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1.
Nature ; 603(7901): 488-492, 2022 03.
Article in English | MEDLINE | ID: mdl-35102311

ABSTRACT

The SARS-CoV-2 Omicron variant (B.1.1.529) has multiple spike protein mutations1,2 that contribute to viral escape from antibody neutralization3-6 and reduce vaccine protection from infection7,8. The extent to which other components of the adaptive response such as T cells may still target Omicron and contribute to protection from severe outcomes is unknown. Here we assessed the ability of T cells to react to Omicron spike protein in participants who were vaccinated with Ad26.CoV2.S or BNT162b2, or unvaccinated convalescent COVID-19 patients (n = 70). Between 70% and 80% of the CD4+ and CD8+ T cell response to spike was maintained across study groups. Moreover, the magnitude of Omicron cross-reactive T cells was similar for Beta (B.1.351) and Delta (B.1.617.2) variants, despite Omicron harbouring considerably more mutations. In patients who were hospitalized with Omicron infections (n = 19), there were comparable T cell responses to ancestral spike, nucleocapsid and membrane proteins to those in patients hospitalized in previous waves dominated by the ancestral, Beta or Delta variants (n = 49). Thus, despite extensive mutations and reduced susceptibility to neutralizing antibodies of Omicron, the majority of T cell responses induced by vaccination or infection cross-recognize the variant. It remains to be determined whether well-preserved T cell immunity to Omicron contributes to protection from severe COVID-19 and is linked to early clinical observations from South Africa and elsewhere9-12.


Subject(s)
COVID-19/immunology , COVID-19/virology , Cross Reactions/immunology , Immunity, Cellular , SARS-CoV-2/immunology , Spike Glycoprotein, Coronavirus/immunology , T-Lymphocytes/immunology , Adult , Aged , COVID-19 Vaccines/immunology , Convalescence , Hospitalization , Humans , Middle Aged , SARS-CoV-2/chemistry , SARS-CoV-2/classification
3.
J Gen Virol ; 100(6): 932-937, 2019 06.
Article in English | MEDLINE | ID: mdl-31140967

ABSTRACT

A high prevalence of G12 rotavirus strains has previously been reported in southern Mozambique. In this study, the full genomes of five Mozambican G12 strains were determined directly from stool using an Illumina Miseq platform. One sample (0060) contained an intergenogroup co-infection of a G12P[8] Wa-like strain and a GXP[14] DS-1-like strain. The sequences of seven genome segments, detected for the GXP[14] strain, clustered with a diverse group of mostly animal strains, suggesting co-infection with a strain of possible animal origin. The stool samples contained G12P[6] rotavirus strains with Wa-like backbones. Phylogenetic analyses of the VP4 and VP7 encoding segments of the G12P[6] strains suggested that they were reassortants containing backbones that are similar to that of the G12P[8] strain. The study confirms previous observations of interspecies transmission and emphasizes the importance of whole-genome sequencing in order to evaluate rotavirus co-infections and reassortants.


Subject(s)
Coinfection/virology , Rotavirus Infections/virology , Rotavirus/genetics , Animals , Genome, Viral/genetics , Genome-Wide Association Study/methods , Humans , Mozambique , Phylogeny
4.
Arch Virol ; 163(1): 153-165, 2018 Jan.
Article in English | MEDLINE | ID: mdl-29052059

