Investigation of Respiratory Syncytial Virus Structural Determinants and Exploitation of the Host Ubiquitin System

Whelan, Jillian Nicole

07 April 2016

Respiratory syncytial virus (RSV) is a globally circulating, non-segmented, negative sense (NNS) RNA virus that causes severe lower respiratory infections. This study explored several avenues to ultimately expand upon our understanding of RSV pathogenesis at the protein level. Evaluation of RSV intrinsic protein disorder increased the relatively limited description of the RSV structure-function relationship. Global proteomics analysis provided direction for further hypothesis-driven investigation of host pathways altered by RSV infection, specifically the interaction between the RSV NS2 protein and the host ubiquitin system. NS2 primarily acts to antagonize the innate immune system by targeting STAT2 for proteasomal degradation. The goal was to identify NS2 residues important for interaction with the host ubiquitin system, as well as describe the mechanism by which NS2 induces host protein ubiquitination. Bioinformatics analysis provided a platform for development of loss-of-ubiquitin-function NS2 mutants. Combining critical mutations as double or triple NS2 ubiquitin mutants displayed an additive effect on reducing NS2-induced ubiquitination. Recombinant RSV (rRSV) containing NS2 ubiquitin mutations maintained their effect on ubiquitin expression during infection in addition to limiting STAT2 degradation activity. NS2 ubiquitin mutants decreased rRSV growth and increased levels of innate immune responses, indicating a correlation between NS2’s ubiquitin function and antagonism of type I IFN to enhance viral replication. Finally, several proteomics strategies were employed to identify specific cellular proteins ubiquitinated by NS2 to further define host-pathogen interactions during RSV infection. This study demonstrates an effective approach for limiting viral protein function to enhance immune responses during infection.

Respiratory syncytial virus

ubiquitin

host-pathogen interactions

intrinsic protein disorder

proteomics

mutagenesis

Biochemistry

Molecular Biology

Virology

Regulation of type III secretion system in Pseudomonas syringae

Xiao, Yanmei

January 1900

Doctor of Philosophy / Department of Plant Pathology / Xiaoyan Tang / P. syringae is a group of bacterial phytopathogens that can infect a wide variety of plants. These bacteria rely on the type III secretion system (TTSS) to deliver effectors into plant cells for infection. The TTSS genes, that encode the TTSS apparatus and the effectors, are repressed when bacteria grow in nutrient rich media but are strongly induced in the plants and in minimal medium (MM). Plant cutin monomers appear to negatively regulate the P. syringae TTSS genes. It is poorly understood how bacteria sense the environmental signals to regulate the TTSS genes. By genetic screen, four sets of transposon insertion mutants displaying aberrant TTSS gene expression were isolated: KB and fin mutants derepress the TTSS genes in rich medium KB and in the presence of a cutin monomer precursor in MM, respectively; min and pin mutants are defective in induction of TTSS genes in MM and in plants, respectively. A putative two-component sensor histidine kinase, RohS, is identified to be required for the induction of avrPto-LUC in MM and in plants. The rohS gene is in an operon containing a two-component response regulator gene rohR. Mutation of rohS in P. s. phaseolicola and P. s. tomato reduced the bacterial pathogenicity on hosts and HR-inducing activity on non-hosts. Our results suggested that RohS acts upstream of HrpR/HrpS. The phosphorylated RohR represses TTSS genes. It is likely that RohS acts as phosphatase of RohR in the TTSS-inducing conditions, and subsequently derepresses TTSS genes. Simple sugars such as glucose, sucrose and fructose are known to be inducers of the TTSS genes. Isolation of four min mutants defective in fructose-uptake enabled us to study if sugars serve as extracellular signals or as essential nutrients. Our results suggest that fructose acts as an essential nutrient for the activation of type III genes. These mutants slightly compromised induction of avrPto promoter in Arabidopsis and pathogenicity on the host bean plant, but displayed normal HR elicitation on non-host plant tobacco. The reduced pathogenicity suggested that exploitation of fructose from the host tissue is an important means for pathogenesis of P. s. phaseolicola.

