an odd number of cysteines in the extracelular lectin domain of AICL causes wrong folding of the protein. Substituting an odd cystein for serine at position 87 lead to stable soluble form of AICL with an even number of cysteines in conserved positions, typical for CTLD receptors. Correctness of the formation of disulfide bonds between cysteines was verified by mass spectrometry. Significant amount of the protein gained allowed for setting up a wide variety of crystallization conditions....

Produkce myšího NK buněčného receptoru NKR-P1C a hledání jeho ligandu / Production of mouse NK cell receptor NKR-P1C and seeking of tis ligand

Pucholtová, Helena

January 2014

Natural killer or NK cells are immunocytes that mediate innate immunity against pathogens and tumors without pre-exposition to the antigen. They are holding rapid antiviral defense during the initial phase of immune response, before starting the production of antibodies and the development of specific cytotoxic T -lymphocytes. On the surface of NK cells is expressed wide range of inhibition and activation receptors. Important family of those receptors are C - type lectin like from which the family of NKR - P1 ("natural killer cell receptor - protein 1") was discovered first. Diploma thesis deals with the preparation/study of mice NK cell activation receptor NKR- P1C and searching for its binding partner. The soluble form of the protein NKR-P1C was prepared by recombinant expression using the transient transfection of HEK293 cell line (human embryonic kidney 293) with wild type or homogenous glycosylation as IgG - Fc fusion protein, from which was it possible to obtain pure dimer of NKR P1C, after process of affinity purification, TEV protease cleavage and HPLC chromatography. The fusion protein was bound to protein A labeled with a fluorescent probe DyLight 488. Mice tissues and cell lines were labeled by this complex for purpose of seeking ligand.

Struktura a funkce C-lektinových receptorů NK buněk studovaná pomocí rekombinantní exprese a proteinové krystalografie / Structure and function of C-type lectin NK cell receptors studied by recombinant expression and protein crystallography

Vaněk, Ondřej

January 2010

Department of Biochemistry, Faculty of Science, Charles University in Prague 2010 Structure and function of C-type lectin NK cell receptors studied by recombinant expression and protein crystallography Abstract of Ph.D. thesis Ondřej Vaněk Supervisor: Prof. RNDr. Karel Bezouška, DSc. Natural killer cells (NK cells) were found out for their ability to spontaneously kill certain allogeneic tumour cell lines, without any previous sensitization. NK cells are part of non- adaptive immune response with very short reaction time against pathogens such as viruses, intracellular bacteria, parasites, and they are responsible for elimination of certain tumour cells and thus they are able to fight against malignancy and formation of metastasis. Activity of NK cells is regulated by the balance between activation and inhibitory signals mediated by the NK cell surface receptors. From the structural point of view, the majority of NK cell surface receptors could be classified as the C-type lectin or immunoglobulin-like receptors. One of many C-type lectin subgroups are type II lymphocyte receptors that are expressed on the NK cell surface. This study had two main aims. The first one was to find suitable expression and purification systems for selected C-type lectin receptors of NK cells and the other one was to perform their...

Construção de vetores para superexpressão da proteína L1 do HPV16 em Pichia pastoris / Construction of vectors for overexpression of the HPV16 L1 protein in Pichia pastoris