ABSTRACT

In Mozambique rotavirus (RV) was shown to be the greatest cause of acute diarrhoea in infants from 0 to 11 months, and in 2015, national rotavirus vaccination was introduced. As with other developing countries, there is very limited active strain characterisation. Rotavirus positive clinical specimens, collected between 2012 and 2013, have now provided information on the genotypes circulating in southern Mozambique prior to vaccine introduction. Genotypes G2 (32.4%), G12 (28.0%), P[4] (41.4%) and P[6] (22.9%) (n = 157) strains were commonly detected with G2P[4] (42.3%) RVs being predominant, specifically during 2013. Phylogenetic evaluation of the VP7 and VP8* encoding genes showed, for the majority of the Mozambican strains, that they clustered with other African strains based on genotype. RVA/Human-wt/MOZ/0153/2013/G2P[4], RVA/Human-wt/MOZ/0308/2012/G2P[4] and RVA/Human-wt/MOZ/0288/2012/G12P[8] formed separate clusters from the other Mozambican strains with similar genotypes, suggesting possible reassortment. Amino acid substitutions in selected epitope regions also supported phylogenetic clustering. As expected, the VP7 and VP8* genes from the Mozambican strains differed from both the RotaTeq® (SC2-9) G2P[5] and Rotarix® (A41CB052A) G1P[8] genes. This study provides information on the genetic diversity of rotavirus strains prior to vaccine introduction and generates baseline data for future monitoring of any changes in rotavirus strains in response to vaccine pressure.


Subject(s)
Antigens, Viral/genetics , Capsid Proteins/genetics , Gastroenteritis/epidemiology , Gastroenteritis/virology , Genotype , Rotavirus/genetics , Child, Preschool , Epitopes/genetics , Gene Expression Regulation, Viral , Humans , Mozambique/epidemiology , Phylogeny , Rotavirus Infections/epidemiology , Rotavirus Infections/virology
5.
Viruses ; 16(6)2024 Jun 08.
Article in English | MEDLINE | ID: mdl-38932226

ABSTRACT

Rotaviruses (RVs) are known to infect various avian and mammalian hosts, including swine. The most common RVs associated with infection in pigs are A, B, C and H (RVA-C; RVH). In this study we analysed rotavirus strains circulating on a porcine farm in the Western Cape province of South Africa over a two-year period. Whole genomes were determined by sequencing using Illumina MiSeq without prior genome amplification. Fifteen RVA genomes, one RVB genome and a partial RVC genome were identified. Phylogenetic analyses of the RVA data suggested circulation of one dominant strain (G5-P[6]/P[13]/P[23]-I5-R1-C1-M1-A8-N1-T7-E1-H1), typical of South African porcine strains, although not closely related to previously detected South African porcine strains. Reassortment with three VP4-encoding P genotypes was detected. The study also reports the first complete RVB genome (G14-P[5]-I13-R4-C4-M4-A10-T4-E4-H7) from Africa. The partial RVC (G6-P[5]-IX-R1-C1-MX-A9-N6-T6-EX-H7) strain also grouped with porcine strains. The study shows the continued circulation of an RVA strain, with a high reassortment rate of the VP4-encoding segment, on the porcine farm. Furthermore, incidents of RVB and RVC on this farm emphasize the complex epidemiology of rotavirus in pigs.


Subject(s)
Farms , Genome, Viral , Genotype , Phylogeny , Rotavirus Infections , Rotavirus , Swine Diseases , Animals , Rotavirus/genetics , Rotavirus/classification , Rotavirus/isolation & purification , Swine , South Africa/epidemiology , Rotavirus Infections/virology , Rotavirus Infections/veterinary , Rotavirus Infections/epidemiology , Swine Diseases/virology , Swine Diseases/epidemiology , Reassortant Viruses/genetics , Reassortant Viruses/classification , Reassortant Viruses/isolation & purification , Whole Genome Sequencing , Feces/virology
6.
Viruses ; 16(7)2024 Jul 16.
Article in English | MEDLINE | ID: mdl-39066302