Type III secretion system

Pseudomonas syringae

Transposon mutagenesis

Agriculture, Plant Pathology (0480)

Improving the inhibitory potency of papaya cystatin, using site-directed mutagenesis

Van Wyk, Stefan George

19 September 2011

Novel conserved amino acid variations of papaya cystatin (PC) were investigated by amino acid substitutions using oryzacystatin-I (OCI) as a model plant cystatin for comparison. These amino acid residues in the conserved motifs are involved in binding with cysteine proteases, these include the GG (Gly-Gly) in the N-terminal region for both OCI and PC, the (Q)QVVAG (Gln-Val-Val-Ala-Gly) motif for OCI and (Q)AVVEG (Ala-Val-Val-Glu-Gly) motif for PC in the first inhibitory loop, and the PW (Pro-Trp) motif for OCI and LW (Leu-Trp) motif for PC in the second inhibitory loop. Recombinant OCI and PC mutant proteins were expressed in Escherichia coli and were tested for altered inhibitory activity against commercial cysteine proteases (papain and cathepsin L) and extracts from Colorado potato beetle (Leptinotarsa decemlineata) larvae, from banana weevil larvae (Cosmopolites sordidus) and tobacco leaf extracts (Nicotiana benthamiana). In all tests higher amounts of PC had to be used to obtain similar inhibition levels as OCI. Changing the amino acid Q at position 52 to E in OCI in the first inhibitory loop, had lowered the Ki value of the mutant against the commercial proteases. Concurrently the same amino acid string (EQ) in PC had resulted in a significantly decreased Ki value compared to PC wild-type and other mutants. All other OCI mutants were less efficient than the wild-type OCI, whereas all PC first inhibitory loop mutants had improved inhibitory activity against protease activity with the highest improvement against the protease extracts was found for the substitution of E with A at position 55. This study has shown the importance of the three conserved motifs and that it is possible to improve the binding capacity of a plant cystatins to cysteine protease activity by amino acid substitution using site-directed mutagenesis. By mutating individual amino acid residues in the first binding loop of the relatively “weak” papaya cystatin to amino acid residues found in OCI caused a significant improvement in inhibitory potency of PC. Copyright / Dissertation (MSc)--University of Pretoria, 2011. / Plant Science / unrestricted

Oryzacystatin

Papaya cystatin

Site-directed mutagenesis

Cysteine protease inhibitor

Inhibitor engineering

UCTD

Engineering cytochrome P450-reductase fusion enzymes for biocatalysis

Kelly, Paul

January 2014

Cytochromes P450 (P450s) are a superfamily of heme-thiolate monooxygenases. They catalyse a wide variety of reactions on a vast number of substrates and are of particular interest for biocatalyst development due to their ability to oxidise non-activated C-H bonds. Fusion of a P450 to a suitable redox partner protein produces a catalytically self-sufficient enzyme and removes the need to produce electron transfer proteins separately. The well-studied bacterial protein P450cam (Pseudomonas putida) has been fused to the reductase (RhFRed) from the natural fusion protein P450-RhF (Rhodococcus sp.). The P450cam-RhFRed system catalyses the oxidation of camphor and several non-natural substrates and served as the basis for P450cam re-engineering in this current project, with the aim of expanding the substrate scope towards a more mammalian-like activity. The P450cam active site was partitioned into seven paired amino acids and each pair randomised in turn to generate seven sub-libraries of P450cam variants. These were screened for activity using a specially developed colony screen for detection of the blue pigment indigo. In total 94 new variants were identified and then pooled for secondary screening on a number of new substrates, identifying potentially novel activities within the ‘indigo positive’ population. In a separate ‘chimeragenesis’ approach substrate recognition sites (SRSs) within P450cam were targeted for exchange with equivalent portions from a number of human P450s. The B’ helix and F-G loop regions from CYPs 1A2, 2C8, 2D6 and 3A4 were grafted onto the P450cam structure and several of the B’ helix swaps were produced as soluble proteins. The P450cam-2C8-B’-RhFRed chimera gave a Soret peak at 420 nm in the Fe(II)-CO state although an additional substitution next to the proximal cysteine appeared to restore a P450-like state. SRS-exchange therefore offered some insight into structural modularity in P450s, providing a basis for further biocatalyst development.

