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Portable Rabies Virus Sequencing in Canine Rabies Endemic Countries Using the Oxford Nanopore MinION.
Gigante, Crystal M; Yale, Gowri; Condori, Rene Edgar; Costa, Niceta Cunha; Long, Nguyen Van; Minh, Phan Quang; Chuong, Vo Dinh; Tho, Nguyen Dang; Thanh, Nguyen Tat; Thin, Nguyen Xuan; Hanh, Nguyen Thi Hong; Wambura, Gati; Ade, Frederick; Mito, Oscar; Chuchu, Veronicah; Muturi, Mathew; Mwatondo, Athman; Hampson, Katie; Thumbi, Samuel M; Thomae, Byron G; de Paz, Victor Hugo; Meneses, Sergio; Munyua, Peninah; Moran, David; Cadena, Loren; Gibson, Andrew; Wallace, Ryan M; Pieracci, Emily G; Li, Yu.
Affiliation
  • Gigante CM; Poxvirus and Rabies Branch, Division of High-Consequence Pathogens and Pathology, National Center for Emerging and Zoonotic Infectious Diseases, Centers for Disease Control and Prevention, Atlanta, GA 30329, USA.
  • Yale G; Mission Rabies, Tonca, Panjim, Goa 403001, India.
  • Condori RE; Poxvirus and Rabies Branch, Division of High-Consequence Pathogens and Pathology, National Center for Emerging and Zoonotic Infectious Diseases, Centers for Disease Control and Prevention, Atlanta, GA 30329, USA.
  • Costa NC; Disease Investigation Unit, Directorate of Animal Health and Veterinary Services, Patto, Panjim, Goa 403001, India.
  • Long NV; Vietnam Department of Animal Health, Hanoi 100000, Vietnam.
  • Minh PQ; Vietnam Department of Animal Health, Hanoi 100000, Vietnam.
  • Chuong VD; Vietnam Department of Animal Health, Hanoi 100000, Vietnam.
  • Tho ND; National Center for Veterinary Diseases, Hanoi 100000, Vietnam.
  • Thanh NT; Sub-Department of Animal Health, Phú Tho Province 35000, Vietnam.
  • Thin NX; Sub-Department of Animal Health, Phú Tho Province 35000, Vietnam.
  • Hanh NTH; Sub-Department of Animal Health, Phú Tho Province 35000, Vietnam.
  • Wambura G; Center for Global Health Research, Kenya Medical Research Institute, Nairobi 00100, Kenya.
  • Ade F; Center for Global Health Research, Kenya Medical Research Institute, Nairobi 00100, Kenya.
  • Mito O; Center for Global Health Research, Kenya Medical Research Institute, Nairobi 00100, Kenya.
  • Chuchu V; Center for Global Health Research, Kenya Medical Research Institute, Nairobi 00100, Kenya.
  • Muturi M; Department of Public Health, Pharmacology and Toxicology, University of Nairobi, Nairobi 00100, Kenya.
  • Mwatondo A; Zoonotic Disease Unit, Ministry of Health, Ministry of Agriculture, Livestock and Fisheries, Nairobi 00100, Kenya.
  • Hampson K; Zoonotic Disease Unit, Ministry of Health, Ministry of Agriculture, Livestock and Fisheries, Nairobi 00100, Kenya.
  • Thumbi SM; Institute of Biodiversity, Animal Health and Comparative Medicine, University of Glasgow, Glasgow G12 8QQ, UK.
  • Thomae BG; Center for Global Health Research, Kenya Medical Research Institute, Nairobi 00100, Kenya.
  • de Paz VH; University of Nairobi Institute of Tropical and Infectious Diseases, Nairobi 00100, Kenya.
  • Meneses S; Paul G. Allen School for Global Animal Health, Washington State University, Pullman, WA 99164, USA.
  • Munyua P; Ministry of Agriculture Livestock and Food, Guatemala City 01013, Guatemala.
  • Moran D; National Health Laboratory, MSPAS, Villa Nueva 01064, Guatemala.
  • Cadena L; National Health Laboratory, MSPAS, Villa Nueva 01064, Guatemala.
  • Gibson A; Division of Global Health Protection, Centers for Disease Control, Nairobi 00100, Kenya.
  • Wallace RM; University del Valle de Guatemala, Guatemala City 01015, Guatemala.
  • Pieracci EG; Division of Global Health Protection, Centers for Disease Control, Guatemala City 01001, Guatemala.
  • Li Y; The Roslin Institute and The Royal (Dick) School of Veterinary Studies, Division of Genetics and Genomics, The University of Edinburgh, Easter Bush Veterinary Centre, Roslin, Midlothian EH25 9RG, UK.
Viruses ; 12(11)2020 11 04.
Article in En | MEDLINE | ID: mdl-33158200
ABSTRACT
As countries with endemic canine rabies progress towards elimination by 2030, it will become necessary to employ techniques to help plan, monitor, and confirm canine rabies elimination. Sequencing can provide critical information to inform control and vaccination strategies by identifying genetically distinct virus variants that may have different host reservoir species or geographic distributions. However, many rabies testing laboratories lack the resources or expertise for sequencing, especially in remote or rural areas where human rabies deaths are highest. We developed a low-cost, high throughput rabies virus sequencing method using the Oxford Nanopore MinION portable sequencer. A total of 259 sequences were generated from diverse rabies virus isolates in public health laboratories lacking rabies virus sequencing capacity in Guatemala, India, Kenya, and Vietnam. Phylogenetic analysis provided valuable insight into rabies virus diversity and distribution in these countries and identified a new rabies virus lineage in Kenya, the first published canine rabies virus sequence from Guatemala, evidence of rabies spread across an international border in Vietnam, and importation of a rabid dog into a state working to become rabies-free in India. Taken together, our evaluation highlights the MinION's potential for low-cost, high volume sequencing of pathogens in locations with limited resources.
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Full text: 1 Database: MEDLINE Main subject: Rabies / Rabies virus / Sequence Analysis, DNA / Dog Diseases Type of study: Prognostic_studies Limits: Animals / Humans Country/Region as subject: Africa / America central / Asia / Guatemala Language: En Journal: Viruses Year: 2020 Type: Article Affiliation country: United States
Fulltext
Add to My VHL
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Full text: 1 Database: MEDLINE Main subject: Rabies / Rabies virus / Sequence Analysis, DNA / Dog Diseases Type of study: Prognostic_studies Limits: Animals / Humans Country/Region as subject: Africa / America central / Asia / Guatemala Language: En Journal: Viruses Year: 2020 Type: Article Affiliation country: United States