22 resultados para VP4
Resumo:
The complete sequence of a P4 type VP4 gene from a G2 serotype human rotavirus, IS2, isolated in India has been determined. Although the IS2 VP4 is highly homologous to the other P4 type alleles, it contained acidic amino acid substitutions at several positions that make it acidic among the P4 type alleles that are basic. Moreover, comparative sequence analysis revealed unusual polymorphism in members of the P4 type at amino acid position 393 which is highly conserved in members of other VP4 types. To date, expression of complete VP4 inE. coli has not been achieved. In this study we present successful expression inE. coli of the complete VP4 as well as VP8* and VP5* cleavage subunits in soluble form as fusion proteins of the maltose-binding protein (MBP) and their purification by single-step affinity chromatography. The hemagglutinating activity exhibited by the recombinant protein was specifically inhibited by the antiserum raised against it. Availability of pure VP4 proteins should facilitate development of polyclonal and monoclonal antibodies (MAbs) for P serotyping of rotaviruses.
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The nucleotide sequence of genes 4 and 9, encoding the outer capsid proteins VP4 and VP7 of a serotype 10 tissue culture-adapted strain, 1321, representative of asymptomatic neonatal rotaviruses isolated from neonates in Bangalore, India, were determined. Comparison of nucleotide and deduced amino acid sequences of 1321 VP4 and VP7 with previously published sequences of various serotypes revealed that both genes were highly homologous to the respective genes of serotype 10 bovine rotavirus, B223. The VP4 of 1321 represents a new human P serotype and the 1321 and related strains represent the first description of neonatal rotaviruses that appear to derive both surface proteins from an animal rotavirus.
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Triatoma virus (TrV) es un virus patógeno de Triatoma infestans y otros insectos hematófagos , que son los vectores principales de la enfermedad del Chagas (tripanosomiasis americana) . Esta enfermedad es un grave problema sanitario en muchos países de Latinoamérica , do nde es endé mic a y afecta alrededor de 8 millones de personas. El agente causante de dicha enfermedad es el protozoo parásito Tripanosoma cruzi , que infecta al insecto vector y este a su vez , infecta hospedadores vertebrados cuando se alimenta de su sangre [Rassi et al ., 2010] . Al aumentar el movimiento migracional de las personas , la enfermedad ha logrado exte nde rse a otras regiones y convertirse en un problema de salud en z o nas originariamen te no endémicas [ Gascon et a l ., 2010 ] . Debido a esto se ha propuesto el uso de TrV como agente de control biológico frente a los vectores de la enfermedad del Chagas
Resumo:
Os rotavírus são os principais agentes virais causadores de gastrenterite aguda e responsáveis por 36% dos casos hospitalizações entre crianças menores de cinco anos, resultando em 453.000 óbitos anualmente, principalmente em países em desenvolvimento. Pertencem à família Reoviridae, gênero Rotavirus, possui RNA de dupla fita (dsRNA) com 11 segmentos codificando 12 proteínas. O genótipo G1 se apresenta geralmente com maior frequência nas investigações epidemiológicas, circulando em várias partes do mundo sob diferentes prevalências. Este estudo teve como objetivo analisar a variabilidade genética dos genes VP4, VP7 e NSP4 dos rotavírus G1 circulantes nos municípios de Belém e Marituba, Pará, Brasil, no período de 1982 a 2008. Foram selecionadas 83 amostras previamente caracterizadas como G1 e submetidas a RT-PCR. Os espécimes foram provenientes de sete estudos realizados no IEC. Foi possível a amplificação para os três genes em estudo de 63 (75,9%) espécimes. Foram detectadas as linhagens 1 (8/63, 12,7 %), 2 (29/63, 46,0%), 3 (18/63, 28,6%) e 9 (8/63, 12,7%) para o gene VP7. Co-predominaram as sublinhagens 2E e 3A concorrendo com um total de 57,1% (36/63) das amostras. Foram observadas três substituições de aminoácidos (97 [D→E], 147 [S→N] e 218 [I→V]) no gene VP7 nas regiões antigênicas (A, B e C) nas amostras das linhagens 1, 2 e 9. Todas as amostras apresentaram a especificidade P[8] para o gene VP4 e as linhagens 2 (21/63, 33,3%) e 3 (42/63, 66,7%) foram detectadas. No gene da VP4 ocorreram duas alterações (35 [I→V] e 38 [S→G]) na região antigênica em todas as amostras analisadas. Para o gene NSP4, todas as amostras pertenceram ao tipo E1. Houve mudanças de nucleotídeos nas posições 47 (C→T) e 101 (T→C), resultando em alteração aminoacídica nos resíduos 16 (S→P) e 34 (L→P) em todas as amostras analisadas e nove espécimes demonstraram alteração no sítio de toxicidade da NSP4 (aa 131). Tal análise permitiu ampliar o conhecimento da diversidade genética e da circulação de variantes de rotavírus G1, representando o primeiro estudo da epidemiologia molecular deste genótipo no Brasil e confirmar a alta heterogeneidade que este tipo apresenta.