547

Mechanisms of Chloroperoxidase-catalyzed Enantioselective Reactions as Probed by Site-directed Mutagenesis and Isotopic Labeling

Jiang, Lin

25 October 2012

Chloroperoxidase (CPO) is a heme-containing glycoprotein secreted by the marine fungus Caldariomyces fumago. Chloroperoxidase contains one ferriprotoporphyrin IX prosthetic group per molecule and catalyzes a variety of reactions, such as halogenation, peroxidation and epoxidation. The versatile catalytic activities of CPO coupled with the increasing demands for chiral synthesis have attracted an escalating interest in understanding the mechanistic and structural properties of this enzyme. In order to better understand the mechanisms of CPO-catalyzed enantioselective reactions and to fine-tune the catalytic properties of chloroperoxidase, asparagine 74 (N74) located in the narrow substrate access channel of CPO was replaced by a bulky, nonpolar valine and a polar glutamine using site-directed mutagenesis. The CPO N74 mutants displayed significantly enhanced activity toward nonpolar substrates compared to wild-type CPO as a result of changes in space and polarity of the heme distal environment. More interestingly, N74 mutants showed dramatically decreased chlorination and catalase activity but significantly enhanced epoxidation activity as a consequence of improved kinetic perfection introduced by the mutation as reflected by the favorable changes in kcat and kcat/KM of these reactions. It is also noted that the N74V mutant is capable of decomposing cyanide, the most notorious poison for many hemoproteins, as judged by the unique binding behavior of N74V with potassium cyanide. Histidine 105 (H105) was replaced by a nonpolar amino acid alanine using site-directed mutagenesis. The CPO H105 mutant (H105A) displayed dramatically decreased chlorination and catalase activity possibly because of the decreased polarity in the heme distal environment and loss of the hydrogen bonds between histidine 105 and glutamic acid 183. However, significantly increased enantioselectivity was observed for the epoxidation of bulky styrene derivatives. Furthermore, my study provides strong evidence for the proposed histidine/cysteine ligand switch in chloroperoxidase, providing experimental support for the structure of the 420-nm absorption maximum for a number of carbon monoxide complexes of heme-thiolate proteins. For the NMR study, [dCPO(heme)] was produced using 90% deuterated growth medium with excess heme precursors and [dCPO(Phe)] was grown in the same highly deuterated medium that had been supplemented with excess natural phenylalanine. To make complete heme proton assignments, NMR spectroscopy has been performed for high-resolution structural characterization of [dCPO(heme)] and [dCPO(Phe)] to achieve unambiguous and complete heme proton assignments, which also allows important amino acids close to the heme active center to be determined.

Chloroperoxidase

N74V

N74Q

H105A

HPLC

Enantioselectivity

Deuterated

Isotopic labeling

Site-directed Mutagenesis

Modificações no sítio ativo da triptofanil tRNATRP sintetase de E. coli / Modifications in the active site of tryptophan tRNATRP E. coli synthetase