ABSTRACT

Mozambique introduced the Rotarix® vaccine into the National Immunization Program in September 2015. Following vaccine introduction, rotavirus A (RVA) genotypes, G9P[4] and G9P[6], were detected for the first time since rotavirus surveillance programs were implemented in the country. To understand the emergence of these strains, the whole genomes of 47 ELISA RVA positive strains detected between 2015 and 2018 were characterized using an Illumina MiSeq-based sequencing pipeline. Of the 29 G9 strains characterized, 14 exhibited a typical Wa-like genome constellation and 15 a DS-1-like genome constellation. Mostly, the G9P[4] and G9P[6] strains clustered consistently for most of the genome segments, except the G- and P-genotypes. For the G9 genotype, the strains formed three different conserved clades, separated by the P type (P[4], P[6] and P[8]), suggesting different origins for this genotype. Analysis of the VP6-encoding gene revealed that seven G9P[6] strains clustered close to antelope and bovine strains. A rare E6 NSP4 genotype was detected for strain RVA/Human-wt/MOZ/HCN1595/2017/G9P[4] and a genetically distinct lineage IV or OP354-like P[8] was identified for RVA/Human-wt/MOZ/HGJM0644/2015/G9P[8] strain. These results highlight the need for genomic surveillance of RVA strains detected in Mozambique and the importance of following a One Health approach to identify and characterize potential zoonotic strains causing acute gastroenteritis in Mozambican children.


Subject(s)
Genome, Viral , Genotype , Phylogeny , Rotavirus Infections , Rotavirus Vaccines , Rotavirus , Vaccines, Attenuated , Rotavirus/genetics , Rotavirus/classification , Rotavirus/isolation & purification , Rotavirus Vaccines/immunology , Rotavirus Vaccines/administration & dosage , Mozambique/epidemiology , Rotavirus Infections/prevention & control , Rotavirus Infections/virology , Rotavirus Infections/epidemiology , Humans , Vaccines, Attenuated/genetics , Vaccines, Attenuated/immunology , Whole Genome Sequencing , Animals , Infant , Child, Preschool , Capsid Proteins/genetics , Gastroenteritis/virology , Gastroenteritis/prevention & control , Gastroenteritis/epidemiology , Cattle , Feces/virology
7.
Trans R Soc Trop Med Hyg ; 117(3): 179-188, 2023 03 01.
Article in English | MEDLINE | ID: mdl-36153637

ABSTRACT

BACKGROUND: Reports on severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spread across Africa have varied, including among healthcare workers (HCWs). This study assessed the comparative SARS-CoV-2 burden and associated risk factors among HCWs in three African countries. METHODS: A multicentre study was conducted at regional healthcare facilities in Côte d'Ivoire (CIV), Burkina Faso (BF) and South Africa (SA) from February to May 2021. HCWs provided blood samples for SARS-CoV-2 serology and nasopharyngeal/oropharyngeal swabs for testing of acute infection by polymerase chain reaction and completed a questionnaire. Factors associated with seropositivity were assessed with logistic regression. RESULTS: Among 719 HCWs, SARS-CoV-2 seroprevalence was 34.6% (95% confidence interval 31.2 to 38.2), ranging from 19.2% in CIV to 45.7% in BF. A total of 20 of 523 (3.8%) were positive for acute SARS-CoV-2 infection. Female HCWs had higher odds of SARS-CoV-2 seropositivity compared with males, and nursing staff, allied health professionals, non-caregiver personnel and administration had higher odds compared with physicians. HCWs also reported infection prevention and control (IPC) gaps, including 38.7% and 29% having access to respirators and IPC training, respectively, in the last year. CONCLUSIONS: This study was a unique comparative HCW SARS-CoV-2 investigation in Africa. Seroprevalence estimates varied, highlighting distinctive population/facility-level factors affecting COVID-19 burden and the importance of established IPC programmes to protect HCWs and patients.


