Your search keyword '"Betty E. Owor"' showing total 29 results

1. Rotavirus group A genotype circulation patterns across Kenya before and after nationwide vaccine introduction, 2010–2018

Author

Mike J. Mwanga, Betty E. Owor, John B. Ochieng, Mwanajuma H. Ngama, Billy Ogwel, Clayton Onyango, Jane Juma, Regina Njeru, Elijah Gicheru, Grieven P. Otieno, Sammy Khagayi, Charles N. Agoti, Godfrey M. Bigogo, Richard Omore, O. Yaw Addo, Seheri Mapaseka, Jacqueline E. Tate, Umesh D. Parashar, Elizabeth Hunsperger, Jennifer R. Verani, Robert F. Breiman, and D. James Nokes

Subjects

Rotavirus, Genotype, Pre-vaccine, Post-vaccine, Kenya, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Kenya introduced the monovalent G1P [8] Rotarix® vaccine into the infant immunization schedule in July 2014. We examined trends in rotavirus group A (RVA) genotype distribution pre- (January 2010–June 2014) and post- (July 2014–December 2018) RVA vaccine introduction. Methods Stool samples were collected from children aged

Published

2020

2. Molecular characterization of rotavirus group A strains circulating prior to vaccine introduction in rural coastal Kenya, 2002-2013 [version 2; peer review: 2 approved, 1 approved with reservations]

Author

Betty E. Owor, Mike J. Mwanga, Regina Njeru, Robert Mugo, Mwanajuma Ngama, Grieven P. Otieno, D.J. Nokes, and C.N. Agoti

Subjects

Medicine, Science

Abstract

Background: Kenya introduced the monovalent Rotarix® rotavirus group A (RVA) vaccine nationally in mid-2014. Long-term surveillance data is important prior to wide-scale vaccine use to assess the impact on disease and to investigate the occurrence of heterotypic strains arising through immune selection. This report presents baseline data on RVA genotype circulation patterns and intra-genotype genetic diversity over a 7-year period in the pre-vaccine era in Kilifi, Kenya, from 2002 to 2004 and from 2010 to 2013. Methods: A total of 745 RVA strains identified in children admitted with acute gastroenteritis to a referral hospital in Coastal Kenya, were sequenced using the di-deoxy sequencing method in the VP4 and VP7 genomic segments (encoding P and G proteins, respectively). Sequencing successfully generated 569 (76%) and 572 (77%) consensus sequences for the VP4 and VP7 genes respectively. G and P genotypes were determined by use of BLAST and the online RotaC v2 RVA classification tool. Results: The most common GP combination was G1P[8] (51%), similar to the Rotarix® strain, followed by G9P[8] (15%) , G8P[4] (14%) and G2P[4] (5%). Unusual GP combinations—G1P[4], G2P[8], G3P[4,6], G8P[8,14], and G12P[4,6,8]—were observed at frequencies of

Published

2019

3. Molecular characterization of rotavirus group A strains circulating prior to vaccine introduction in rural coastal Kenya, 2002-2013 [version 1; peer review: 2 approved, 1 approved with reservations]

Author

Betty E. Owor, Mike J. Mwanga, Regina Njeru, Robert Mugo, Mwanajuma Ngama, Grieven P. Otieno, D.J. Nokes, and C.N. Agoti

Subjects

Medicine, Science

Abstract

Background: Kenya introduced the monovalent Rotarix® rotavirus group A (RVA) vaccine nationally in mid-2014. Long-term surveillance data is important prior to wide-scale vaccine use to assess the impact on disease and to investigate the occurrence of heterotypic strains arising through immune selection. This report presents baseline data on RVA genotype circulation patterns and intra-genotype genetic diversity over a 7-year period in the pre-vaccine era in Kilifi, Kenya, from 2002 to 2004 and from 2010 to 2013. Methods: A total of 745 RVA strains identified in children admitted with acute gastroenteritis to a referral hospital in Coastal Kenya, were sequenced using the di-deoxy sequencing method in the VP4 and VP7 genomic segments (encoding P and G proteins, respectively). Sequencing successfully generated 569 (76%) and 572 (77%) consensus sequences for the VP4 and VP7 genes respectively. G and P genotypes were determined by use of BLAST and the online RotaC v2 RVA classification tool. Results: The most common GP combination was G1P[8] (51%), similar to the Rotarix® strain, followed by G9P[8] (15%) , G8P[4] (14%) and G2P[4] (5%). Unusual GP combinations—G1P[4], G2P[8], G3P[4,6], G8P[8,14], and G12P[4,6,8]—were observed at frequencies of

Published

2018

4. Global burden of acute lower respiratory infection associated with human metapneumovirus in children under 5 years in 2018: a systematic review and modelling study

Author

Vahid Salimi, Mustafizur Rahman, Florette K. Treurnicht, Tanja Adams, Lola Madrid, Asad Ali, Shobha Broor, Maria Deloria-Knoll, Julia M Baker, Donald M. Thea, Sanjay Juvekar, Lesley Workman, J. Anthony G. Scott, Siddhivinayak Hirve, Malinee Chittaganpitch, Najwa Khuri-Bulos, Zeba A Rasmussen, Ting Shi, Thi hien anh Nguyen, Xin Wang, Marcela Echavarria, Barbara Rath, David P. Moore, Lay-Myint Yoshida, Sudha Basnet, Fernando P. Polack, Tor A. Strand, Melissa M. Higdon, Heather J. Zar, Mauricio T. Caballero, Miguel A. Lanaspa, Susan C. Morpeth, Hanna Nohynek, Doli Goswami, Grieven P. Otieno, Michiko Toizumi, Cheryl Cohen, Brunhilde Schweiger, Marilla G. Lucero, Phil Seidenberg, Samboa O. Sow, Maria Mathisen, Mohammed Ziaur Rahman, Henry C. Baggett, James Nokes, F. Xavier López-Labrador, Katherine L. O'Brien, Betty E Owor, Avinash Choudekar, Ritvik Amarchand, Anh Danhg, Imane Joundi, Harry Campbell, Meredith Haddix, Marta Werner, Ainara Mira-Iglesias, Karen L. Kotloff, Harish Nair, Lawrence Mwanayanda, Marta C. Nunes, Bernard E. Ebruke, Joan Puig-Barberà, You Li, Quique Bassat, Cinta Moraleda, Pongpun Sawatwong, Patrick Obermeier, Linda Cheyenne Vaccari, Elizabeth D. Thomas, W. Abdullah Brooks, Martin Antonio, Romina Libster, Stephen R. C. Howie, Mandeep S. Chadha, Socorro Lupisan, Orienka Hellferscee, Milagritos D. Tapia, Anand Krishnan, Alexandra Jamison, Eric A. F. Simões, Rodrigo Fasce, Sibongile Walaza, Mark P. Nicol, Nusrat Homaira, Histoshi Oshitani, Shabir A. Madhi, Matt Laubscher, Vicky L. Baillie, and Network, Respiratory Virus Global Epidemiology

Subjects

Male, 030231 tropical medicine, Global Health, Young infants, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Human metapneumovirus, Cost of Illness, Medicine, Humans, 030212 general & internal medicine, Lower respiratory infection, Respiratory Tract Infections, Paramyxoviridae Infections, biology, business.industry, lcsh:Public aspects of medicine, Incidence (epidemiology), Infant, Newborn, Infant, lcsh:RA1-1270, General Medicine, Articles, biology.organism_classification, Child mortality, Child, Preschool, Acute Disease, Income level, Linear Models, Female, Risk of death, Metapneumovirus, business, Demography

Abstract

Background Human metapneumovirus is a common virus associated with acute lower respiratory infections (ALRIs) in children. No global burden estimates are available for ALRIs associated with human metapneumovirus in children, and no licensed vaccines or drugs exist for human metapneumovirus infections. We aimed to estimate the age-stratified human metapneumovirus-associated ALRI global incidence, hospital admissions, and mortality burden in children younger than 5 years. Methods We estimated the global burden of human metapneumovirus-associated ALRIs in children younger than 5 years from a systematic review of 119 studies published between Jan 1, 2001, and Dec 31, 2019, and a further 40 high quality unpublished studies. We assessed risk of bias using a modified Newcastle-Ottawa Scale. We estimated incidence, hospital admission rates, and in-hospital case-fatality ratios (hCFRs) of human metapneumovirus-associated ALRI using a generalised linear mixed model. We applied incidence and hospital admission rates of human metapneumovirus–associated ALRI to population estimates to yield the morbidity burden estimates by age bands and World Bank income levels. We also estimated human metapneumovirus-associated ALRI in-hospital deaths and overall human metapneumovirus-associated ALRI deaths (both in-hospital and non-hospital deaths). Additionally, we estimated human metapneumovirus-attributable ALRI cases, hospital admissions, and deaths by combining human metapneumovirus-associated burden estimates and attributable fractions of human metapneumovirus in laboratory-confirmed human metapneumovirus cases and deaths. Findings In 2018, among children younger than 5 years globally, there were an estimated 14·2 million human metapneumovirus-associated ALRI cases (uncertainty range [UR] 10·2 million to 20·1 million), 643 000 human metapneumovirus-associated hospital admissions (UR 425 000 to 977 000), 7700 human metapneumovirus-associated in-hospital deaths (2600 to 48 800), and 16 100 overall (hospital and community) human metapneumovirus-associated ALRI deaths (5700 to 88 000). An estimated 11·1 million ALRI cases (UR 8·0 million to 15·7 million), 502 000 ALRI hospital admissions (UR 332 000 to 762 000), and 11 300 ALRI deaths (4000 to 61 600) could be causally attributed to human metapneumovirus in 2018. Around 58% of the hospital admissions were in infants under 12 months, and 64% of in-hospital deaths occurred in infants younger than 6 months, of which 79% occurred in low-income and lower-middle-income countries. Interpretation Infants younger than 1 year have disproportionately high risks of severe human metapneumovirus infections across all World Bank income regions and all child mortality settings, similar to respiratory syncytial virus and influenza virus. Infants younger than 6 months in low-income and lower-middle-income countries are at greater risk of death from human metapneumovirus-associated ALRI than older children and those in upper-middle-income and high-income countries. Our mortality estimates demonstrate the importance of intervention strategies for infants across all settings, and warrant continued efforts to improve the outcome of human metapneumovirus-associated ALRI among young infants in low-income and lower-middle-income countries. Funding Bill & Melinda Gates Foundation.