Sandro Fernandes Ataide

31 August 2001

As aminoacil-tRNA sintetases catalisam fielmente a ligação do aminoácido ao seu tRNA cognato. A triptofanil-tRNA sintetase (TrpRS) catalisa a ligação de triptofano e alguns análogos de triptofano ao tRNATrp. 1-metiltriptofano (1MW) e 1-metil-7-azatriptofano (1M7NW) não são reconhecidos pela TrpRS, mas possuem características espectroscópicas convenientes para estudos de fluorescência em complexos multiprotéicos. O objetivo deste trabalho é modificar o sítio ativo da TrpRS de E.coli, visando promover a catálise da ligação de 1MW e 1M7NW ao tRNATrp in vivo e permitir a incorporação destes em proteínas recombinantes. Com base numa análise da estrutura da TrpRS:Trp-AMP de B. Stearothermophilus, foram produzidos quatro mutantes de TrpRS de E. coli, com substituição do Asp 135 por Ala (D135A), Cys (D135C), Ser (D135S) e Thr (D135T). Estas proteínas foram superexpressas nas condições utilizadas para a incorporação de análogos de Trp. Através de ensaio de fluorescência do 1MW, pôde-se observar uma pequena incorporação deste nas TrpRS mutantes. Construiu-se um novo vetor de expressão no qual os TrpRS mutantes seriam expressos de forma constitutiva e uma segunda proteína, troponina C F29W, seria expressa de forma induzível. No entanto, não se observou incorporação do 1MW nestas proteínas. Ensaios de atividade in vitro, de formação de triptofano-hidroxamato e de intercâmbio de pirofosfato da TrpRS e mutantes indicaram uma baixa atividade dos mutantes utilizando triptofano como substrato. Os mutantes D135C e D135S apresentaram um considerável aumento (aproximadamente 24 vezes) na especificidade para 1MW em comparação ao Trp. A anotação do genoma da Xanthomonas indicou que a TrpRS deste organismo possui 88 aminoácidos extras na região C-terminal, o que é incomum para procariotos (somente observado em Xyllela e Pseudomonas). Clonou-se, expressou-se e purificou-se a TrpRS da Xanthomonas, com e sem os 88 aminoácidos extras. Observou-se atividade enzimática em ensaios de formação de triptofano-hidroxamato e intercâmbio de pirofosfato nas quais a TrpRS sem os 88 resíduos C-terminais apresentou uma atividade um pouco menor que a enzima tipo selvagem. / Abstract not available.

Biologia molecular

Escherichia coli (Alteração)

Mutagênese

Proteínas recombinantes

Escherichia coli (Change)

Molecular biology

Mutagenesis

Recombinant proteins

Estudo do papel dos resíduos Y456 e N329 na atividade catalítica de uma β-glicosidase digestiva de Spodoptera frugiperda / The role of residues Y456 and N329 on catalytic activity of a β-glycosidase digestive from Spodoptera frugiperda