Subject(s)
COVID-19 , SARS-CoV-2 , Male , Humans , Female , Burkina Faso , Cote d'Ivoire , South Africa , Seroepidemiologic Studies , Health Personnel
8.
Curr Microbiol ; 64(3): 251-8, 2012 Mar.
Article in English | MEDLINE | ID: mdl-22237982

ABSTRACT

The reclassification of the genus Cronobacter (previously known as Enterobacter sakazakii) was based on a polyphasic analysis that led to the description of five species. These bacteria are opportunistic pathogens that can cause neonatal meningitis and other infections in immuno-compromised individuals. Cronobacter species have been reported to show differences in sensitivity to antibiotics, heat and chemicals, as well as differences in virulence. The objective of this study was to classify Cronobacter isolates from infant formula milk, the food processing environment and fresh produce in South Africa and to evaluate the phylogenetic placement of these isolates based on the rpoA and 16S ribosomal RNA (rRNA) gene sequences. All the South African strains were identified as Cronobacter sakazakii despite the wide variety of isolation sources. No relation between the phylogenetic placement and strain origin could be determined. Strains of C. sakazakii, Cronobacter dublinensis, Cronobacter turicensis and Cronobacter muytjensii could be differentiated from each other, but it was not possible to differentiate between C. sakazakii and Cronobacter malonaticus based on the rpoA and 16S rRNA gene sequences alone. However, sequence data of these two genes can be used to differentiate between C. sakazakii and C. malonaticus when used in combination with biochemical analysis based on the utilisation of malonate.


Subject(s)
Cronobacter/classification , Cronobacter/genetics , DNA-Directed RNA Polymerases/genetics , RNA, Ribosomal, 16S/genetics , Cluster Analysis , Cronobacter/isolation & purification , DNA, Bacterial/chemistry , DNA, Bacterial/genetics , DNA, Ribosomal/chemistry , DNA, Ribosomal/genetics , Environmental Microbiology , Food Microbiology , Humans , Infant Formula , Phylogeny , Sequence Analysis, DNA , South Africa , Vegetables/microbiology
9.
Viruses ; 14(1)2022 01 11.
Article in English | MEDLINE | ID: mdl-35062324

ABSTRACT

Reverse-zoonotic infections of severe acute respiratory syndrome-related coronavirus 2 (SARS-CoV-2) from humans to wildlife species internationally raise concern over the emergence of new variants in animals. A better understanding of the transmission dynamics and pathogenesis in susceptible species will mitigate the risk to humans and wildlife occurring in Africa. Here we report infection of an exotic puma (July 2020) and three African lions (July 2021) in the same private zoo in Johannesburg, South Africa. One Health genomic surveillance identified transmission of a Delta variant from a zookeeper to the three lions, similar to those circulating in humans in South Africa. One lion developed pneumonia while the other cases had mild infection. Both the puma and lions remained positive for SARS-CoV-2 RNA for up to 7 weeks.


Subject(s)
COVID-19/veterinary , SARS-CoV-2/physiology , Viral Zoonoses/transmission , Animals , Animals, Zoo , COVID-19/pathology , COVID-19/transmission , COVID-19/virology , Genome, Viral , Humans , Lions , One Health , Phylogeny , Puma , RNA, Viral/genetics , SARS-CoV-2/classification , SARS-CoV-2/genetics , SARS-CoV-2/isolation & purification , South Africa/epidemiology , Viral Load , Viral Zoonoses/pathology , Viral Zoonoses/virology
10.
Cell Host Microbe ; 30(6): 880-886.e4, 2022 06 08.
Article in English | MEDLINE | ID: mdl-35436444

ABSTRACT

The SARS-CoV-2 Omicron variant escapes neutralizing antibodies elicited by vaccines or infection. However, whether Omicron triggers cross-reactive humoral responses to other variants of concern (VOCs) remains unknown. We used plasma from 20 unvaccinated and 7 vaccinated individuals infected by Omicron BA.1 to test binding, Fc effector function, and neutralization against VOCs. In unvaccinated individuals, Fc effector function and binding antibodies targeted Omicron and other VOCs at comparable levels. However, Omicron BA.1-triggered neutralization was not extensively cross-reactive for VOCs (14- to 31-fold titer reduction), and we observed 4-fold decreased titers against Omicron BA.2. In contrast, vaccination followed by breakthrough Omicron infection associated with improved cross-neutralization of VOCs with titers exceeding 1:2,100. This has important implications for the vulnerability of unvaccinated Omicron-infected individuals to reinfection by circulating and emerging VOCs. Although Omicron-based immunogens might be adequate boosters, they are unlikely to be superior to existing vaccines for priming in SARS-CoV-2-naive individuals.