Published

2020

5. Global burden of acute lower respiratory infection associated with human parainfluenza virus in children younger than 5 years for 2018: a systematic review and meta-analysis

Author

Histoshi Oshitani, Harish Nair, Heather J. Zar, Shabir A. Madhi, Doli Goswami, Maria Deloria-Knoll, J. Anthony G. Scott, Xin Wang, Betty E Owor, Socorro Lupisan, Marilla G. Lucero, Vahid Salimi, Pongpun Sawatwong, Vina Lea F. Arguelles, Kenneth A. McLean, Cheryl Cohen, W. Abdullah Brooks, Zeba A Rasmussen, Rodrigo Fasce, Maria Mathisen, Sudha Basnet, Harry Campbell, Lay-Myint Yoshida, Karen L. Kotloff, Stephen R. C. Howie, Katherine L. O'Brien, Angela Gentile, Florette K. Treurnicht, Marcela Echavarria, Barbara Rath, Quique Bassat, Ainara Mira-Iglesias, Najwa Khuri-Bulos, Cinta Moraleda, Nusrat Homaira, Anand Krishnan, You Li, Eric A. F. Simões, Donald M. Thea, Michiko Okamoto, Viviana Sotomayor, and Network, Respiratory Virus Global Epidemiology

Subjects

Pediatrics, medicine.medical_specialty, 030231 tropical medicine, MEDLINE, Global Health, 03 medical and health sciences, 0302 clinical medicine, medicine, Global health, Humans, 030212 general & internal medicine, Lower respiratory infection, Respiratory Tract Infections, International research, Paramyxoviridae Infections, business.industry, Incidence (epidemiology), Infant, Newborn, Infant, General Medicine, medicine.disease, Pneumonia, Human Parainfluenza Virus, Meta-analysis, Child, Preschool, Paramyxovirinae, business

Abstract

Background Human parainfluenza virus (hPIV) is a common virus in childhood acute lower respiratory infections (ALRI). However, no estimates have been made to quantify the global burden of hPIV in childhood ALRI. We aimed to estimate the global and regional hPIV-associated and hPIV-attributable ALRI incidence, hospital admissions, and mortality for children younger than 5 years and stratified by 0–5 months, 6–11 months, and 12–59 months of age. Methods We did a systematic review of hPIV-associated ALRI burden studies published between Jan 1, 1995, and Dec 31, 2020, found in MEDLINE, Embase, Global Health, Cumulative Index to Nursing and Allied Health Literature, Web of Science, Global Health Library, three Chinese databases, and Google search, and also identified a further 41 high-quality unpublished studies through an international research network. We included studies reporting community incidence of ALRI with laboratory-confirmed hPIV; hospital admission rates of ALRI or ALRI with hypoxaemia in children with laboratory-confirmed hPIV; proportions of patients with ALRI admitted to hospital with laboratory-confirmed hPIV; or in-hospital case–fatality ratios (hCFRs) of ALRI with laboratory-confirmed hPIV. We used a modified Newcastle-Ottawa Scale to assess risk of bias. We analysed incidence, hospital admission rates, and hCFRs of hPIV-associated ALRI using a generalised linear mixed model. Adjustment was made to account for the non-detection of hPIV-4. We estimated hPIV-associated ALRI cases, hospital admissions, and in-hospital deaths using adjusted incidence, hospital admission rates, and hCFRs. We estimated the overall hPIV-associated ALRI mortality (both in-hospital and out-hospital mortality) on the basis of the number of in-hospital deaths and care-seeking for child pneumonia. We estimated hPIV-attributable ALRI burden by accounting for attributable fractions for hPIV in laboratory-confirmed hPIV cases and deaths. Sensitivity analyses were done to validate the estimates of overall hPIV-associated ALRI mortality and hPIV-attributable ALRI mortality. The systematic review protocol was registered on PROSPERO (CRD42019148570). Findings 203 studies were identified, including 162 hPIV-associated ALRI burden studies and a further 41 high-quality unpublished studies. Globally in 2018, an estimated 18·8 million (uncertainty range 12·8–28·9) ALRI cases, 725 000 (433 000–1 260 000) ALRI hospital admissions, and 34 400 (16 400–73 800) ALRI deaths were attributable to hPIVs among children younger than 5 years. The age-stratified and region-stratified analyses suggested that about 61% (35% for infants aged 0–5 months and 26% for 6–11 months) of the hospital admissions and 66% (42% for infants aged 0–5 months and 24% for 6–11 months) of the in-hospital deaths were in infants, and 70% of the in-hospital deaths were in low-income and lower-middle-income countries. Between 73% and 100% (varying by outcome) of the data had a low risk in study design; the proportion was 46–65% for the adjustment for health-care use, 59–77% for patient groups excluded, 54–93% for case definition, 42–93% for sampling strategy, and 67–77% for test methods. Heterogeneity in estimates was found between studies for each outcome. Interpretation We report the first global burden estimates of hPIV-associated and hPIV-attributable ALRI in young children. Globally, approximately 13% of ALRI cases, 4–14% of ALRI hospital admissions, and 4% of childhood ALRI mortality were attributable to hPIV. These numbers indicate a potentially notable burden of hPIV in ALRI morbidity and mortality in young children. These estimates should encourage and inform investment to accelerate the development of targeted interventions. Funding Bill & Melinda Gates Foundation.

Published

2021

6. Impact of the introduction of rotavirus vaccine on hospital admissions for diarrhoea among children in Kenya : a controlled interrupted time series analysis

Author

Betty E Owor, Yaw Addo, Collins Tabu, Sammy Khagayi, D. James Nokes, Richard Omore, Umesh D. Parashar, Clayton Onyango, Jacqueline E. Tate, Jason M. Mwenda, Billy Ogwel, Godfrey Bigogo, Tuck Britton, Robert F. Breiman, Grieven P. Otieno, Christian Bottomley, Ifedayo M. O. Adetifa, Jane Juma, John B. Ochieng, Mwanajuma Ngama, and Jennifer R. Verani

Subjects

Microbiology (medical), education.field_of_study, Pediatrics, medicine.medical_specialty, business.industry, RJ, Incidence (epidemiology), Population, medicine.disease_cause, Rotavirus vaccine, Confidence interval, Interrupted Time Series Analysis, QR, Diarrhea, Infectious Diseases, Rotavirus, medicine, medicine.symptom, education, business, Health worker, RA

Abstract

Background Monovalent rotavirus vaccine, Rotarix (GlaxoSmithKline), was introduced in Kenya in July 2014 and is recommended to infants as oral doses at ages 6 and 10 weeks. A multisite study was established in 2 population-based surveillance sites to evaluate vaccine impact on the incidence of rotavirus-associated hospitalizations (RVHs). Methods Hospital-based surveillance was conducted from January 2010 to June 2017 for acute diarrhea hospitalizations among children aged Results Between January 2010 and June 2017 there were 1513 and 1652 diarrhea hospitalizations in Kilifi and Siaya; among those tested for rotavirus, 28% (315/1142) and 23% (197/877) were positive, respectively. There was a 57% (95% confidence interval [CI], 8–80%) reduction in RVHs observed in the first year post–vaccine introduction in Kilifi and a 59% (95% CI, 20–79%) reduction in Siaya. In the second year, RVHs decreased further at both sites, 80% (95% CI, 46–93%) reduction in Kilifi and 82% reduction in Siaya (95% CI. 61–92%); this reduction was sustained at both sites into the third year. Conclusions A substantial reduction in RVHs and all-cause diarrhea was observed in 2 demographic surveillance sites in Kenya within 3 years of vaccine introduction.