Silva, João Renato Souza Negrão e

23 June 2010

O papilomavirus humano (HPV) é o agente etiológico da infecção sexualmente transmissível mais comum na população mundial. A prevalência da infecção por HPV é estimada em 660 milhões de pessoas e mais de 50% das mulheres serão acometidas pela infecção ao menos uma vez na vida. O HPV é responsável por virtualmente todos os casos de câncer de colo de útero (99%), além de causar muitos outros tipos de câncer de mucosa. O câncer cervical afeta aproximadamente 1.4 milhões de mulheres e 500 mil novos casos surgem anualmente, resultando em 250 mil mortes por ano. Os maiores índices de incidência são observados na América Latina e na África. Duas vacinas contra o HPV são comercializadas desde 2006 por empresas estrangeiras. Entretanto, o custo mínimo da vacinação é superior a 600 reais. Este preço torna sua incorporação pelo sistema de saúde um processo economicamente inviável. Dessa forma, devem ser buscadas alternativas para a produção de uma vacina eficaz, de qualidade e de baixo custo no Brasil. A proteína L1, principal proteína do capsídeo do HPV, tem a propriedade de se auto agregar em partículas semelhantes às virais (VLPs), que são o principal componente das vacinas atuais e possuem muita semelhança com os vírions nativos, introduzindo inclusive, uma imunização predominantemente tipo-específica. Este projeto se propôs a construir e avaliar vetores de expressão visando à produção em larga escala da proteína L1 do HPV 16, o tipo de HPV de maior risco e incidência na população mundial. Foram construídos cinco plasmídeos para Pichia pastoris, uma das principais plataformas industriais de expressão. Eles se diferenciam pelos marcadores de seleção e pelas sequências de manutenção do vetor, mas têm exatamente o mesmo objetivo: gerar sistemas que possuam múltiplas cópias do gene da L1 e que não necessitem da utilização de antibióticos. Essa estratégia foi escolhida porque a produtividade de muitas das proteínas heterólogas tem grande dependência da dosagem gênica e porque o uso de antibióticos encarece muito o custo da produção. Na primeira etapa do projeto foi avaliado um sistema de expressão epissomal auxotrófico, mas ele não se manteve estável ao longo de 60 gerações. Na segunda parte, dois vetores de integração ao sítio do DNA ribossomal foram testados. O sistema mais estável e produtivo foi caracterizado quanto ao número de cópias integradas ao genoma da P. pastoris e ao nível de expressão. O sistema é capaz de produzir clones com mais de 30 cópias do gene da L1 e dois clones expressaram cerca de 20 a 30 miligramas/litro de L1. Adicionalmente outros dois vetores integrativos que utilizam sequências teloméricas para integração foram construídos. Ainda são necessários estudos conjuntos de fermentação em larga escala e purificação da proteína para verificar a viabilidade do sistema / The human papillomavirus (HPV) is the etiologic agent of the sexually transmitted infection most common worldwide. The prevalence of HPV infection is estimated at 660 million people and over 50% of women will be affected by the infection at least once in their lifetime. HPV is responsible for virtually all cervical cancers cases (99%), and causes many other types of mucosal cancer. Cervical cancer affects approximately 1.4 million women, and 500.000 new cases occur annually, resulting in 250.000 deaths per year. The highest incidence rates are seen in Latin America and Africa. Two HPV vaccines are marketed since 2006 by foreign companies. However, the minimum cost of vaccination is higher than 360 dollar. This price makes its incorporation by the Brazilian Health System economically unfeasible. Thus, alternatives must be found to produce an effective vaccine, with low cost and high-quality in Brazil. The L1 protein, the major capsid protein of HPV, has the ability to self aggregate into virus-like particles (VLPs) which are the main component of current vaccines. The VLPs are very similar to the native virions and can introduce an immunization predominantly type-specific. This project aimed to construct and evaluate expression vectors to produce, at large scale, the L1 protein of HPV 16, which is the HPV type at greater risk and incidence in the world. Five plasmids were constructed for Pichia pastoris, one of the major industrial expression platforms. They differ in the selection markers and the vector maintenance sequences, but they have exactly the same goal: to create systems with multiple copies of the L1 gene and that don\'t require the use of antibiotics. This strategy was chosen because the productivity of many heterologous proteins have heavy dependence on gene dosage and because the use of antibiotics is extremely expensive for its production. In the first stage of the project, it was rated an episomal auxotrophic expression system, but it was unstable after a period of 60 generations. In the second part, two vectors for integration in the ribosomal DNA locus were tested. The most stable and productive system was featured on the number of copies integrated into the P. pastoris genome and on the expression level. It was proved that the system is able to produce clones with more than 30 copies of the L1 gene and two clones expressed approximately 20-30 milligrams/liter of L1. Additionally, two other integrative vectors for integration in telomeric sequences were constructed for future testing. More studies on large-scale fermentation and protein purification will be necessary to determine the feasibility of the system.

Expressão recombinante

HPV

HPV

L1 protein

Pichia pastoris

Pichia pastoris

Proteína L1

Recombinant expression

Altering the solubility of recombinant proteins through modification of surface features

Carballo Amador, Manuel

January 2015

Protein solubility plays an important role whether for biophysical and structural studies, or for production and delivery of therapeutic proteins. Poor solubility could lead to protein aggregation, which is an undesired physicochemical mechanism at any stage of recombinant proteins production. To date, more than half of all recombinant therapeutic proteins are produced in mammalian cells, mainly due to the high similarity of the final product to human protein structures. However, poor secretion can occur, due to misfolded proteins or aggregates leading to cellular stress and proteolysis. Another widely-used expression system is E. coli, which can offer a cost-efficient alternative. This system has an important limitation, since proteins tends to form insoluble protein aggregates in the cytoplasm upon heterologous overexpression. Several strategies are being implemented to improved soluble expression, ranging from culture conditions to solubility enhancing tags. However, there is no universal approach or technology that solves protein aggregation. In this thesis two recently published hypotheses from our group have been applied. One stated that soluble expression of proteins was inversely correlated with the size of the largest positively-charged patch on the protein surface. The second hypothesis (of protein solubility), arose from the finding that the relative content of lysine and arginine residues separated E. coli proteins by solubility. Both hypotheses arose from a study of an extensive dataset of experimental solubilities determined for cell-free expression of E. coli proteins. In combination with other widely used strategies, such as lowering expression temperature and inducer concentration, decreasing non-charged (hydrophobic) patches and addition of helical capping for increasing stability, a rational understanding for directed alteration of solubility in a variety of recombinant proteins has been explored. This includes three protein models to test: (i) recombinant human erythropoietin (rHuEPO) (one of the top selling therapeutics) (ii) recombinant 6-Phosphofructo-2-Kinase/fructose-2,6-bisphosphatase (rPFKFB3) (a product for which over-expression has been sought for characterisation and insight into possible cancer therapy) and (iii) a set of three selected E. coli proteins containing high ratios of lysines to arginines: thioredoxin-1 (TRX), cold shock-like protein cspB (cspB), and the histidine-containing phosphocarrier protein (HPr). It was found that single or multiple point mutations (changing amino acids from positive to negative charge or vice versa; or lysines to arginines) verified the predicted effect on rHuEPO, rPFKFB3, TRX, cspB, and HPr solubility (experimentally defined as the distribution between soluble and total fractions) for expression in E. coli. In addition, the redesigned set of rHuEPO transiently expressed in HEK 293-EBNA cells, suggesting that positively-charged patch size may also influence protein secretion. Further application of these computational and experimental approaches could provide a valuable tool in the design and engineering of proteins, with enhanced solubility, stability and secretion.