Marcelo Henrique Peteres Padilha

22 August 2005

Nesse projeto trabalhamos com uma β-glicosidase digestiva da larva da lagarta Spodoptera frugiperda (Sfβgli50, 50 kD - AF052729), expressa na forma de proteína recombinante em E.colli. O nosso objetivo foi estudar o papel de dois resíduos de aminoácidos envolvidos na atividade catalítica da Sfβgli50. O primeiro resíduo estudado foi o Y456, envolvido na afinidade pela porção redutora do substrato (aglicone), o segundo resíduo foi o N329 envolvido na modulação do pH ótimo. Estudo do papel do resíduo Y456 na afinidade pelo aglicone do substrato. O sítio-ativo da Sfβgli50 é formado por quatros subsítios (-1, +1, +2, e +3). O subsítio que acomoda a porção não-redutora do substrato (glicone) recebe numeração negativa (-1), já os subsítios que acomodam a porção redutora do substrato (aglicone) recebem números positivos (+1, +2 e +3). Trabalhando com duas β-glicosidases de plantas (milho e sorgo), Cicek et al. (2000) demonstraram que uma pequena porção da extremidade C-terminal destas β-glicosidases (462SSGYTERF469 - numeração da enzima do sorgo) está envolvida na especificidade pelo aglicone do substrato, sendo que muitos desses aminoácidos são conservados em outras β-glicosidases da família 1. O alinhamento das sequências destas duas enzimas com a Sfβgli50 sugere que Y456 pode fazer parte do sítio de ligação do aglicone nesta β-glicosidase de inseto. Utilizando experimentos de mutação sítio-dirigida, o Y456 foi substituído por uma alanina (mutante Y456A) sendo que este foi expresso na forma de proteína recombinante em bactérias BL21 DE3 utilizando o vetor pT7-7. O mutante Y456A foi parcialmente purificado através de uma cromatografia hidrofóbica em sistema de FPLC, e caracterizado utilizando diversos inibidores competitivos (glucono δ-lactona, celobiose, celotriose, pentilbglicosídeo e octilbtioglicosídeo). Comparando os Kis obtidos para a Sfβgli50 selvagem e mutante Y456A com os inibidores glucono δ-lactona, celobiose e celotriose, foi proposto que Y456 encontra-se no subsítio +1 do sítio ativo da Sfβgli50. Já através da comparação entre os inibidores octilβtioglicosídeo e pentilβglicosídeos constatou-se que Y456 interage com uma porção polar do aglicone do substrato, talvez através de uma ligação de hidrogênio. Baseando-se nestes Kis foi calculada a energia de associação de resíduos de glicose e grupos alquila nos subsítios +1 e +2, indicando que o subsítio +1 do mutante Y456A tem uma especificidade mais ampla frente à ligantes polares (glicose) e apolares (grupos butil) do que a enzima selvagem. Sabendo que este resultado foi obtido removendo-se um resíduo com um grupo polar na cadeia lateral (Y456), estes dados estão de acordo com a hipótese de que a especificidade dos subsítios da região de ligação do aglicone é determinada por um balanço entre resíduos polares e apolares (Marana et al., 2001). Estudo do papel do resíduo N329 na modulação do pH ótimo. O mecanismo de catálise da Sfβgli50 é dependente de dois resíduos de ácido glutâmico: um doador de prótons (E187 - pKa= 7,5) e um nucleófilo (E399 - pKa = 5,0). Sendo o pH ótimo da Sfβgli50 (6,2) uma média aritmética dos pKas destes dois resíduos catalíticos. Uma análise estrutural do sítio ativo da Sfβgli50 mostra que o resíduo N329 forma ligações de hidrogênio com o resíduo E187 (doador de prótons), talvez atuando na modulação do seu pKa. Para estudar o papel do resíduo N329 na atividade da Sfβgli50 foram construídos 3 mutantes, nos quais tal resíduo foi substituído por alanina (N329A), ácido aspártico (N329D) e uma glutamina (N329Q). Os mutantes foram expressos na forma de proteína recombinante em bactérias BL21 DE3 utilizando os vetores pT7-7 e pCal-n-Flag. Entretanto, tentativas de purificação das SfΒgli50 mutantes através de cromatografia hidrofóbica foram infrutíferas, sugerindo uma possível inativação destas enzimas. Esta hipótese foi reforçada pela purificação das Sfβgli50 mutantes e selvagem contendo o peptídeo de fusão CBP (calmodulin binding peptide) através de cromatografia de afinidade. Este experimento demonstrou que as enzimas mutantes eram de fato inativas. Frente à estes resultados não foi possível concluir a caracterização do efeito do pH na atividade catalítica das Sfβgli50 mutantes N329A, N329D e N329Q. Por fim, foi proposto que a inativação da Sfβgli50 devido à mutações na posição N329 pode resultar de uma desnaturação das enzimas mutantes ou do reposicionamento do ácido catalítico devido à perda ou alteração da interação com o resíduo 329. / In this project it was studied the role of two residues (N329 and Y456) in the catalytic activity of a digestive β-glycosidase from Spodoptera frugiperda (SfΒgli50 - AF052729). N329 is believed to modulate the enzyme pH optimum, whereas Y456 may participate in the binding of the substrate aglycone. Role of Y456 The peptide 462SSGYTERF469 of the sorghum β-glycosidase is proposed to be part of the aglycone binding site in that enzyme. Some of those residues are conserved in Sfβgli50, among them Y456. Using site-directed mutagenesis Y456 was replaced by A and this mutant (Y456A) expressed in bacteria. Following that, this mutant enzyme was partially purified using hydrophobic chromatography. Inhibition experiments showed that binding of δ-gluconolactone, which occupies subsite -1, is not affected by that mutation. In contrast, Ki values for cellobiose (that binds to subsites -1 and +1) and cellotriose (that binds to subsites -1, +1 and +2) are two-fold higher than those of wild-type enzyme, indicating that mutation Y456A decrease the interaction with these oligocellodextrins. Moreover, binding of pentyl and octylβglucosides is not affected by mutation Y456A, suggesting that Y456 interacts with aglycone polar groups. Finally, evaluation of glucose and butyl binding energies in subsite +1 revealed that mutant Y456A specificity is broader than that of wild-type enzyme. Role of N329 A structural model of Sfβgli50 active site revealed that catalytic proton donor (E187) may interact with N329. In order to study the role of this interaction in the activity of Sfβgli50, N329 was replaced by A, D and Q (mutants N329A, N329D and N329Q, respectively). These mutants were expressed as recombinant proteins in bacteria and purified through affinity chromatography, revealing that Sfβgli50 was inactivated by those mutations. It was proposed that this inactivation may be due to protein desnaturation or a wrong positioning of the catalytic proton donor.