Published

2020

7. ­Rotavirus group A genotype circulation patterns across Kenya before and after nationwide vaccine introduction, 2010-2018

Author

Seheri L. Mapaseka, Umesh D. Parashar, Regina Njeru, Mike J. Mwanga, John B. Ochieng, Betty E Owor, Jane Juma, Godfrey Bigogo, Grieven P. Otieno, Mwanajuma Ngama, Billy Ogwel, D. James Nokes, Jennifer R. Verani, Richard Omore, Charles N. Agoti, Robert F. Breiman, Sammy Khagayi, Jacqueline E. Tate, Clayton Onyango, Elizabeth Hunsperger, O. Yaw Addo, and Elijah Gicheru

Subjects

0301 basic medicine, Male, Rotavirus, Veterinary medicine, medicine.medical_specialty, Genotype, Enzyme-Linked Immunosorbent Assay, Biology, medicine.disease_cause, Vaccines, Attenuated, Group A, Rotavirus Infections, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Feces, 0302 clinical medicine, Medical microbiology, medicine, Prevalence, Humans, lcsh:RC109-216, 030212 general & internal medicine, Child, Immunization Schedule, Phylogeny, Vaccination, Rotavirus Vaccines, Infant, Post-vaccine, Kenya, QR, Gastroenteritis, 3. Good health, 030104 developmental biology, Infectious Diseases, Parasitology, Child, Preschool, Tropical medicine, Female, Pre-vaccine, Research Article

Abstract

Background Kenya introduced the monovalent G1P [8] Rotarix® vaccine into the infant immunization schedule in July 2014. We examined trends in rotavirus group A (RVA) genotype distribution pre- (January 2010–June 2014) and post- (July 2014–December 2018) RVA vaccine introduction. Methods Stool samples were collected from children aged Results We genotyped 614 samples in pre-vaccine and 261 in post-vaccine introduction periods. During the pre-vaccine introduction period, the most frequent RVA genotypes were G1P [8] (45.8%), G8P [4] (15.8%), G9P [8] (13.2%), G2P [4] (7.0%) and G3P [6] (3.1%). In the post-vaccine introduction period, the most frequent genotypes were G1P [8] (52.1%), G2P [4] (20.7%) and G3P [8] (16.1%). Predominant genotypes varied by year and site in both pre and post-vaccine periods. Temporal genotype patterns showed an increase in prevalence of vaccine heterotypic genotypes, such as the commonly DS-1-like G2P [4] (7.0 to 20.7%, P P P P Conclusion Genotype prevalence varied from before to after vaccine introduction. Such observations emphasize the need for long-term surveillance to monitor vaccine impact. These changes may represent natural secular variation or possible immuno-epidemiological changes arising from the introduction of the vaccine. Full genome sequencing could provide insights into post-vaccine evolutionary pressures and antigenic diversity.

Published

2020

8. The role of Kenya in the trans-African spread of maize streak virus strain A

Author

Penelope Hartnady, Dionne N. Shepherd, Anja Jäschke, Gordon William Harkins, Arvind Varsani, Adérito L. Monjane, Daniel Pande, Darren P. Martin, Betty E. Owor, James Hadfield, Karyna Rosario, Eugene T. Madzokere, Simona Kraberger, and Mathews M. Dida

Subjects

0301 basic medicine, endocrine system, Cancer Research, Kenya, Genotype, viruses, Population, Genome, Viral, Biology, Diversification (marketing strategy), Zea mays, Crop, 03 medical and health sciences, Mastrevirus, Virology, parasitic diseases, Botany, Maize streak virus, Uganda, Socioeconomics, education, neoplasms, Phylogeny, Plant Diseases, education.field_of_study, High-Throughput Nucleotide Sequencing, Staple food, biology.organism_classification, Phylogeography, 030104 developmental biology, Infectious Diseases, DNA, Viral

Abstract

Maize streak virus (MSV), the causal agent of maize streak disease (MSD), is the most important viral pathogen of Africa’s staple food crop, maize. Previous phylogeographic analyses have revealed that the most widely-distributed and common MSV variant, MSV-A1, has been repeatedly traversing Africa over the past fifty years with long-range movements departing from either the Lake Victoria region of East Africa, or the region around the convergence of Zimbabwe, South Africa and Mozambique in southern Africa. Despite Kenya being the second most important maize producing country in East Africa, little is known about the Kenyan MSV population and its contribution to the ongoing diversification and trans-continental dissemination of MSV-A1. We therefore undertook a sampling survey in this country between 2008 and 2011, collecting MSD prevalence data in 119 farmers’ fields, symptom severity data for 170 maize plants and complete MSV genome sequence data for 159 MSV isolates. We then used phylogenetic and phylogeographic analyses to show that whereas the Kenyan MSV population is likely primarily derived from the MSV population in neighbouring Uganda, it displays considerably more geographical structure than the Ugandan population. Further, this geographical structure likely confounds apparent associations between virus genotypes and both symptom severity and MSD prevalence in Kenya. Finally, we find that Kenya is probably a sink rather than a source of MSV diversification and movement, and therefore, unlike Uganda, Kenya probably does not play a major role in the trans-continental dissemination of MSV-A1.

Published

2017

9. Symptom evolution following the emergence of maize streak virus

Author

Anders Kvarnheden, Rémy Froissart, Shane L. Murray, Arvind Varsani, Daphné Linderme, Elham Yazdkhasti, Penelope Hartnady, Lara Donaldson, Darren P. Martin, Edward P. Rybicki, Betty E. Owor, Marc A. Suchard, Adérito Luis Monjane, Philippe Roumagnac, Philippe Lemey, Gordon William Harkins, Simon Dellicour, Kehinde A. Oyeniran, Pierre Lefeuvre, Rizwan A Syed, Marion Bezuidenhout, Dionne N. Shepherd, Norwegian Veterinary Institute [Oslo], Department of Plant Biology, Swedish University of Agricultural Sciences (SLU), Catholic University Leuven, Université libre de Bruxelles (ULB), University of Cape Town, Makerere University [Kampala, Ouganda] (MAK), Peuplements végétaux et bioagresseurs en milieu tropical (UMR PVBMT), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut de Recherche pour le Développement (IRD)-Institut National de la Recherche Agronomique (INRA)-Université de La Réunion (UR), Du gène à l'écosystème (MIVEGEC-GeneSys), Pathogènes, Environnement, Santé Humaine (EPATH), Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud]), Biologie et Génétique des Interactions Plante-Parasite (UMR BGPI), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro - Montpellier SupAgro, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), University of the Western Cape (UWC), University of California [Los Angeles] (UCLA), University of California (UC), The Biodesign Center for Fundamental and Applied Microbiomics, Center for Evolution and Medicine, School of Life Sciences, Arizona State University [Tempe] (ASU), Svenska Institutet : 00448/2014, Fonds de la Recherche Scientifique - FNRS, FWO, National Research Foundation - South Africa, World Academy of Sciences, European Union (EU), Conseil Regional de La Reunion, Centre de Cooperation Internationale en Recherche Agronomique pour le Developpement, National Research Foundation - South Africa : TTK1207122745, European Union (EU) : PIOF-GA-2013-622571, European Research Council (ERC) : 725422, FWO : G066215N G0D5117N G0B9317N, Research Council of Norway : 267978/E40, Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), University of the Western Cape, and University of California

Subjects

0106 biological sciences, 0301 basic medicine, Évolution maligne, Résistance génétique, viruses, virus de la striure du maïs, maize, 01 natural sciences, F30 - Génétique et amélioration des plantes, Immunologie, Genotype, Maize streak virus, 2.2 Factors relating to the physical environment, pathogenicity, evolutionary trade-off, Aetiology, Biology (General), Pathogen, 2. Zero hunger, Genetics, biology, Phylogenetic tree, Transmission (medicine), General Neuroscience, Microbiology and Parasitology, General Medicine, Sciences bio-médicales et agricoles, Microbiologie et Parasitologie, Virus, Infectious Diseases, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Host-Pathogen Interactions, Plant Necrosis and Chlorosis, Medicine, Infection, Research Article, Evolution, QH301-705.5, Pouvoir pathogène, Science, chlorosis, Virulence, Relation hôte pathogène, virus, 010603 evolutionary biology, Zea mays, General Biochemistry, Genetics and Molecular Biology, Evolution, Molecular, 03 medical and health sciences, Transmission des maladies, H20 - Maladies des plantes, Plant Diseases, Evolutionary Biology, Géminivirus striure du maïs, General Immunology and Microbiology, Host (biology), Chlorose, evolutionary biology, Neurosciences cognitives, Molecular, biology.organism_classification, Maize, virulence, 030104 developmental biology, Biochemistry and Cell Biology, Microbiologie et protistologie [bacteriol.virolog.mycolog.]