Subject(s)
COVID-19 , SARS-CoV-2 , Antibodies, Neutralizing , Antibodies, Viral , COVID-19/prevention & control , Humans , Neutralization Tests
11.
Food Microbiol ; 28(8): 1472-7, 2011 Dec.
Article in English | MEDLINE | ID: mdl-21925031

ABSTRACT

Members of the genus Cronobacter are opportunistic pathogens associated with life-threatening infections in immuno-compromised individuals. Polyphasic analysis has facilitated the classification of the novel genus Cronobacter containing five species. However, since this recent reclassification there are not many identification methods optimised for differentiation between the five Cronobacter species. This differentiation between the species is of importance as there are indications that the species may be diverse regarding their virulence. The aim of this study was to develop a polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) protocol to differentiate between the five Cronobacter species. The rpoB gene of 49 Enterobacteriaceae strains, including 33 Cronobacter strains was amplified using conventional PCR, followed by digestion of these PCR products with restriction endonucleases MboI, HinP1I and Csp6I. The PCR-RFLP analysis with single digestions of each of the restriction endonucleases did not distinguish between all five Cronobacter species. This study describes the successful differentiation of the five Cronobacter species based on the amplification of the rpoB gene followed by the combined digestion with restriction endonucleases Csp6I and HinP1I. This PCR-RFLP assay is an accurate identification method that ensures rapid differentiation between the five species of Cronobacter.


Subject(s)
Amplified Fragment Length Polymorphism Analysis/methods , Bacterial Proteins/genetics , Bacterial Typing Techniques/methods , Cronobacter/genetics , Cronobacter/isolation & purification , Polymerase Chain Reaction/methods , Polymorphism, Restriction Fragment Length , Cronobacter/classification , DNA Primers , Environmental Microbiology , Food Microbiology
12.
Pathogens ; 10(10)2021 Oct 12.
Article in English | MEDLINE | ID: mdl-34684257

ABSTRACT

This study presents whole genomes of seven bovine rotavirus strains from South Africa and Mozambique. Double-stranded RNA, extracted from stool samples without prior adaptation to cell culture, was used to synthesise cDNA using a self-annealing anchor primer ligated to dsRNA and random hexamers. The cDNA was subsequently sequenced using an Illumina MiSeq platform without prior genome amplification. All strains exhibited bovine-like artiodactyl genome constellations (G10/G6-P[11]/P[5]-I2-R2-C2-M2-A3/A11/A13-N2-T6-E2-H3). Phylogenetic analysis revealed relatively homogenous strains, which were mostly related to other South African animal strains or to each other. It appears that these study strains represent a specific bovine rotavirus population endemic to Southern Africa that was derived through multiple reassortment events. While one Mozambican strain, MPT307, was similar to the South African strains, the second strain, MPT93, was divergent from the other study strains, exhibiting evidence of interspecies transmission of the VP1 and NSP2 genes. The data presented in this study not only contribute to the knowledge of circulating African bovine rotavirus strains, but also emphasise the need for expanded surveillance of animal rotaviruses in African countries in order to improve our understanding of rotavirus strain diversity.