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The core of bluetongue virus (BTV) is a multienzyme complex composed of two major proteins (VP7 and VP3) and three minor proteins (VP1, VP4, and VP6) in addition to the viral genome. The core is transcriptionally active and produces capped mRNA from which all BTV proteins are translated, but the relative role of each core component in the overall reaction process remains unclear. Previously we showed that the 76-kDa VP4 protein possesses guanylyltransferase activity, a necessary part of the RNA capping reaction. Here, through the use of highly purified (>95%) VP4 and synthetic core-like particles containing VP4, we have investigated the extent to which this protein is also responsible for other activities associated with cap formation. We show that VP4 catalyzes the conversion of unmethylated GpppG or in vitro-produced uncapped BTV RNA transcripts to m7GpppGm in the presence of S-adenosyl-l-methionine. Analysis of the methylated products of the reaction by HPLC identified both methyltransferase type 1 and type 2 activities associated with VP4, demonstrating that the complete BTV capping reaction is associated with this one protein.
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The first part of this work investigates the molecular epidemiology of a human enterovirus (HEV), echovirus 30 (E-30). This project is part of a series of studies performed in our research team analyzing the molecular epidemiology of HEV-B viruses. A total of 129 virus strains had been isolated in different parts of Europe. The sequence analysis was performed in three different genomic regions: 420 nucleotides (nt) in the VP4/VP2 capsid protein coding region, the entire VP1 capsid protein coding gene of 876 nt, and 150 nt in the VP1/2A junction region. The analysis revealed a succession of dominant sublineages within a major genotype. The temporally earlier genotypes had been replaced by a genetically homogenous lineage that has been circulating in Europe since the late 1970s. The same genotype was found by other research groups in North America and Australia. Globally, other cocirculating genetic lineages also exist. The prevalence of a dominant genotype makes E-30 different from other previously studied HEVs, such as polioviruses and coxsackieviruses B4 and B5, for which several coexisting genetic lineages have been reported. The second part of this work deals with molecular epidemiology of human rhinoviruses (HRVs). A total of 61 field isolates were studied in the 420-nt stretch in the capsid coding region of VP4/VP2. The isolates were collected from children under two years of age in Tampere, Finland. Sequences from the clinical isolates clustered in the two previously known phylogenetic clades. Seasonal clustering was found. Also, several distinct serotype-like clusters were found to co-circulate during the same epidemic season. Reappearance of a cluster after disappearing for a season was observed. The molecular epidemiology of the analyzed strains turned out to be complex, and we decided to continue our studies of HRV. Only five previously published complete genome sequences of HRV prototype strains were available for analysis. Therefore, all designated HRV prototype strains (n=102) were sequenced in the VP4/VP2 region, and the possibility of genetic typing of HRV was evaluated. Seventy-six of the 102 prototype strains clustered in HRV genetic group A (HRV-A) and 25 in group B (HRV-B). Serotype 87 clustered separately from other HRVs with HEV species D. The field strains of HRV represented as many as 19 different genotypes, as judged with an approximate demarcation of a 20% nt difference in the VP4/VP2 region. The interserotypic differences of HRV were generally similar to those reported between different HEV serotypes (i.e. about 20%), but smaller differences, less than 10%, were also observed. Because some