Abstract

For pathogens infecting single host species evolutionary trade-offs have previously been demonstrated between pathogen-induced mortality rates and transmission rates. It remains unclear, however, how such trade-offs impact sub-lethal pathogen-inflicted damage, and whether these trade-offs even occur in broad host-range pathogens. Here, we examine changes over the past 110 years in symptoms induced in maize by the broad host-range pathogen, maize streak virus (MSV). Specifically, we use the quantified symptom intensities of cloned MSV isolates in differentially resistant maize genotypes to phylogenetically infer ancestral symptom intensities and check for phylogenetic signal associated with these symptom intensities. We show that whereas symptoms reflecting harm to the host have remained constant or decreased, there has been an increase in how extensively MSV colonizes the cells upon which transmission vectors feed. This demonstrates an evolutionary trade-off between amounts of pathogen-inflicted harm and how effectively viruses position themselves within plants to enable onward transmission., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2020

10. Author response: Symptom evolution following the emergence of maize streak virus

Author

Rémy Froissart, Shane L. Murray, Anders Kvarnheden, Dionne N. Shepherd, Marion Bezuidenhout, Gordon William Harkins, Lara Donaldson, Betty E. Owor, Marc A. Suchard, Daphné Linderme, Kehinde A. Oyeniran, Rizwan A Syed, Edward P. Rybicki, Adérito Luis Monjane, Penelope Hartnady, Philippe Lemey, Elham Yazdkhasti, Darren P. Martin, Arvind Varsani, Simon Dellicour, Philippe Roumagnac, and Pierre Lefeuvre

Subjects

Maize streak virus, Biology, biology.organism_classification, Virology

Published

2020

11. Effectiveness of Monovalent Rotavirus Vaccine Against Hospitalization With Acute Rotavirus Gastroenteritis in Kenyan Children

Author

Jason M. Mwenda, Jennifer R. Verani, Jane Juma, Mwanajuma Ngama, Evans Apondi, Sammy Khagayi, Grieven P. Otieno, John B. Ochieng, Jacqueline E. Tate, Betty E Owor, Yaw Addo, Umesh D. Parashar, Robert F. Breiman, Billy Ogwel, Clayton Onyango, D. James Nokes, Collins Tabu, Anyangu S. Amwayi, Regina Njeru, Mike J. Mwanga, Godfrey Bigogo, and Richard Omore

Subjects

Microbiology (medical), Rotavirus, RM, Pediatrics, medicine.medical_specialty, RJ, medicine.disease_cause, Vaccines, Attenuated, Rotavirus Infections, medicine, Humans, acute gastroenteritis, Child, Articles and Commentaries, vaccine effectiveness, business.industry, Vaccination, Rotavirus Vaccines, Infant, Odds ratio, medicine.disease, Rotavirus vaccine, Kenya, Confidence interval, QR, Gastroenteritis, Hospitalization, Diarrhea, Malnutrition, Infectious Diseases, AcademicSubjects/MED00290, medicine.symptom, Underweight, business, RA, RC

Abstract

Background Rotavirus remains a leading cause of pediatric diarrheal illness and death worldwide. Data on rotavirus vaccine effectiveness in sub-Saharan Africa are limited. Kenya introduced monovalent rotavirus vaccine (RV1) in July 2014. We assessed RV1 effectiveness against rotavirus-associated hospitalization in Kenyan children. Methods Between July 2014 and December 2017, we conducted surveillance for acute gastroenteritis (AGE) in 3 Kenyan hospitals. From children age-eligible for ≥1 RV1 dose, with stool tested for rotavirus and confirmed vaccination history we compared RV1 coverage among rotavirus positive (cases) vs rotavirus negative (controls) using multivariable logistic regression and calculated effectiveness based on adjusted odds ratio. Results Among 677 eligible children, 110 (16%) were rotavirus positive. Vaccination data were available for 91 (83%) cases; 51 (56%) had 2 RV1 doses and 33 (36%) 0 doses. Among 567 controls, 418 (74%) had vaccination data; 308 (74%) had 2 doses and 69 (16%) 0 doses. Overall 2-dose effectiveness was 64% (95% confidence interval [CI], 35%–80%); effectiveness was 67% (95% CI, 30%–84%) for children aged Conclusions RV1 in the Kenyan immunization program provides significant protection against rotavirus-associated hospitalization which persisted beyond infancy. Malnutrition appears to diminish vaccine effectiveness. Efforts to improve rotavirus uptake and nutritional status are important to maximize vaccine benefit.

Published

2019

12. Recent sequence variation in probe binding site affected detection of respiratory syncytial virus group B by real-time RT-PCR

Author

Grieven P. Otieno, John W. Oketch, Clement Lewa, Anne Bett, D. James Nokes, Everlyn Kamau, Patricia A. Cane, Betty E Owor, and Charles N. Agoti

Subjects

0301 basic medicine, viruses, Short Communication, RT-PCR, Respiratory Syncytial Virus Infections, Biology, Real-Time Polymerase Chain Reaction, Mismatches, Sensitivity and Specificity, 03 medical and health sciences, Virology, Humans, Multiplex, Gene, False Negative Reactions, DNA Primers, QR355, Binding Sites, Molecular epidemiology, Phylogenetic tree, Reverse Transcriptase Polymerase Chain Reaction, Hybridization probe, Genetic Variation, RSV, Sequence Analysis, DNA, respiratory system, Probe, Molecular biology, Kenya, Primer, 3. Good health, Nucleoprotein, Respiratory Syncytial Viruses, 030104 developmental biology, Real-time polymerase chain reaction, Infectious Diseases, Nucleoproteins, Molecular Diagnostic Techniques, RNA, Viral, Primer (molecular biology), Oligonucleotide Probes, Viral Fusion Proteins, Real-time

Abstract

Highlights • Sequence variation at probe target site inhibited detection of a new RSV-B variant. • RSV-B virus diversity was consistent with real-time RT-PCR sensitivity. • Reduced PCR insensitivity could underestimate disease prevalence in clinical settings. • Regular check of primer and probe target sites for rapidly evolving viruses is key., Background Direct immuno-fluorescence test (IFAT) and multiplex real-time RT-PCR have been central to RSV diagnosis in Kilifi, Kenya. Recently, these two methods showed discrepancies with an increasing number of PCR undetectable RSV-B viruses. Objectives Establish if mismatches in the primer and probe binding sites could have reduced real-time RT-PCR sensitivity. Study design Nucleoprotein (N) and glycoprotein (G) genes were sequenced for real-time RT-PCR positive and negative samples. Primer and probe binding regions in N gene were checked for mismatches and phylogenetic analyses done to determine molecular epidemiology of these viruses. New primers and probe were designed and tested on the previously real-time RT-PCR negative samples. Results N gene sequences revealed 3 different mismatches in the probe target site of PCR negative, IFAT positive viruses. The primers target sites had no mismatches. Phylogenetic analysis of N and G genes showed that real-time RT-PCR positive and negative samples fell into distinct clades. Newly designed primers-probe pair improved detection and recovered previous PCR undetectable viruses. Conclusions An emerging RSV-B variant is undetectable by a quite widely used real-time RT-PCR assay due to polymorphisms that influence probe hybridization affecting PCR accuracy.

Published

2016

13. Human metapneumovirus epidemiological and evolutionary patterns in Coastal Kenya, 2007-11

Author

Regina Njeru, Geoffrey N. Masankwa, Lilian C. Mwango, D. James Nokes, Betty E Owor, and Charles N. Agoti

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Kilifi, Respiratory virus, Real-Time Polymerase Chain Reaction, Genetic diversity, 03 medical and health sciences, 0302 clinical medicine, Medical microbiology, Human metapneumovirus, Phylogenetics, Nasopharynx, Epidemiology, Prevalence, medicine, Humans, Metapneumovirus, Amino Acid Sequence, 030212 general & internal medicine, Respiratory Tract Infections, Phylogeny, Paramyxoviridae Infections, Respiratory tract infections, biology, business.industry, Infant, Newborn, Genetic Variation, Infant, Pneumonia, biology.organism_classification, Antigenic Variation, Kenya, Virology, 3. Good health, 030104 developmental biology, Infectious Diseases, Parasitology, Female, Seasons, business, Research Article, RC

Abstract

Background Human metapneumovirus (HMPV) is an important global cause of severe acute respiratory infections in young children and the elderly. The epidemiology of HMPV in sub-Saharan Africa is poorly described and factors that allow its recurrent epidemics in communities not understood. Methods We undertook paediatric inpatient surveillance for HMPV in Kilifi County Hospital (KCH) of Coastal Kenya between 2007 and 2011. Nasopharyngeal samples collected from children aged 1 day–59 months admitted with severe or very severe pneumonia, were tested for HMPV using real-time polymerase chain reaction (RT-PCR). Partial nucleotide sequences of the attachment (G) and fusion (F) surface proteins of positive samples were determined and phylogenetically analyzed. Results HMPV was detected in 4.8 % (160/3320) of children [73.8 % (118/160) of these less than one year of age], ranging between 2.9 and 8.8 % each year over the 5 years of study. HMPV infections were seasonal in occurrence, with cases predominant in the months of November through April. These months frequently coincided with low rainfall, high temperature and low relative humidity in the location. Phylogenetic analysis of partial F and G sequences revealed three subgroups of HMPV, A2 (74 %, 91/123), B1 (3.2 %, 4/123) and B2 (22.8 %, 28/123) in circulation, with subgroup A2 predominant in majority of the epidemic seasons. Comparison of G sequences (local and global) provided a greater phylogenetic resolution over comparison of F sequences and indicated presence of probable multiple G antigenic variants within the subgroups due to differences in amino acid sequence, encoded protein length and glycosylation patterns. Conclusion The present study reveals HMPV is an important seasonal contributor to respiratory disease hospitalization in coastal Kenya, with an evolutionary pattern closely relating to that of respiratory syncytial virus. Electronic supplementary material The online version of this article (doi:10.1186/s12879-016-1605-0) contains supplementary material, which is available to authorized users.

