,
,
,
, , pp.4-2012
,
,
,
,
,
,
,
,
,
,
, , pp.4-2012
,
,
,
,
,
, GII.P16-GII.2/Egletons-E15509
, , vol.2
, , vol.2
, , vol.2
, , vol.2, p.15585
, , vol.2
, , vol.2
, , vol.16, p.682551
, , vol.5, p.397156
, , vol.13, p.529741
Prevalence and genetic diversity of enteric viruses in children with diarrhea in Ougadougou, PLoS One, vol.11, issue.4, p.27092779, 2016. ,
An automated genotyping tool for enteroviruses and noroviruses, J Clin Virol, vol.51, issue.2, p.21514213, 2011. ,
Emergence of a new recombinant Sydney 2012 norovirus variant in Denmark, Euro Surveill, vol.18, issue.25, p.23806295, 2012. ,
A norovirus intervariant GII.4 recombinant in Victoria, Euro Surveill, vol.21, issue.39, 2016. ,
Steep rise in norovirus cases and emergence of a new recombinant strain GII.P16-GII.2, Germany, winter 2016, Euro Surveill, vol.22, issue.4, p.28181902, 2017. ,
Norovirus illness is a global problem: emergence and spread of norovirus GII.4 variants, J Infect Dis, vol.200, issue.5, 2001. ,
Novel surveillance network for norovirus gastroenteritis outbreaks, United States, Emerg Infect Dis, vol.17, issue.8, p.21801614, 2011. ,
Indications for worldwide increased norovirus activity associated with emergence of a new variant of genotype II.4, late 2012, Euro Surveill, vol.18, issue.1, p.23305715, 2013. ,
,
, , pp.4-2012
,
,
,
,
,
, , pp.4-2012
,
,
,
,
,
,
,
,
,
,
,
,
, , vol.4, p.76716
, , vol.20, p.424333
, , vol.8, p.195848
, , vol.9, p.38599
, , vol.14, p.130761
, , vol.22, p.83780
, , vol.16, p.502010
, , vol.13, p.113106
, , vol.17, p.983218
, , vol.5, p.277607
, GII.P16-GII.2/Egletons-E15509
, , vol.2
, , vol.2
, , vol.2
, , vol.2
, , vol.2
, , vol.2, p.15585
, The number of substitutions per site is indicated by the scale bar. Bootstrap values were calculated for 500 replicates and are indicated at each node when ? 50%. French norovirus strains from this study are labelled as follows: full and empty circles, respectively, for GII.P16-GII.4 and GII.4 strains probably bearing a GII.P16 genotype; full and empty triangles, respectively, for GII.P16-GII.2 and GII.2 strains probably bearing a GII.P16 genotype, Phylogeny was reconstructed using the maximum-likelihood method implemented in MEGA6 [11] with the Kimura 2-parameter substitution model (i.e. best nucleotide substitution model for the dataset)
Emergence of a new GII.17 norovirus variant in patients with acute gastroenteritis in, Euro Surveill, vol.20, issue.24, 2014. ,
Evidence for recombination between pandemic GII.4 norovirus strains New Orleans 2009 and Sydney, J Clin Microbiol, vol.51, issue.11, pp.3855-3862, 2012. ,
MEGA6: Molecular Evolutionary Genetics Analysis version 6.0, Mol Biol Evol, vol.30, issue.12, pp.2725-2734, 2013. ,
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