Beta-glicosidase

Enzimas

Mutações sítio-dirigida

Beta-glycosidase

Digestive

Enzyme

Site-directed mutagenesis

Banco de dados inteligente e ferramentas associadas de sequências, mutações e resistências ao antiretrovirais do vírus HIV. / Intelligent database tools and associated sequences, mutations and resistance to antiretrovirals in HIV virus.

Paulo Cesar Costa dos Santos

10 December 2010

Os bancos de dados atualizados constituídos a partir de informações dos prontuários de pacientes HIV+ são importantes fontes para a realização de pesquisas clínicas e epidemiológicas de forma rápida e eficiente. A elevada variabilidade do HIV-1, resultado, entre outros fatores, da ausência de mecanismos eficientes de reparo durante os estágios da replicação viral, contribui para a emergência de cepas resistentes aos antiretrovirais. O objetivo deste trabalho é desenvolver e implementar um banco dados inteligente utilizando a Rede Neural Artificial Paraconsistente (RNAP), assentada na Lógica Paraconsistente Anotada, para auxiliar o mapeamento de informações contidas nos diversos formulários a fim de apoiar o mapeamento das informações provenientes dos diferentes registros médicos produzidos. O banco de dados será usado principalmente para apoiar o processo de decisão sobre a prescrição da terapia antiretroviral. Os resultados obtidos durante a pesquisa mostram que a técnica pode se tornar uma ferramenta promissora. / Updated databases made from information collected from HIV+ patients are important references to quickly and efficiently design clinical and epidemiologic studies. The high levels of variability of the HIV-1 virus, among other factors, the result of the absence of repair mechanisms during replication, strongly contribute to the establishment of resistance to antiretroviral therapy. The main objective of this study is the design and implementation of an inteligent database using the concept of Paraconsistent Artificial Neural Network (PANN) based on the Paraconsistent Annotated Logic, in order to support the mapping of the information coming from the different medical records produced. The database will be used primarily to support the decision process on the antiretroviral therapy prescription. Results obtained during the research show that the technique may become a promising tool.

Antivirais

Mutagênese

Redes neurais

Retroviridae

Síndrome de imunodeficiência adquirida

Acquired immunodeficiency syndrome

Antiviral

Mutagenesis

Neural networks

Retroviridae

Engenharia evolutiva aplicada a Trichoderma sp. para produção de celulases. / Evolutionary engineering applied in Trichoderma sp. for the production of cellulase.