Published

2016

14. A rep-based hairpin inhibits replication of diverse maize streak virus isolates in a transient assay

Author

Marion Bezuidenhout, Edward P. Rybicki, Dionne N. Shepherd, Darren P. Martin, Francisco Lakay, Betty E. Owor, and Jennifer A. Thomson

Subjects

Transients and Migrants, Genetics, biology, Inverted repeat, viruses, Virus Replication, biology.organism_classification, Virology, Virus, Small hairpin RNA, Mastrevirus, Geminiviridae, Viral replication, Maize streak virus, RNA, Viral, Gene silencing, Gene Silencing, Gene, Plant Diseases, RNA, Double-Stranded

Abstract

Maize streak disease, caused by the A strain of the African endemic geminivirus, maize streak mastrevirus (MSV-A), threatens the food security and livelihoods of subsistence farmers throughout sub-Saharan Africa. Using a well-established transient expression assay, this study investigated the potential of a spliceable-intron hairpin RNA (hpRNA) approach to interfere with MSV replication. Two strategies were explored: (i) an inverted repeat of a 662 bp region of the MSV replication-associated protein gene (rep), which is essential for virus replication and is therefore a good target for post-transcriptional gene silencing; and (ii) an inverted repeat of the viral long intergenic region (LIR), considered for its potential to trigger transcriptional silencing of the viral promoter region. After co-bombardment of cultured maize cells with each construct and an infectious partial dimer of the cognate virus genome (MSV-Kom), followed by viral replicative-form-specific PCR, it was clear that, whilst the hairpin rep construct (pHPrepΔI662) completely inhibited MSV replication, the LIR hairpin construct was ineffective in this regard. In addition, pHPrepΔI662 inhibited or reduced replication of six MSV-A genotypes representing the entire breadth of known MSV-A diversity. Further investigation by real-time PCR revealed that the pHPrepΔI662 inverted repeat was 22-fold more effective at reducing virus replication than a construct containing the sense copy, whilst the antisense copy had no effect on replication when compared with the wild type. This is the first indication that an hpRNA strategy targeting MSV rep has the potential to protect transgenic maize against diverse MSV-A genotypes found throughout sub-Saharan Africa.

Published

2011

15. Bromus catharticus striate mosaic virus: a new mastrevirus infecting Bromus catharticus from Australia

Author

James Hadfield, Betty E. Owor, Francisco Lakay, Dionne N. Shepherd, Arvind Varsani, Darren P. Martin, Rob W. Briddon, Daisy Stainton, Simona Kraberger, Peter G. Markham, and Ray S. Greber

Subjects

Bromus, Amino Acid Motifs, Molecular Sequence Data, Genome, Viral, Genome, Evolution, Molecular, Open Reading Frames, Viral Proteins, Mastrevirus, Intergenic region, Digitaria didactyla, Virology, Amino Acid Sequence, Phylogeny, Plant Diseases, Recombination, Genetic, Whole genome sequencing, Genetics, Phylogenetic tree, biology, Mosaic virus, Australia, food and beverages, General Medicine, biology.organism_classification, Geminiviridae

Abstract

Although monocotyledonous-plant-infecting mastreviruses (in the family Geminiviridae) are known to cause economically significant crop losses in certain areas of the world, in Australia, they pose no obvious threat to agriculture. Consequently, only a few Australian monocot-infecting mastreviruses have been described, and only two have had their genomes fully sequenced. Here, we present the third full-genome sequence of an Australian monocot-infecting mastrevirus from Bromus catharticus belonging to a distinct species, which we have tentatively named Bromus catharticus striate mosaic virus (BCSMV). Although the genome of this new virus shares only 57.7% sequence similarity with that of its nearest known relative, Digitaria didactyla striate mosaic virus (DDSMV; also from Australia), it has features typical of all other known mastrevirus genomes. Phylogenetic analysis showed that both the full genome and each of its probable expressed proteins group with the two other characterised Australian monocot-infecting mastreviruses. Besides the BCSMV genome sequence revealing that Australian monocot-infecting mastrevirus diversity rivals that seen in Africa, it has enabled us, for the first, to time detect evidence of recombination amongst the Australian viruses. Specifically, it appears that DDSMV possesses a short intergenic region sequence that has been recombinationally derived from either BCSMV or a close relative that has not yet been identified.

Published

2010

16. Dating the origins of the maize-adapted strain of maize streak virus, MSV-A

Author

Betty E. Owor, Siobain Duffy, Edward P. Rybicki, Lara Donaldson, B.C. Flett, Oliver P. Windram, Darren P. Martin, Tania van Antwerpen, Michel Peterschmitt, Dionne N. Shepherd, Arvind Varsani, Rizwan A. Sayed, Adérito L. Monjane, Moses Ramusi, and Gordon William Harkins

Subjects

0106 biological sciences, endocrine system, viruses, Molecular Sequence Data, Genome, Viral, Poaceae, Zea mays, 01 natural sciences, Evolution, Molecular, 03 medical and health sciences, Mastrevirus, Virology, Plant virus, Maize streak virus, Geminiviridae, neoplasms, H20 - Maladies des plantes, Plant Diseases, 030304 developmental biology, Recombination, Genetic, 2. Zero hunger, 0303 health sciences, Géminivirus striure du maïs, Virulence, biology, Strain (biology), Bayes Theorem, Plant, Sequence Analysis, DNA, biology.organism_classification, Causal link, 010606 plant biology & botany

Abstract

Maize streak virus (MSV), which causes maize streak disease (MSD), is one of the most serious biotic threats to African food security. Here, we use whole MSV genomes sampled over 30 years to estimate the dates of key evolutionary events in the 500 year association of MSV and maize. The substitution rates implied by our analyses agree closely with those estimated previously in controlled MSV evolution experiments, and we use them to infer the date when the maize-adapted strain, MSV-A, was generated by recombination between two grass-adapted MSV strains. Our results indicate that this recombination event occurred in the mid-1800s, ∼20 years before the first credible reports of MSD in South Africa and centuries after the introduction of maize to the continent in the early 1500s. This suggests a causal link between MSV recombination and the emergence of MSV-A as a serious pathogen of maize.

Published

2009

17. Panicum streak virus diversity is similar to that observed for maize streak virus

Author

Oliver P. Windram, Darren P. Martin, Betty E. Owor, Sunday Oluwafemi, Edward P. Rybicki, Dionne N. Shepherd, Adérito L. Monjane, Pierre Lefeuvre, and Arvind Varsani

Subjects

Phylogénie, Séquence nucléotidique, viruses, Molecular Sequence Data, Streak, Genome, Viral, Panicum, Zea mays, Genome, Virus, Mastrevirus, Variation génétique, Virology, Maize streak virus, Animals, Géminivirus, Panicum maximum, Phylogeny, H20 - Maladies des plantes, Recombination, Genetic, Géminivirus striure du maïs, Génome, biology, Host (biology), Panicum streak virus, Genetic Variation, General Medicine, biology.organism_classification, maize streak virus, Geminiviridae, Host adaptation, Sequence Alignment

Abstract

Panicum streak virus (PanSV; genus Mastrevirus, family Geminiviridae) is, together with maize streak virus (MSV), sugarcane streak virus (SSV), sugarcane streak Reunion virus (SSRV) and sugarcane streak Egypt virus (SSEV), one of the currently described "African streak virus" (AfSV) species [6]. As with all the other AfSV species other than MSV, very little is known about PanSV genomic sequence diversity across Africa. Only two PanSV full genome sequences have ever been reported: one from Kenya [2], and the other from South Africa [17]. Both these genomes were isolated from Panicum maximum plants, but share only approximately 90% sequence identity. The reason this is noteworthy is that throughout mainland Africa all MSV genomes ever sampled from maize have been found to share >97% sequence identity. Although other MSV strains sharing between 78 and 90% identity with the maize-adapted strain (MSV-A) have been described, these have all been isolated from different host species, indicating that host adaptation is probably the main force driving MSV diversification. MSV and PanSV share common vector species (leafhoppers in the genus Cicadulina) and probably also share some host species. Although the host range of PanSV is currently unknown, the MSV host range is extensive and includes P. maximum [3]. One might therefore expect that similar evolutionary forces acting on both species might result in their sharing similar patterns of both geographical and host-associated diversity. Here we describe the full genome sequences of five new PanSV isolates (including two new strains) sampled from southern and western Africa, and report that PanSV and MSV do indeed have similar patterns of diversity. We find, however, that unlike with MSV, geographical separation rather than host adaptation is possibly the dominant force driving PanSV diversification.