13.
Infect Genet Evol ; 87: 104637, 2021 01.
Article in English | MEDLINE | ID: mdl-33232806

ABSTRACT

Rotavirus A (RVA) is an important pathogen causing gastroenteritis in many species, including humans and pigs. The objective of this study was to determine the prevalence of RVA in pigs from smallholdings and commercial farms in southern Mozambique and characterize the complete genomes of selected strains. RVA was detected at a rate of 11.8% (n = 288), of which 7.6% was detected at commercial farms and 4.2% at smallholdings. The whole genomes of eight rotavirus strains were determined using an Illumina MiSeq platform. Seven displayed a G9P[13] and one a G4P[6] genotype combination, all with a typical porcine backbone (I1/5-R1-C1-M1-A1/8-N1-T1/7-E1-H1). Phylogenetic analysis indicated that the seven G9P[13] strains were in fact one strain that circulated on a commercial pig farm. The genome segments of this strain clustered with diverse segments of human and porcine RVA strains from various Asian countries. Analysis of the G4P[6] strain revealed four distinct genome segments (VP2, VP4, VP6 and VP7) and five genome segments closely related to South African porcine rotavirus strains (NSP1, NSP3, NSP4, NSP5 and VP1). These results suggest that both the G4P[6] and the G9P[13] strains possibly emerged through multiple reassortment events. The presence of these strains on the commercial farms and smallholdings calls for a more in-depth surveillance of rotavirus in Mozambique.


Subject(s)
Feces/virology , Genome, Viral , Phylogeny , Rotavirus/genetics , Rotavirus/isolation & purification , Swine/virology , Animals , Genetic Variation , Genotype , Mozambique/epidemiology , Prevalence , Rotavirus Infections/epidemiology , Sequence Analysis, DNA
14.
Infect Genet Evol ; 85: 104463, 2020 11.
Article in English | MEDLINE | ID: mdl-32693063

ABSTRACT

We report the first description of rotavirus A strains in African buffalo (Syncerus caffer). Following RNA extraction from stool samples, cDNA was prepared, followed either by sequence-independent amplification and 454 pyrosequencing or direct sequencing on an Illumina MiSeq platform. RVA/Buffalo-wt/ZAF/4426/2002/G29P[14] exhibited a novel G29P[14] combination and an artiodactyl backbone: I2-R2-C2-M2-A11-N2-T6-E2-H3. RVA/Buffalo-wt/ZAF/1442/2007/G10P[11] also exhibited an artiodactyl backbone: I2-R2-C2-M2-A13-N2-T6-E2-H3. Characterisation of these genome constellations indicate that the two buffalo strains are moderately diverse from each other and related to South African bovine RVA strains. The detection of RVA in buffalo contribute to our understanding of the host range of rotavirus in animals.


Subject(s)
Buffaloes/virology , Rotavirus Infections/veterinary , Rotavirus Infections/virology , Rotavirus/genetics , Animals , Cattle , Feces/virology , Genome, Viral , Genotype , Phylogeny , RNA, Viral , Rotavirus/classification , Rotavirus Infections/epidemiology , South Africa/epidemiology
15.
Viruses ; 12(2)2020 02 11.
Article in English | MEDLINE | ID: mdl-32054092

ABSTRACT

Human rotavirus A (RVA) causes acute gastroenteritis in infants and young children. The broad use of two vaccines, which are based on RVA strains from Europe and North America, significantly reduced rotavirus disease burden worldwide. However, a lower vaccine effectiveness is recorded in some regions of the world, such as sub-Saharan Africa, where diverse RVA strains are circulating. Here, a plasmid-based reverse genetics system was used to generate simian RVA reassortants with VP4 and VP7 proteins derived from African human RVA strains not previously adapted to cell culture. We were able to rescue 1/3 VP4 mono-reassortants, 3/3 VP7 mono-reassortants, but no VP4/VP7 double reassortant. Electron microscopy showed typical triple-layered virus particles for the rescued reassortants. All reassortants stably replicated in MA-104 cells; however, the VP4 reassortant showed significantly slower growth compared to the simian RVA or the VP7 reassortants. The results indicate that, at least in cell culture, human VP7 has a high reassortment potential, while reassortment of human VP4 from unadapted human RVA strains with simian RVA seems to be limited. The characterized reassortants may be useful for future studies investigating replication and reassortment requirements of rotaviruses as well as for the development of next generation rotavirus vaccines.