Felipe Senne de Oliveira Lino

09 February 2012

O projeto visou aumentar a produção de celulases em fungos T. harzianum IPT 821 e T. reesei QM 9414. Esporos foram submetidos à radiação UV-C. Células das colônias mais capacitadas ao crescimento foram sucessivamente cultivadas em meio solidificado, contendo concentrações progressivamente reduzidas fonte de carbono, de modo a resultar pressão ambiental seletiva e crescente. Após esta etapa as linhagens isoladas foram cultivadas em meio composto por bagaço de cana/farelo de trigo na proporção 80/20, 60% de umidade, 30°C por 72h. Uma linhagem, originária da cepa IPT 821, apresentou atividade de 3,7 FP U/gms, 50% superior em relação à parental: 2,6 U/gms (p=0,001; p<0,05). Análises das frações enzimáticas indicaram uma diferença significativa (p=0,001; p<0,05) na atividade de xilanase: 4,7 U/gms (mutante) e 4 U/gms (parental). Ensaios de hidrólise, Avicel como substrato (1% de sólidos; w/v) indicaram um aumento de quase 70% na hidrólise em 48h, da mutante em comparação à parental (8,7% (mutante) e 4,8% (parental), concentração enzimática de 2,5 FP U/gms). / This project aimed to increase cellulase production in fungi T. harzianum IPT 821 and T. reesei QM 9414. Spores were exposed to UV-C radiation. Colonies were plated and those showing best growth were successively cultivated in plates containing increasingly stress conditions reduced concentrations of the carbon source thus creating a progressive selective pressure. After this pre-selection step isolated strains were cultivated in medium comprising sugar cane bagasse and wheat straw, in the proportion of 80/20 respectively, 60% of moisture, 30°C for 72h. One strain, originated from IPT 821 strain, showed a cellulolytic activity of 3,7 U/gdw; 50% superior to the parental strain: 2,6 U/gdw (p=0,001; p<0,05). Analysis of the enzymatic cocktail showed significant difference (p=0,001; for p <0,05) on xylanase activity: 4,7 U/gdw (mutant strain) and 4 U/gdw (parental strain). Hydrolysis assays, using Avicel as substrate (1% w/v) showed an increase on hydrolysis of about 70%, in 48h (8,7% (mutant strain) and 4,8% (parental strain), enzyme load of about 2,5 U/gdw).

Trichoderma

Engenharia de produção

Microbiologia industrial

Mutagênese

Trichoderma

Industrial microbiology

Mutagenesis

Production engineering

Expressão de antígenos de Schistosoma mansoni em BCG recombinante. / Expression of Schistosoma mansoni antigens in recombinant BCG.

Alex Issamu Kanno

18 October 2013

O BCG é um bacilo atenuado de Mycobacterium bovis atualmente investigado na expressão de antígenos heterólogos. Genes oriundos de vírus, bactérias e parasitas são clonados em vetores de expressão micobacterianos e a partir deles, são geradas cepas de BCG recombinante, rBCG. Duas cepas micobacterianas, BCG e M. smegmatis, demonstraram a expressão do antígeno SmStoLP-2 e animais imunizados com este BCG não demonstra diferença na proteção contra a infecção por cercárias, apesar da resposta imune diferenciada. A otimização do códon de SmTSP-2 e SmVAL-5 permitiu sua expressão em M. smegmatis recombinante, mas não em BCG. M. smegmatis transformado com uma biblioteca de plasmídeos contendo o promotor L5p mutagenizado à montante de egfp demonstra acentuada diferença na fluorescência. 3 destes plasmídeos definidos como \'\'forte\'\' e \'\'fraco\'\', com base em sua capacidade de produzir GFP foram utilizados para expressar em BCG o antígeno Sm29 em maior e menor nível. / BCG is an attenuated bacillus derived from Mycobacterium bovis currently being investigated to express foreign antigens. Genes from viruses, bacteria and parasites are cloned to mycobacterial vectors and with them, recombinant BCG strains are created. Recombinant BCG and M. smegmatis strains where capable to express SmStoLP-2 and mice immunized with these rBCGs do not show better protection against infection with cercariae, although the distinct immune response observed. The use of codon optimization made possible the expression of SmTSP-2 and SmVAL-5 in M. smegmatis but not BCG. M. smegmatis transformed with a library of plasmids containing the L5p upstream egfp gene show a wide range in fluorescence. 3 of these plasmids strong and weak defined as their ability to produce GFP were used to express in BCG the antigen Sm29 at different levels by each promoter.

Mycobacterium bovis

Schistosoma mansoni

Mutagênese

Vacinas

Mycobacterium bovis

Schistosoma mansoni

Mutagenesis

Vaccine