Published

2008

18. Recombination, decreased host specificity and increased mobility may have driven the emergence of maize streak virus as an agricultural pathogen

Author

Dionne N. Shepherd, Edward P. Rybicki, Peter G. Markham, Sunday Oluwafemi, Jean-Michel Lett, Pierre Lefeuvre, Michel Peterschmitt, Rob W. Briddon, Julia B. Erdmann, Arvind Varsani, Betty E. Owor, Darren P. Martin, Adérito L. Monjane, and Oliver P. Windram

Subjects

Phylogénie, viruses, Genome, Jgv Direct, Hôte, Maize streak virus, Conserved Sequence, Phylogeny, Genetics, Recombination, Genetic, biology, Virulence, Maize stripe virus, Geminiviridae, Provenance, endocrine system, Pouvoir pathogène, Molecular Sequence Data, Genome, Viral, Poaceae, Zea mays, Virus, Mastrevirus, Variation génétique, Phylogenetics, Virology, neoplasms, H20 - Maladies des plantes, Plant Diseases, Géminivirus striure du maïs, Génome, Base Sequence, Host (biology), biology.organism_classification, Recombinaison, Africa, DNA, Viral, Food Microbiology, agricultural pathogen, Reunion

Abstract

Maize streak virus (MSV; family Geminiviridae, genus Mastrevirus), the causal agent of maize streak disease, ranks amongst the most serious biological threats to food security in subSaharan Africa. Although five distinct MSV strains have been currently described, only one of these – MSV-A – causes severe disease in maize. Due primarily to their not being an obvious threat to agriculture, very little is known about the ‘grass-adapted’ MSV strains, MSV-B, -C, -D and -E. Since comparing the genetic diversities, geographical distributions and natural host ranges of MSV-A with the other MSV strains could provide valuable information on the epidemiology, evolution and emergence of MSV-A, we carried out a phylogeographical analysis of MSVs found in uncultivated indigenous African grasses. Amongst the 83 new MSV genomes presented here, we report the discovery of six new MSV strains (MSV-F to -K). The non-random recombination breakpoint distributions detectable with these and other available mastrevirus sequences partially mirror those seen in begomoviruses, implying that the forces shaping these breakpoint patterns have been largely conserved since the earliest geminivirus ancestors. We present evidence that the ancestor of all MSV-A variants was the recombinant progeny of ancestral MSV-B and MSV-G/-F variants. While it remains unknown whether recombination influenced the emergence of MSV-A in maize, our discovery that MSV-A variants may both move between and become established in different regions of Africa with greater ease, and infect more grass species than other MSV strains, goes some way towards explaining why MSV-A is such a successful maize pathogen.

Published

2008

19. Genetic analysis of maize streak virus isolates from Uganda reveals widespread distribution of a recombinant variant

Author

Edward P. Rybicki, Jennifer A. Thomson, Betty E. Owor, Arvind Varsani, Richard Edema, Adérito L. Monjane, Dionne N. Shepherd, and Darren P. Martin

Subjects

endocrine system, Genotype, Sequence analysis, viruses, Molecular Sequence Data, Population, Sequence Homology, Genome, Viral, Polymerase Chain Reaction, Zea mays, Genetic analysis, Virus, Evolution, Molecular, Mastrevirus, Virology, Maize streak virus, Uganda, Geminiviridae, education, neoplasms, Phylogeny, Plant Diseases, Recombination, Genetic, Genetics, education.field_of_study, Base Sequence, biology, Sequence Analysis, DNA, biology.organism_classification, DNA Fingerprinting, recombinant variant, Polymorphism, Restriction Fragment Length

Abstract

Maize streak virus (MSV) contributes significantly to the problem of extremely low African maize yields. Whilst a diverse range of MSV and MSV-like viruses are endemic in sub-Saharan Africa and neighbouring islands, only a single group of maize-adapted variants – MSV subtypes A1–A6– causes severe enough disease in maize to influence yields substantially. In order to assist in designing effective strategies to control MSV in maize, a large survey covering 155 locations was conducted to assess the diversity, distribution and genetic characteristics of the Ugandan MSV-A population. PCR–restriction fragment-length polymorphism analyses of 391 virus isolates identified 49 genetic variants. Sixty-two full-genome sequences were determined, 52 of which were detectably recombinant. All but two recombinants contained predominantly MSV-A1-like sequences. Of the ten distinct recombination events observed, seven involved inter-MSV-A subtype recombination and three involved intra-MSV-A1recombination. One of the intra-MSV-A1recombinants, designated MSV-A1UgIII, accounted for >60 % of all MSV infections sampled throughout Uganda. Although recombination may be an important factor in the emergence of novel geminivirus variants, it is demonstrated that its characteristics in MSV are quite different from those observed in related African cassava-infecting geminivirus species.

Published

2007

20. Reconstructing the history of maize streak virus strain a dispersal to reveal diversification hot spots and its origin in southern Africa

Author

Edward P. Rybicki, Arvind Varsani, Tania van Antwerpen, Rob W. Briddon, Dionne N. Shepherd, Michelo Simuyandi, Adérito L. Monjane, Silla Semballa, Betty E. Owor, Jean-Michel Lett, Julia B. Erdmann, B.C. Flett, Philippe Lemey, Fidèle Tiendrebeogo, Darren P. Martin, Moses Ramusi, Noella Mandakombo, Didier P. Lakoutene, Gordon William Harkins, Rizwan A Syed, Peter G. Markham, Appolinaire Tagne, Joseph Mboukoulida, Ephrem Kosh Komba, Innocent Zinga, Pierre Lefeuvre, Oliver P. Windram, and Sunday Oluwafemi

Subjects

endocrine system, viruses, Immunology, Molecular Sequence Data, Streak, Microbiology, Zea mays, Crop, Evolution, Molecular, Mastrevirus, Virology, Botany, Maize streak virus, Cluster Analysis, neoplasms, H20 - Maladies des plantes, Plant Diseases, Molecular Epidemiology, Géminivirus striure du maïs, biology, Molecular epidemiology, Strain (biology), Plante alimentaire, Sequence Analysis, DNA, biology.organism_classification, Phylogeography, Genetic Diversity and Evolution, Evolutionary biology, Insect Science, Africa, DNA, Viral, Biological dispersal

Abstract

Maize streak virus strain A (MSV-A), the causal agent of maize streak disease, is today one of the most serious biotic threats to African food security. Determining where MSV-A originated and how it spread transcontinentally could yield valuable insights into its historical emergence as a crop pathogen. Similarly, determining where the major extant MSV-A lineages arose could identify geographical hot spots of MSV evolution. Here, we use model-based phylogeographic analyses of 353 fully sequenced MSV-A isolates to reconstruct a plausible history of MSV-A movements over the past 150 years. We show that since the probable emergence of MSV-A in southern Africa around 1863, the virus spread transcontinentally at an average rate of 32.5 km/year (95% highest probability density interval, 15.6 to 51.6 km/year). Using distinctive patterns of nucleotide variation caused by 20 unique intra-MSV-A recombination events, we tentatively classified the MSV-A isolates into 24 easily discernible lineages. Despite many of these lineages displaying distinct geographical distributions, it is apparent that almost all have emerged within the past 4 decades from either southern or east-central Africa. Collectively, our results suggest that regular analysis of MSV-A genomes within these diversification hot spots could be used to monitor the emergence of future MSV-A lineages that could affect maize cultivation in Africa. ispartof: Journal of Virology vol:85 issue:18 pages:9623-9636 ispartof: location:United States status: published

Published

2011

21. A novel species of mastrevirus (family Geminiviridae) isolated from Digitaria didactyla grass from Australia

Author

Betty E. Owor, Arvind Varsani, Ray S. Greber, Lara Donaldson, Peter G. Markham, Darren P. Martin, and Rob W. Briddon

Subjects

biology, Mosaic virus, Digitaria, Molecular Sequence Data, Australia, General Medicine, biology.organism_classification, Mastrevirus, Open Reading Frames, Digitaria didactyla, Intergenic region, Geminiviridae, Virology, Plant virus, Botany, Taxonomy (biology), Phylogeny

Abstract

Mastreviruses (family Geminiviridae) that infect monocotyledonous plants occur throughout the temperate and tropical regions of Asia, Africa, Europe and Australia. Despite the identification of a very diverse array of mastrevirus species whose members infect African monocots, few such species have been discovered in other parts of the world. For example, the sequence of only a single monocot-infecting mastrevirus, Chloris striate mosaic virus (CSMV), has been reported so far from Australia, even though earlier biological and serological studies suggested that other distinct mastreviruses were present. Here, we have obtained the complete nucleotide sequence of a virus from the grass Digitaria didactyla originating from Australia. Analysis of the sequence shows the virus to be a typical mastrevirus, with four open reading frames, two in each orientation, separated by two non-coding intergenic regions. Although it showed the highest levels of sequence identity to CSMV (68.7%), their sequences are sufficiently diverse for the virus to be considered a member of a new species in the genus Mastrevirus, based on the present species demarcation criteria. We propose that the name first used during the 1980s be used for this species, Digitaria didactyla striate mosaic virus (DDSMV).

