Elisabeth Heylen1, Mark Zeller1, Max Ciarlet2, Jody Lawrence2, Duncan Steele3, Marc Van Ranst1, Jelle Matthijnssens1. 1. Department of Microbiology and Immunology, Laboratory of Clinical and Epidemiological Virology, KU Leuven-University of Leuven, Rega Institute for Medical Research, Belgium. 2. Vaccines-Clinical Research Department, Merck, Kenilworth, New Jersey. 3. Vaccines and Immunization, PATH, Seattle, Washington.
Abstract
BACKGROUND: P[6] rotaviruses have been circulating with a high prevalence in African and, to a more limited extent, Asian countries, but they have not been highly prevalent in other parts of the world. METHODS: To investigate the genomic relationship between African and Asian human P[6] rotaviruses and P[4] and P[8] rotaviruses circulating worldwide, we sequenced 39 P[6] strains, collected in Ghana, Mali, Kenya and Bangladesh, providing the largest data set of P[6] rotavirus genomes isolated in low-income countries or anywhere else in the world that has been published thus far. RESULTS: Overall, the data indicate that the genetic backbone of human P[6] strains from the low-income countries are similar to those of P[4] or P[8] strains circulating worldwide. CONCLUSIONS: The observation that gene segment 4 is the main differentiator between human P[6] and non-P[6] strains suggests that the VP4 spike protein is most likely one of the main reasons preventing the rapid spread of P[6] strains to the rest of the world despite multiple introductions. These observations reinforce previous findings about the receptor specificity of P[6] rotavirus strains.
BACKGROUND:P[6] rotaviruses have been circulating with a high prevalence in African and, to a more limited extent, Asian countries, but they have not been highly prevalent in other parts of the world. METHODS: To investigate the genomic relationship between African and Asian humanP[6] rotaviruses and P[4] and P[8] rotaviruses circulating worldwide, we sequenced 39 P[6] strains, collected in Ghana, Mali, Kenya and Bangladesh, providing the largest data set of P[6] rotavirus genomes isolated in low-income countries or anywhere else in the world that has been published thus far. RESULTS: Overall, the data indicate that the genetic backbone of humanP[6] strains from the low-income countries are similar to those of P[4] or P[8] strains circulating worldwide. CONCLUSIONS: The observation that gene segment 4 is the main differentiator between humanP[6] and non-P[6] strains suggests that the VP4 spike protein is most likely one of the main reasons preventing the rapid spread of P[6] strains to the rest of the world despite multiple introductions. These observations reinforce previous findings about the receptor specificity of P[6] rotavirus strains.
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