1. The evolution and transmission of epidemic GII.17 noroviruses
- Author
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Jiaqian Lao, Nuno R. Faria, Jing Lu, Changwen Ke, Oliver G. Pybus, Hui Li, Jinyan Lin, Jianpeng Xiao, Fen Yang, Huanying Zheng, Jayna Raghwani, Limei Sun, Tie Song, Tao Ni, Thomas A. Bowden, and Lin Fang
- Subjects
0301 basic medicine ,China ,Lineage (genetic) ,Genotype ,viruses ,Sequence Homology ,Biology ,medicine.disease_cause ,Virus ,Evolution, Molecular ,Major Articles and Brief Reports ,03 medical and health sciences ,fluids and secretions ,Disease Transmission, Infectious ,medicine ,Cluster Analysis ,Humans ,Immunology and Allergy ,Phylogeny ,Caliciviridae Infections ,Retrospective Studies ,Molecular Epidemiology ,Phylogenetic tree ,Transmission (medicine) ,Norovirus ,Genetic Variation ,Outbreak ,virus diseases ,Sequence Analysis, DNA ,New variant ,030104 developmental biology ,Infectious Diseases ,Evolutionary biology ,Africa ,Hong Kong ,RNA, Viral - Abstract
Background In recent decades, the GII.4 norovirus genotype has predominated in epidemics worldwide and been associated with an increased rate of evolutionary change. In 2014, a novel GII.17 variant emerged and persisted, causing large outbreaks of gastroenteritis in China and sporadic infections globally. The origin, evolution, and transmission history of this new variant are largely unknown. Methods We generated 103 full capsid and 8 whole-genome sequences of GII.17 strains collected between August 2013 and November 2015 in Guangdong, China. Phylogenetic analyses were performed by integrating our data with those for all publically available GII.17 sequences. Results The novel emergent lineage GII.17_Kawasaki_2014 most likely originated from Africa around 2001 and evolved at a rate of 5.6 × 10(-3) substitutions/site/year. Within this lineage, a new variant containing several important amino acid changes emerged around August 2013 and caused extensive epidemics in 2014-2015. The phylodynamic and epidemic history of the GII.17_Kawasaki lineage shows similarities with the pattern observed for GII.4 norovirus evolution. Virus movements from Hong Kong to neighboring coastal cities were frequently observed. Conclusions Our results provide new insights into GII.17 norovirus evolution and transmission and highlight the potential for a rare norovirus genotype to rapidly replace existing strains and cause local epidemics.