The recombinant expression and potential applications of bacterial organophosphate hydrolase in Zea mays L.

Pinkerton, Terrence Scott

29 August 2005

Organophosphate hydrolase (OPH, EC 3.1.8.1) is a bacterial enzyme with a broad spectrum of potential substrates that include organophosphorus pesticides, herbicides, and chemical warfare agents. OPH has been expressed successfully in bacterial, fungal, and insect cell culture systems; however, none of these systems produces amounts of enzyme suitable for applications outside of the research laboratory. Therefore, a transgenic Zea mays L. (maize) system was developed to express OPH as an alternate to the current OPH expression systems. The bacterial gene encoding the OPH protein was optimized for transcriptional and translational expression in maize. The optimized gene was inserted into the maize genome under the control of embryo specific, endosperm specific, and constitutive plant promoters. Select transformants were analyzed for the expression of OPH. Expression was observed in the seeds of plants transformed with each of the three constructs with the highest expression observed with the embryo specific and constitutive promoter constructs. The highest OPH expressing lines of transgenic maize had expression levels higher than those reported for the E. coli expression system. OPH was purified from transgenic maize seed and analyzed for posttranslational modification and kinetic properties. OPH was observed to undergo a glycosylation event when expressed in maize that yielded at least two forms of OPH homogolous dimer. The glycosylated form of OPH bound tightly to the Concanavalin A sepharose and remained active after months of storage at room temperature. OPH activity was checked against a number of organophosphate herbicides. Enzymatic activity was observed against the herbicide Amiprophos-methyl and kinetic properties were measured. Enzymatic activity was also tested against the organophosphate Haloxon. Transgenic maize callus, leaf, and seed tissue could be screened for the presence of the optimized opd gene by enzymatic activity. Comparison of the growth of transgenic and control callus on media containing organophosphates showed that the transgenic callus was resistant to the herbicidal effects of haloxon. Transgenic plants expressing OPH were also resistant to the herbicide bensulide when compared to control plants. This indicates that OPH can be used as a screenable marker in plant systems and may be a potential scorable marker system as well.

Plant Biotechnology

Recombinant Expression

Organophosphate hydrolase

Phosphotriesterase

Herbicides

Selectable Marker

Scorable Marker

The recombinant expression and potential applications of bacterial organophosphate hydrolase in Zea mays L.

Pinkerton, Terrence Scott

29 August 2005

Organophosphate hydrolase (OPH, EC 3.1.8.1) is a bacterial enzyme with a broad spectrum of potential substrates that include organophosphorus pesticides, herbicides, and chemical warfare agents. OPH has been expressed successfully in bacterial, fungal, and insect cell culture systems; however, none of these systems produces amounts of enzyme suitable for applications outside of the research laboratory. Therefore, a transgenic Zea mays L. (maize) system was developed to express OPH as an alternate to the current OPH expression systems. The bacterial gene encoding the OPH protein was optimized for transcriptional and translational expression in maize. The optimized gene was inserted into the maize genome under the control of embryo specific, endosperm specific, and constitutive plant promoters. Select transformants were analyzed for the expression of OPH. Expression was observed in the seeds of plants transformed with each of the three constructs with the highest expression observed with the embryo specific and constitutive promoter constructs. The highest OPH expressing lines of transgenic maize had expression levels higher than those reported for the E. coli expression system. OPH was purified from transgenic maize seed and analyzed for posttranslational modification and kinetic properties. OPH was observed to undergo a glycosylation event when expressed in maize that yielded at least two forms of OPH homogolous dimer. The glycosylated form of OPH bound tightly to the Concanavalin A sepharose and remained active after months of storage at room temperature. OPH activity was checked against a number of organophosphate herbicides. Enzymatic activity was observed against the herbicide Amiprophos-methyl and kinetic properties were measured. Enzymatic activity was also tested against the organophosphate Haloxon. Transgenic maize callus, leaf, and seed tissue could be screened for the presence of the optimized opd gene by enzymatic activity. Comparison of the growth of transgenic and control callus on media containing organophosphates showed that the transgenic callus was resistant to the herbicidal effects of haloxon. Transgenic plants expressing OPH were also resistant to the herbicide bensulide when compared to control plants. This indicates that OPH can be used as a screenable marker in plant systems and may be a potential scorable marker system as well.

Plant Biotechnology

Recombinant Expression

Organophosphate hydrolase

Phosphotriesterase

Herbicides

Selectable Marker

Scorable Marker