HRV serotypes are genetically so closely related, we suggest that the genetic typing be performed using the criterion "the closest prototype strain". This study is the first systematic genetic characterization of all known HRV prototype strains, providing a further taxonomic proposal for classification of HRV. We proposed to divide the genus Human rhinoviruses into HRV-A and HRV-B. The final part of the work comprises a phylogenetic analysis of a subset (48) of HRV prototype strains and field isolates (12) in the nonstructural part of the genome coding for the RNA-dependent RNA polymerase (3D). The proposed division of the HRV strains in the species HRV-A and HRV-B was also supported by 3D region. HRV-B clustered closer to HEV species B, C, and also to polioviruses than to HRV-A. Intraspecies variation within both HRV-A and HRV-B was greater in the 3D coding region than in the VP4/VP2 coding region, in contrast to HEV. Moreover, the diversity of HRV in 3D exceeded that of HEV. One group of HRV-A, designated HRV-A', formed a separate cluster outside other HRV-A in the 3D region. It formed a cluster also in the capsid region, but located within HRV-A. This may reflect a different evolutionary history of distinct genomic regions among HRV-A. Furthermore, the tree topology within HRV-A in the 3D region differed from that in the VP4/VP2, suggesting possible recombination events in the evolution of the strains. No conflicting phylogenies were observed in any of the 12 field isolates. Possible recombination was further studied using the Similarity and Bootscanning analyses of the complete genome sequences of HRV available in public databases. Evidence for recombination among HRV-A was found, as HRV2 and HRV39 showed higher similarity in the nonstructural part of the genome. Whether HRV2 and HRV39 strains - and perhaps also some other HRV-A strains not yet completely sequenced - are recombinants remains to be determined.
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In an epidemiological study of symptomatic human rotaviruses in Mysore, India during 1993 and 1994, isolates MP409 and MP480 were isolated from two children suffering from severe, acute dehydrating diarrhea. Both isolates exhibited 'long' RNA pattern and subgroup I specificity suggesting the likelihood of their animal origin. Both isolates did not react with monoclonal antibodies (MAbs) specific for serotypes G1 to G6 as well as CIO. To determine the genetic origin of these isolates, complete nucleotide sequences of genes encoding the outer capsid proteins VP4 and VP7, nonstructural proteins NSP1 and NSP3 and viral enterotoxin protein NSP4 from MP409 and partial sequences of genes from MP480 were determined. Comparison of the 5' and 3' terminal sequences of 250 nucleotides revealed complete identity of the gene sequences in both strains suggesting that MP409 and MP480 are two different isolates of a single strain. Comparison of the nucleotide and deduced amino acid sequences of VP4, VP7, NSP1 and NSP3 of MP409 with published sequences of strains belonging to different serotypes revealed that both outer capsid proteins VP4 and VP7 and NSP1 are highly related to the respective proteins from the P6[1], G8 type bovine rotavirus A5 isolated from a calf with diarrhoea in Thailand and that the NSP3 is highly homologous to that of bovine rotaviruses. The NSP 1 protein showed greatest sequence identity with NSP4s belonging to the KUN genetic group to which NSP4s from human G2 type strains and bovine rotaviruses belong. MP409 and MP480 likely signify interspecies transmission of P6[1], G8 type strains from cattle to humans and represent the first P6[1] type rotaviruses isolated in humans. These and our previous studies on the asymptomatic neonatal strain I321 are of evolutionary and epidemiological significance in the context of close association of majority of the Indian population with cattle.