Published

2010

22. Experimental evidence indicating that mastreviruses probably did not co-diverge with their hosts

Author

Guy Triton, Siobain Duffy, Betty E. Owor, Rob W. Briddon, Adérito L. Monjane, Wayne Delport, Arvind Varsani, Darren P. Martin, Dionne N. Shepherd, Salem Saumtally, Gordon William Harkins, Natasha T. Wood, Lara Donaldson, Edward P. Rybicki, Institute of Infectious Disease and Molecular Medicine, and Faculty of Health Sciences

Subjects

Mutation rate, Biology, Zea mays, lcsh:Infectious and parasitic diseases, Evolution, Molecular, 03 medical and health sciences, Mastrevirus, Negative selection, Genetic drift, Sequence Homology, Nucleic Acid, Virology, Maize streak virus, Point Mutation, lcsh:RC109-216, Geminiviridae, Selection, Genetic, Phylogeny, 030304 developmental biology, Genetics, 0303 health sciences, 030306 microbiology, Research, Point mutation, biology.organism_classification, Saccharum, Infectious Diseases, DNA, Viral, Mutation (genetic algorithm)

Abstract

Background Despite the demonstration that geminiviruses, like many other single stranded DNA viruses, are evolving at rates similar to those of RNA viruses, a recent study has suggested that grass-infecting species in the genus Mastrevirus may have co-diverged with their hosts over millions of years. This "co-divergence hypothesis" requires that long-term mastrevirus substitution rates be at least 100,000-fold lower than their basal mutation rates and 10,000-fold lower than their observable short-term substitution rates. The credibility of this hypothesis, therefore, hinges on the testable claim that negative selection during mastrevirus evolution is so potent that it effectively purges 99.999% of all mutations that occur. Results We have conducted long-term evolution experiments lasting between 6 and 32 years, where we have determined substitution rates of between 2 and 3 × 10-4 substitutions/site/year for the mastreviruses Maize streak virus (MSV) and Sugarcane streak Réunion virus (SSRV). We further show that mutation biases are similar for different geminivirus genera, suggesting that mutational processes that drive high basal mutation rates are conserved across the family. Rather than displaying signs of extremely severe negative selection as implied by the co-divergence hypothesis, our evolution experiments indicate that MSV and SSRV are predominantly evolving under neutral genetic drift. Conclusion The absence of strong negative selection signals within our evolution experiments and the uniformly high geminivirus substitution rates that we and others have reported suggest that mastreviruses cannot have co-diverged with their hosts.

Published

2009

23. A new African streak virus species from Nigeria

Author

Betty E. Owor, Adérito L. Monjane, Edward P. Rybicki, Darren P. Martin, Arvind Varsani, Sunday Oluwafemi, and Dionne N. Shepherd

Subjects

Recombination, Genetic, Genetics, biology, Strain (biology), Molecular Sequence Data, Nucleic acid sequence, Streak, Nigeria, Sequence Homology, Genome, Viral, Sequence Analysis, DNA, General Medicine, biology.organism_classification, Genome, Mastrevirus, Geminiviridae, Virology, Plant virus, DNA, Viral, Maize streak virus, Phylogeny, Virus classification

Abstract

The African streak viruses (AfSVs) are a diverse group of mastrevirus species (family Geminiviridae) that infect a wide variety of annual and perennial grass species across the African continent and its nearby Indian Ocean islands. Six AfSV species (of which maize streak virus is the best known) have been described. Here we report the full genome sequences of eight isolates of a seventh AfSV species: Urochloa streak virus (USV), sampled from various locations in Nigeria. Despite there being good evidence of recombination in many other AfSV species, we found no convincing evidence that any of the USV sequences were either inter- or intra-species recombinants. The USV isolates, all of which appear to be variants of the same strain (their genome sequences are all more than 98% identical), share less than 69% nucleotide sequence identity with other currently described AfSV species.

Published

2008

24. A protocol for the rapid isolation of full geminivirus genomes from dried plant tissue

Author

Pierre Lefeuvre, Adérito L. Monjane, Betty E. Owor, Edward P. Rybicki, Arvind Varsani, Dionne N. Shepherd, and Darren P. Martin

Subjects

ADN, Extraction, Genome, Viral, Abutilon mosaic virus, Polymerase Chain Reaction, Genome, Tissu végétal, Geminivirus dive, Virology, Plant virus, Maize streak virus, Geminiviridae, Technique analytique, Extract-n-Amp, Phylogeny, Géminivirus, H20 - Maladies des plantes, Genetics, Géminivirus striure du maïs, Génome, biology, Maize streak virus (MSV), Begomovirus, Sequence Analysis, DNA, Plants, Isolement, biology.organism_classification, DNA extraction, PCR, Rolling circle replication, DNA, Viral, Culture de tissu, Geminivirus, Rolling circle amplification

Abstract

A high-throughput method of isolating and cloning geminivirus genomes from dried plant material, by combining an Extract-n-AmpTM-based DNA isolation technique with rolling circle amplification (RCA) of viral DNA, is presented. Using this method an attempt was made to isolate and clone full geminivirus genomes/genome components from 102 plant samples, including dried leaves stored at room temperature for between 6 months and 10 years, with an average hands-on-time to RCA-ready DNA of 15 min per 20 samples. While storage of dried leaves for up to 6 months did not appreciably decrease cloning success rates relative to those achieved with fresh samples, efficiency of the method decreased with increasing storage time. However, it was still possible to clone virus genomes from 47% of 10-year-old samples. To illustrate the utility of this simple method for high-throughput geminivirus diversity studies, six Maize streak virus genomes, an Abutilon mosaic virus DNA-B component and the DNA-A component of a previously unidentified New Word begomovirus species were fully sequenced. Genomic clones of the 69 other viruses were verified as such by end sequencing. This method should be extremely useful for the study of any circular DNA plant viruses with genome component lengths smaller than the maximum size amplifiable by RCA.

Published

2008

25. Novel sugarcane streak and Sugarcane streak Réunion mastreviruses from southern Africa and La Réunion

Author

Betty E. Owor, Pierre Lefeuvre, Adérito L. Monjane, Arvind Varsani, Oliver P. Windram, Dionne N. Shepherd, and Darren P. Martin

Subjects

Identification, Phylogénie, Molecular Sequence Data, Streak, Genome, Viral, Poaceae, Genome, Africa, Southern, Mastrevirus, Viral Proteins, Phylogenetics, Virology, Maize streak virus, Geminiviridae, Géminivirus, Phylogeny, H20 - Maladies des plantes, Plant Diseases, Recombination, Genetic, Réunion, Génome, Phylogenetic tree, biology, Base Sequence, Strain (biology), General Medicine, Novel sugarcane streak, biology.organism_classification, Mastreviruses, Saccharum, southern Africa, sugarcane streak Reunion, Reunion

Abstract

The sugarcane infecting streak viruses (SISVs) are mastreviruses (Family Geminiviridae) belonging to a group of ‘‘African streak viruses’’ (AfSVs) that includes the economically devastating Maize streak virus (MSV). Although there are three currently described SISV species (Sugarcane streak virus [SSV], Sugarcane streak Egypt virus [SSEV] and Sugarcane streak Re´union virus [SSRV]), only one strain variant has been fully sequenced for each of these species and as a result very little is known about the diversity and evolutionary origins of the SCISVs. Here we present annotated full genome sequences of four new SISV isolates, including a new strain of both SSRV and SSV, and one potentially new SISV species, sampled from wild grasses in La Re´union and Zimbabwe. For the first time, we report the finding of SSRV isolates in Zimbabwe and SSV isolates on the island of La Re´union. Phylogenetic and recombination analyses indicate continent-wide SSRV strain diversity and that our isolate potentially representing a new SISV species is a recombinant.

Published

2007

26. Successful application of FTA Classic Card technology and use of bacteriophage phi29 DNA polymerase for large-scale field sampling and cloning of complete maize streak virus genomes

Author

Adérito L. Monjane, Nigel J. Taylor, Richard Edema, Darren P. Martin, Arvind Varsani, Betty E. Owor, Jennifer A. Thomson, and Dionne N. Shepherd

Subjects

Paper, Time Factors, DNA polymerase, Phi29 DNA polymerase, Genetic Vectors, Cloning vector, Bacillus Phages, DNA-Directed DNA Polymerase, Genome, Viral, Genome, Polymerase Chain Reaction, Zea mays, Virology, Maize streak virus, Cloning, Molecular, Polymerase, Phylogeny, Cloning, Genetics, biology, Maize streak virus (MSV), biology.organism_classification, Plant Leaves, FTA cards, Rolling circle replication, DNA, Viral, biology.protein, Geminivirus, Rolling circle amplification, Restriction fragment length polymorphism, Nucleic Acid Amplification Techniques, Filtration, Polymorphism, Restriction Fragment Length, Biotechnology

Abstract

Leaf samples from 155 maize streak virus (MSV)-infected maize plants were collected from 155 farmers’ fields in 23 districts in Uganda in May/June 2005 by leaf-pressing infected samples onto FTA® Classic Cards. Viral DNA was successfully extracted from cards stored at room temperature for 9 months. The diversity of 127 MSV isolates was analysed by PCR-generated RFLPs. Six representative isolates having different RFLP patterns and causing either severe, moderate or mild disease symptoms, were chosen for amplification from FTA cards by bacteriophage ϕ29 DNA polymerase using the TempliPhi™ system. Full-length genomes were inserted into a cloning vector using a unique restriction enzyme site, and sequenced. The 1.3-kb PCR product amplified directly from FTA-eluted DNA and used for RFLP analysis was also cloned and sequenced. Comparison of cloned whole genome sequences with those of the original PCR products indicated that the correct virus genome had been cloned and that no errors were introduced by the ϕ29 polymerase. This is the first successful large-scale application of FTA card technology to the field, and illustrates the ease with which large numbers of infected samples can be collected and stored for downstream molecular applications such as diversity analysis and cloning of potentially new virus genomes.