Subject(s)
Antigens, Viral/genetics , Capsid Proteins/genetics , Genome, Viral , Reassortant Viruses/genetics , Rotavirus/genetics , Africa , Animals , Cell Culture Techniques , Cell Line , Genotype , Haplorhini/virology , Humans , Phylogeny , Plasmids/genetics , Reassortant Viruses/growth & development , Reverse Genetics , Rotavirus/growth & development , Rotavirus Infections/virology , Virus Replication
16.
Pathogens ; 9(12)2020 Dec 06.
Article in English | MEDLINE | ID: mdl-33291333

ABSTRACT

Mozambique introduced the Rotarix® vaccine (GSK Biologicals, Rixensart, Belgium) into the National Immunization Program in September 2015. Although G1P[8] was one of the most prevalent genotypes between 2012 and 2017 in Mozambique, no complete genomes had been sequenced to date. Here we report whole genome sequence analysis for 36 G1P[8] strains using an Illumina MiSeq platform. All strains exhibited a Wa-like genetic backbone (G1-P[8]-I1-R1-C1-M1-A1-N1-T1-E1-H1). Phylogenetic analysis showed that most of the Mozambican strains clustered closely together in a conserved clade for the entire genome. No distinct clustering for pre- and post-vaccine strains were observed. These findings may suggest no selective pressure by the introduction of the Rotarix® vaccine in 2015. Two strains (HJM1646 and HGM0544) showed varied clustering for the entire genome, suggesting reassortment, whereas a further strain obtained from a rural area (MAN0033) clustered separately for all gene segments. Bayesian analysis for the VP7 and VP4 encoding gene segments supported the phylogenetic analysis and indicated a possible introduction from India around 2011.7 and 2013.0 for the main Mozambican clade. Continued monitoring of rotavirus strains in the post-vaccine period is required to fully understand the impact of vaccine introduction on the diversity and evolution of rotavirus strains.

17.
Infect Genet Evol ; 69: 68-75, 2019 04.
Article in English | MEDLINE | ID: mdl-30641151

ABSTRACT

We report the first whole genome constellations of Mozambican rotavirus A strains detected between 2012 and 2013 in the Mavalane General Hospital in Maputo city and Manhiça District Hospital in the Manhiça district. Consensus sequences for ten DS-1-like strains (G2P[4] and G8P[4]) were identified with an Illumina Miseq platform using cDNA prepared from dsRNA extracted from stool samples, without genome amplification or prior adaptation to cell culture. Comparison of previously reported genotyping results and the consensus sequences described in this study, indicated that the genotype primers specific for G12 and P[4] might require revision. Phylogenetic analyses indicated diversity among the G2P[4] Mozambican strains and suggested reassortment between G2P[4] and G8P[4] Mozambican strains, as well as the intragenogroup reassortment of all the genome segments encoding VP1, 2, 3 and 6 for strain RVA/Human-wt/MOZ/0045/2012G8P[4]. These results highlight the necessity to determine whole genome constellations to confirm surveillance data in Africa and to monitor the growing diversity in DS-1-like strains.


Subject(s)
Diarrhea/epidemiology , Diarrhea/virology , Genome, Viral , Genomics , Reassortant Viruses/genetics , Rotavirus Infections/epidemiology , Rotavirus Infections/virology , Rotavirus/genetics , Child , Genomics/methods , Genotype , High-Throughput Nucleotide Sequencing , Humans , Mozambique/epidemiology , Phylogeny , Rotavirus/classification
18.
PloS pathog ; 20(2): 1-16, Mar 4, 2022. tab, mapas, ilus
Article in English | RSDM | ID: biblio-1358116