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Previous studies have shown predominant association of G10P11 type bovine rotavirus-derived reassortant strains with asymptomatic infections in newborn children in India. To understand the epidemiological and genetic basis for the origin of these strains in humans, the relative frequencies of different serotypes among bovine rotaviruses (BRVs) isolated from southern, western and central regions of the country were determined by subgroup and serotype analysis as well as nucleotide (nt) sequence analysis of the genes encoding the outer capsid proteins VP4 and VP7. Since the human G10P11 asymptomatic neonatal strain I321 possessed NSP1 from a human rotavirus, to determine its genetic origin in the bovine strains, comparative analysis of partial gene sequences from representative G10P11 strains was also carried out. The following observations were of great epidemiological significance, (i) G10P11 strains predominated in all the three regions with frequencies ranging between 55.6% and 85.2%. In contrast to the high prevalence of G6 strains in other countries, only one G6 strain was detected in this study and G8 strains represented 5.8% of the isolates, (ii) among the G10 strains, in serotyping ELISA, four patterns of reactivity were observed that appeared to correlate with the differences in electropherotypic patterns and amino acid (aa) sequence of the VP7, (iii) surprisingly, strains belonging to serotype G3 were detected more frequently (10.7%) than those of serotypes G6 and G8 combined, while strains representing the new serotype (G15) were observed in a single farm in Bangalore, and (iv) about 3.9% of the isolates were nontypeable as they exhibited high cross-reactivity to the serotyping MAbs used in the study. Comparative analysis of the VP7 gene sequence from the prototype G3 MAb-reactive bovine strain J63 revealed greatest sequence relatedness (87.6% nt and 96.0% aa) with that of serotype G3 rhesus-monkey strain RRV. It also exhibited high sequence homology with the VP7 from several animal and animal rotavirus-related human G3 strains (Simian SA11; equine ERV316 and FI-14. canine CU-1 and K9; porcine 4F; Feline Cat2 and human HCR3, YO and AU1). Partial nucleotide sequence analysis of the NSP1 gene of J63 showed greatest nt sequence homology (95.9%) to the NSP1 gene allele of the Indian G8 strain, isolated from a diarrheic child, which is likely to have been transmitted directly from cattle and 92.6% homology to that of the bovine G8 strain A5-10 suggesting the likely origin of J63 by gene reassortment between a bovine G8 strain and a G3 animal strain. Prevalence of G10P11 strains in cattle and G10P11 or P11 type reassortant strains in asymptomatic neonates as well as detection of G8P[1] strains in diarrheic children support our hypothesis for bidirectional transmission of rotaviruses between humans and cattle and origin of novel strains catalyzed by the age-old traditions and socio-economic conditions in India.
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A birnavirus strain, Paralichthys olivaceus birnavirus (POBV), was isolated and characterized from cultured flounder in China, and its complete genomic sequence was subsequently determined. The virus could induce cytopathic effects (CPE) in four of seven fish cell lines and was resistant to chloroform, 5-iodo-2'-deoxyuridine, acid and alkaline pH, and heat treatment. Purified virus particles had a typical icosahedral shape, with a diameter of approximately 55-60 nm. The genomic segments A and B of POBV were 3,091 and 2,780 bp in length and shared many of the features of the members of the family Birnaviridae. Segment A contained two partially overlapping ORFs encoding a polyprotein, pVP2-VP4-VP3, and a nonstructural protein, VP5, while segment B had only one ORF encoding for the VP1, a viral RNA-dependent RNA polymerase (RdRp). This is the first report about a birnavirus strain from a new non-salmonid host in China and its complete genome sequence.
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Rotavirus is the most common etiological cause of acute viral gastroenteritis in infants and young children worldwide, yet its role in the adult population is less well understood. We have recently identified rotavirus as the causative agent of severe diarrhea in adults, specifically in two gastroenteritis outbreaks in separate care for the elderly homes. Strain typing has shown the continued presence of P[8]G1, the emergence of P[8]G9, and the reemergence of P[8]G4. A total of 26 community cases and 6 outbreak cases of rotavirus infection, positive via a molecular screening assay, were subsequently amplified using VP4 and VP7 specific primers (Con2/Con3 and 1A/1B primer sets, respectively). The age range of patients investigated was from
Resumo:
We previously reported that soluble decay-accelerating factor (DAF) and coxsackievirus-adenovirus receptor (CAR) blocked coxsackievirus 133 (CVB3) myocarditis in mice, but only soluble CAR blocked CVB3-mediated pancreatitis. Here, we report that the in vitro mechanisms of viral inhibition by these soluble receptors also differ. Soluble DAF inhibited virus infection through the formation of reversible complexes with CVB3, while binding of soluble CAR to CVB induced the formation of altered (A) particles with a resultant irreversible loss of infectivity. A-particle formation was characterized by loss of VP4 from the virions and required incubation of CVB3-CAR complexes at 37 degrees C. Dimeric soluble DAF (DAF-Fc) was found to be 125-fold-more effective at inhibiting CVB3 than monomeric DAF, which corresponded to a 100-fold increase in binding affinity as determined by surface plasmon resonance analysis. Soluble CAR and soluble dimeric CAR (CAR-Fc) bound to CVB3 with 5,000- and 10,000-fold-higher affinities than the equivalent forms of DAF. While DAF-Fc was 125-fold-more effective at inhibiting virus than monomeric DAF, complement regulation by DAF-Fc was decreased 4 fold. Therefore, while the virus binding was a cooperative event, complement regulation was hindered by the molecular orientation of DAF-Fc, indicating that the regions responsible for complement regulation and virus binding do not completely overlap. Relative contributions of CVB binding affinity, receptor binding footprint on the virus capsid, and induction of capsid conformation alterations for the ability of cellular DAF and CAR to act as receptors are discussed.