Published

2007

27. Molecular characterization of rotavirus group A strains circulating prior to vaccine introduction in rural coastal Kenya, 2002-2013

Author

Betty E. Owor, Mike J. Mwanga, Regina Njeru, Robert Mugo, Mwanajuma Ngama, Grieven P. Otieno, D.J. Nokes, and C.N. Agoti

Subjects

Rotavirus, QR355, genotype, 030231 tropical medicine, Medicine (miscellaneous), Articles, General Biochemistry, Genetics and Molecular Biology, diversity, 3. Good health, strains, 03 medical and health sciences, 0302 clinical medicine, epidemiology, 030212 general & internal medicine, RA, Research Article

Abstract

Background: Kenya introduced the monovalent Rotarix® rotavirus group A (RVA) vaccine nationally in mid-2014. Long-term surveillance data is important prior to wide-scale vaccine use to assess the impact on disease and to investigate the occurrence of heterotypic strains arising through immune selection. This report presents baseline data on RVA genotype circulation patterns and intra-genotype genetic diversity over a 7-year period in the pre-vaccine era in Kilifi, Kenya, from 2002 to 2004 and from 2010 to 2013. Methods: A total of 745 RVA strains identified in children admitted with acute gastroenteritis to a referral hospital in Coastal Kenya, were sequenced using the di-deoxy sequencing method in the VP4 and VP7 genomic segments (encoding P and G proteins, respectively). Sequencing successfully generated 569 (76%) and 572 (77%) consensus sequences for the VP4 and VP7 genes respectively. G and P genotypes were determined by use of BLAST and the online RotaC v2 RVA classification tool. Results: The most common GP combination was G1P[8] (51%), similar to the Rotarix® strain, followed by G9P[8] (15%) , G8P[4] (14%) and G2P[4] (5%). Unusual GP combinations—G1P[4], G2P[8], G3P[4,6], G8P[8,14], and G12P[4,6,8]—were observed at frequencies of Conclusions: The circulating RVA diversity showed temporal fluctuations with several unusual strains recorded, which rarely caused major outbreaks. These data will be useful in interpreting genotype patterns observed in the region during the vaccine era.

28. Global burden of acute lower respiratory infection associated with human metapneumovirus in children under 5 years in 2018: a systematic review and modelling study

Author

Xin Wang, PhD, You Li, PhD, Maria Deloria-Knoll, PhD, Shabir A Madhi, ProfPhD, Cheryl Cohen, MD, Asad Ali, MD, Sudha Basnet, ProfMD, Quique Bassat, ProfMD, W Abdullah Brooks, MD, Malinee Chittaganpitch, MSc, Marcela Echavarria, PhD, Rodrigo A Fasce, BSc, Doli Goswami, MSc, Siddhivinayak Hirve, PhD, Nusrat Homaira, PhD, Stephen R C Howie, PhD, Karen L Kotloff, ProfMD, Najwa Khuri-Bulos, ProfMD, Anand Krishnan, ProfMD, Marilla G Lucero, MD, Socorro Lupisan, MD, Ainara Mira-Iglesias, MSc, David P Moore, PhD, Cinta Moraleda, PhD, Marta Nunes, PhD, Histoshi Oshitani, ProfMD, Betty E Owor, PhD, Fernando P Polack, ProfMD, Katherine L O'Brien, ProfMD, Zeba A Rasmussen, MD, Barbara A Rath, ProfMD, Vahid Salimi, PhD, J Anthony G Scott, ProfFRCP, Eric A F Simões, ProfMD, Tor A Strand, ProfPhD, Donald M Thea, ProfMD, Florette K Treurnicht, PhD, Linda C Vaccari, MbChB, Lay-Myint Yoshida, ProfPhD, Heather J Zar, ProfPhD, Harry Campbell, ProfMD, Harish Nair, ProfPhD, Romina Libster, Grieven Otieno, Imane Joundi, Shobha Broor, Mark Nicol, Ritvik Amarchand, Ting Shi, F. Xavier López-Labrador, Julia M. Baker, Alexandra Jamison, Avinash Choudekar, Sanjay Juvekar, Patrick Obermeier, Brunhilde Schweiger, Lola Madrid, Elizabeth Thomas, Miguel Lanaspa, Hanna Nohynek, James Nokes, Marta Werner, Anh Danhg, Mandeep Chadha, Joan Puig-Barberà, Mauricio T. Caballero, Maria Mathisen, Sibongile Walaza, Orienka Hellferscee, Matt Laubscher, Melissa M. Higdon, Meredith Haddix, Pongpun Sawatwong, Henry C. Baggett, Phil Seidenberg, Lawrence Mwanayanda, Martin Antonio, Bernard E. Ebruke, Tanja Adams, Mustafizur Rahman, Mohammed Ziaur Rahman, Samboa O. Sow, Vicky L. Baillie, Lesley Workman, Michiko Toizumi, Milagritos D. Tapia, Thi hien anh Nguyen, and Susan Morpeth

Subjects

Public aspects of medicine, RA1-1270

Abstract

Summary: Background: Human metapneumovirus is a common virus associated with acute lower respiratory infections (ALRIs) in children. No global burden estimates are available for ALRIs associated with human metapneumovirus in children, and no licensed vaccines or drugs exist for human metapneumovirus infections. We aimed to estimate the age-stratified human metapneumovirus-associated ALRI global incidence, hospital admissions, and mortality burden in children younger than 5 years. Methods: We estimated the global burden of human metapneumovirus-associated ALRIs in children younger than 5 years from a systematic review of 119 studies published between Jan 1, 2001, and Dec 31, 2019, and a further 40 high quality unpublished studies. We assessed risk of bias using a modified Newcastle-Ottawa Scale. We estimated incidence, hospital admission rates, and in-hospital case-fatality ratios (hCFRs) of human metapneumovirus-associated ALRI using a generalised linear mixed model. We applied incidence and hospital admission rates of human metapneumovirus–associated ALRI to population estimates to yield the morbidity burden estimates by age bands and World Bank income levels. We also estimated human metapneumovirus-associated ALRI in-hospital deaths and overall human metapneumovirus-associated ALRI deaths (both in-hospital and non-hospital deaths). Additionally, we estimated human metapneumovirus-attributable ALRI cases, hospital admissions, and deaths by combining human metapneumovirus-associated burden estimates and attributable fractions of human metapneumovirus in laboratory-confirmed human metapneumovirus cases and deaths. Findings: In 2018, among children younger than 5 years globally, there were an estimated 14·2 million human metapneumovirus-associated ALRI cases (uncertainty range [UR] 10·2 million to 20·1 million), 643 000 human metapneumovirus-associated hospital admissions (UR 425 000 to 977 000), 7700 human metapneumovirus-associated in-hospital deaths (2600 to 48 800), and 16 100 overall (hospital and community) human metapneumovirus-associated ALRI deaths (5700 to 88 000). An estimated 11·1 million ALRI cases (UR 8·0 million to 15·7 million), 502 000 ALRI hospital admissions (UR 332 000 to 762 000), and 11 300 ALRI deaths (4000 to 61 600) could be causally attributed to human metapneumovirus in 2018. Around 58% of the hospital admissions were in infants under 12 months, and 64% of in-hospital deaths occurred in infants younger than 6 months, of which 79% occurred in low-income and lower-middle-income countries. Interpretation: Infants younger than 1 year have disproportionately high risks of severe human metapneumovirus infections across all World Bank income regions and all child mortality settings, similar to respiratory syncytial virus and influenza virus. Infants younger than 6 months in low-income and lower-middle-income countries are at greater risk of death from human metapneumovirus-associated ALRI than older children and those in upper-middle-income and high-income countries. Our mortality estimates demonstrate the importance of intervention strategies for infants across all settings, and warrant continued efforts to improve the outcome of human metapneumovirus-associated ALRI among young infants in low-income and lower-middle-income countries. Funding: Bill & Melinda Gates Foundation.

Published

2021

29. Symptom evolution following the emergence of maize streak virus

Author

Adérito L Monjane, Simon Dellicour, Penelope Hartnady, Kehinde A Oyeniran, Betty E Owor, Marion Bezuidenhout, Daphné Linderme, Rizwan A Syed, Lara Donaldson, Shane Murray, Edward P Rybicki, Anders Kvarnheden, Elham Yazdkhasti, Pierre Lefeuvre, Rémy Froissart, Philippe Roumagnac, Dionne N Shepherd, Gordon W Harkins, Marc A Suchard, Philippe Lemey, Arvind Varsani, and Darren P Martin

Subjects

virulence, pathogenicity, evolutionary trade-off, chlorosis, Medicine, Science, Biology (General), QH301-705.5

Abstract

For pathogens infecting single host species evolutionary trade-offs have previously been demonstrated between pathogen-induced mortality rates and transmission rates. It remains unclear, however, how such trade-offs impact sub-lethal pathogen-inflicted damage, and whether these trade-offs even occur in broad host-range pathogens. Here, we examine changes over the past 110 years in symptoms induced in maize by the broad host-range pathogen, maize streak virus (MSV). Specifically, we use the quantified symptom intensities of cloned MSV isolates in differentially resistant maize genotypes to phylogenetically infer ancestral symptom intensities and check for phylogenetic signal associated with these symptom intensities. We show that whereas symptoms reflecting harm to the host have remained constant or decreased, there has been an increase in how extensively MSV colonizes the cells upon which transmission vectors feed. This demonstrates an evolutionary trade-off between amounts of pathogen-inflicted harm and how effectively viruses position themselves within plants to enable onward transmission.

Published

2020