ABSTRACT

This study presents whole genomes of seven bovine rotavirus strains from South Africa and Mozambique. Double-stranded RNA, extracted from stool samples without prior adaptation to cell culture, was used to synthesise cDNA using a self-annealing anchor primer ligated to dsRNA and random hexamers. The cDNA was subsequently sequenced using an Illumina MiSeq platform without prior genome amplification. All strains exhibited bovine-like artiodactyl genome constellations (G10/G6-P[11]/P[5]-I2-R2-C2-M2-A3/A11/A13-N2-T6-E2-H3). Phylogenetic analysis revealed relatively homogenous strains, which were mostly related to other South African animal strains or to each other. It appears that these study strains represent a specific bo-vine rotavirus population endemic to Southern Africa that was derived through multiple reassortment events. While one Mozambican strain, MPT307, was similar to the South African strains, the second strain, MPT93, was divergent from the other study strains, exhibiting evi-dence of interspecies transmission of the VP1 and NSP2 genes. The data presented in this study not only contribute to the knowledge of circulating African bovine rotavirus strains, but also em-phasise the need for expanded surveillance of animal rotaviruses in African countries in order to improve our understanding of rotavirus strain diversity


Subject(s)
Animals , Adult , Cattle , Rotavirus Infections/veterinary , Cattle Diseases/virology , Genome, Viral/genetics , Rotavirus/genetics , Genotype , South Africa , Mozambique
19.
PloS pathog ; 9: 1-19, Ago 19, 2020. ilus, tab
Article in English | RSDM | ID: biblio-1358243

ABSTRACT

Mozambique introduced the rotarix® vaccine (gsk biologicals, rixensart, belgium) into the na-tional immunization program in september 2015. Although g1p[8] was one of the most prevalent genotypes between 2012 and 2017 in mozambique, no complete genomes had been sequenced to date. here we report whole genome sequence analysis for 36 g1p[8] strains using an illumina miseq platform. all strains exhibited a wa-like genetic backbone (g1-p[8]-i1-r1-c1-m1-a1-n1-t1-e1-h1). phylogenetic analysis showed that most of the mozambican strains clustered closely to-gether in a conserved clade for the entire genome. no distinct clustering for pre- and post-vaccine strains were observed. these findings may suggest no selective pressure by the introduction of the rotarix® vaccine in 2015. two strains (hjm1646 and hgm0544) showed varied clustering for the entire genome, suggesting reassortment, whereas a further strain obtained from a rural area (man0033) clustered separately for all gene segments. bayesian analysis for the vp7 and vp4 en-coding gene segments supported the phylogenetic analysis and indicated a possible introduction from india around 2011.7 and 2013.0 for the main mozambican clade. continued monitoring of rotavirus strains in the post-vaccine period is required to fully understand the impact of vaccine introduction on the diversity and evolution of rotavirus strains.


Subject(s)
Genome, Viral/genetics , Rotavirus/genetics , Evolution, Molecular , Rotavirus Vaccines , Whole Genome Sequencing , Phylogeny , Bayes Theorem , Mozambique
20.
J. gen. virol ; 100(6)May.29.2019.
Article in English | RSDM | ID: biblio-1526903

ABSTRACT

Uma elevada prevalência de estirpes de rotavírus G12 foi anteriormente relatada no sul de Moçambique. Neste estudo, os genomas completos de cinco estirpes G12 moçambicanas foram determinados directamente a partir das fezes utilizando uma plataforma Illumina Miseq. Uma amostra (0060) continha uma coinfecção intergenogrupo de uma cepa semelhante a G12P[8] Wa e uma cepa semelhante a GXP[14] DS-1. As sequências de sete segmentos do genoma, detectadas para a estirpe GXP[14], agruparam-se com um grupo diversificado de estirpes maioritariamente animais, sugerindo co-infecção com uma estirpe de possível origem animal. As amostras de fezes continham cepas de rotavírus G12P[6] com estruturas semelhantes a Wa. Análises filogenéticas dos segmentos codificadores de VP4 e VP7 das cepas G12P[6] sugeriram que eles eram rearranjados contendo estruturas estruturais semelhantes às da cepa G12P[8]. O estudo confirma observações anteriores de transmissão interespécies e enfatiza a importância do sequenciamento do genoma completo para avaliar co-infecções e rearranjos por rotavírus....


Subject(s)
Humans , Animals , Animals , Mozambique
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