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No Brasil, estima-se que os rotavírus causem 3.352.053 episódios de diarreia, 655.853 ambulatoriais, 92.453 hospitalizações e 850 mortes envolvendo crianças menores de 5 anos de idade. Os rotavírus pertencem à família Reoviridae, gênero Rotavirus. A partícula viral é constituída por três camadas proteicas concêntricas e pelo genoma viral reunindo 11 segmentos de RNA com dupla fita. Reconhecem-se 23 genótipos G e 31 genótipos P. Dentre os genótipos G detectados até o momento, o G2 atua como um dos mais importantes, estando geralmente associado ao genótipo P[4]. Nos últimos três anos se tem observado em larga escala global a reemergência do genótipo G2, sendo um dos mais detectados nos anos que sucederam a implantação da vacina contra rotavírus, particularmente no Brasil. Este estudo teve como objetivo a caracterização molecular de amostras do tipo G2 obtidas de crianças participantes de estudos em gastroenterites virais na região amazônica, Brasil, no período de 1992 a 2008. Foram selecionadas 53 amostras positivas para rotavírus genótipo G2 que foram sequenciadas para VP7 e 38 para VP4. Inicialmente, as amostras foram genotipadas por RT-PCR e seus produtos purificados, quantificados e sequenciados. As amostras também foram testadas quanto ao perfil de migração dos segmentos de RNA. As sequências obtidas dos genes VP4 e VP7 foram alinhadas e editadas no programa Bioedit (v.6.05) e comparadas a outras sequências de RV registradas no banco de genes utilizando o programa BLAST. A árvore filogenética foi feita utilizando o programa Mega 2.1. Do total de 53 amostras sequenciadas para o gene VP7, a análise filogenética revelou a existência de duas linhagens (II e III) e três sublinhagens (IIa, IIc, IId) que circularam em períodos diferentes na população. Amostras das sub-linhagem IIa e IIc apresentaram mutação na posição no aminoácido da posição 96 (Asp/ Asn) . Essa modificação pode resultar em uma alteração conformacional dos epítopos reconhecidos por anticorpos neutralizantes. As linhagens de G2 que circularam em Belém foram idênticas àquelas de outros Estados da região amazônica envolvidos no estudo. O gene VP[4] foi sequenciado na região da VP8*, sendo 36 pertencentes do genótipo P[4] e 3 ao P[6]. No genótipo P[4] foi identificada a circulação de duas linhagens, P[4]-4 ocorrendo nos anos de 1998-2000, e P[4]-5 que circulou nos períodos de 1993-1994 e 2006-2008. Nossos resultados reforçam dados de ocorrência continental que evidenciam a reemergência do genótipo G2 com a variante gênica IIc, a qual se estabeleceu na população em associação com o genótipo P[4]-5. A grande homologia entre as cepas de G2 que circularam entre os diferentes estados envolvidos no estudo sugere que as mutações registradas ultrapassaram barreiras geográficas e temporais.
Resumo:
O rotavírus (RV) é o principal agente viral associado às gastrenterites, ocasionando em média 39% dos casos diarreicos que culminam em hospitalizações, sendo responsável por cerca de 520.000 óbitos entre crianças menores de cinco anos de idade a cada ano. Pertencem à família Reoviridae, gênero Rotavirus, possui RNA de dupla fita (dsRNA) com 11 segmentos codificando 12 proteínas, sendo seis estruturais (VPs) e seis não estruturais (NSPs). A proteína VP4, juntamente com a VP7, compõem a camada externa do RV, designando os genótipos P e G, respectivamente. Até o momento foram descritos 23 tipos G e 31 tipos P. O genótipo G9 emergiu em escala global e é possivelmente associado a manifestação clínica mais grave, estando geralmente acompanhado do genótipo P[8]. O genótipo G9 possui 6 linhagens distintas e o P[8] 4 linhagens. Este estudo objetivou caracterizar os genes VP7 e VP4 de RV do genótipo G9, circulantes na região metropolitana de Belém, Pará, no período de 1999 a 2007. O dsRNA viral de 38 amostras selecionadas foi extraído a partir das suspensões fecais e submetido à eletroforese em gel de poliacrilamida para determinação dos eletroferotipos, seguido da reação de seqüenciamento. Na presente investigação, foi possível a análise de 32 amostras selecionadas, sendo todas genótipo G9P[8] associadas ao eletroferotipo longo. A análise filogenética do gene VP7 demonstrou que as amostras G9 agruparam na linhagem 3 com elevados índices de similaridade, apresentando 8 substituições nucleotídicas. Contudo, apenas três modificações aminoacídicas foram observadas nas posições 43 (I→V), 66 (A→V) e 73 (Q→R), sendo estes resíduos 43 e 73 exclusivos das amostras do ano de 2007. A análise do gene VP4 demonstrou que as amostras P[8] agruparam na linhagem 3, identificando-se 15 substituições nucleotídicas, as quais ocasionaram quatro modificações aminoacídicas nos resíduos 108 (V→I), 172 (R→K), 173 (I→V) e 275 (K→R). As modificações nos resíduos 172 e 275 são exclusivos das amostras dos anos de 1999 a 2002. As amostras do presente estudo apresentaram elevada similaridade ao longo do tempo estudado. As amostras de 2007 foram as mais divergentes, tanto para o gene VP4 quanto para o gene VP7. É importante se proceder ao contínuo monitoramento do genótipo G9 na região metropolitana de Belém, a fim de detectar possíveis variantes emergentes que possam representar um desafio as estratégias de imunização atuais.
Resumo:
Os rotavírus (RVs) são a principal causa de gastrenterites viróticas agudas tanto em seres humanos, como em animais jovens de várias espécies, incluindo bezerros, equinos, suínos, caninos, felinos e aves. A diversidade genética dos RVs está associada a diferentes mecanismos de evolução. Nesse contexto registrem-se: mutação pontual, rearranjo genômico e reestruturação (reassortment). O objetivo do presente estudo foi realizar a caracterização molecular dos genes que codificam para as proteínas estruturais e não-estruturais em amostras não usuais de RVs. Os espécimes clínicos selecionados para este estudo foram oriundos de projetos de pesquisa em gastrenterites virais conduzidos no Instituto Evandro Chagas e provenientes de crianças e neonato com gastrenterite por RVs. Os espécimes fecais foram submetidos à reação em cadeia mediada pela polimerase, para os genes estruturais (VP1-VP4, VP6 e VP7) e não estruturais (NSP1-NSP6), os quais foram sequenciados posteriormente. Oito amostras não usuais de RV oriundas de crianças e neonato com gastrenterite foram analisadas evidenciando a ocorrência de eventos de rearranjos entre genes provenientes de origem animal em 5/8 (62,5%) das amostras analisadas. Desta forma, o presente estudo demonstra que apesar de ser rara a transmissão de RVs entre espécies (animais – humanos), ela está ocorrendo na natureza, como o que possivelmente ocorreu nas amostras do presente estudo NB150, HSP034, HSP180, HST327 e RV10109. O estudo é pioneiro na região amazônica e reforça dados descritos anteriormente que demonstram o estreito relacionamento existente entre genes provenientes de origem humana e animal que possam representar um desafio às vacinas ora em uso introduzidas em escala progressiva nos programas nacionais de imunização.
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Pós-graduação em Medicina Veterinária - FCAV
