Evolutionary dynamics of the human ABO gene, Hum Genet, vol.124, pp.123-135, 2008. ,
The Carbohydrate-Active EnZymes database (CAZy): an expert resource for glycogenomics, Nucl Acid Res, vol.37, pp.233-238, 2009. ,
Structural basis for the recognition of blood group trisaccharides by norovirus, J Virol, vol.81, pp.5949-5957, 2007. ,
Rapid emergence and predominance of a broadly recognizing and fast-evolving norovirus GII.17 variant in late, Nat Commun, vol.6, p.10061, 2014. ,
Crystallography of a Lewis-binding norovirus, elucidation of strain-specificity to the polymorphic human histo-blood group antigens, PLoS Pathog, vol.7, p.1002152, 2011. ,
Updated classification of norovirus genogroups and genotypes, J Gen Virol, pp.1393-1406, 2019. ,
Atomic resolution structural characterisation of recognition of histo-blood group antigens by Norwalk virus, Proc Natl Acad Sci, vol.105, pp.9175-9180, 2008. ,
Blood groups in infection and host susceptibility, Clin Microbiol Rev, vol.28, pp.801-870, 2015. ,
Human norovirus transmission and evolution in a changing world, Nat Rev Microbiol, vol.14, pp.421-454, 2016. ,
Qualitative and quantitative analysis of the binding of GII.4 norovirus variants onto human blood group antigens, J Virol, vol.85, pp.4057-4070, 2011. ,
, Rotaviruses. Virus Research, vol.190, pp.75-96, 2014.
Evidence that RNA Viruses Drove Adaptive Introgression between Neanderthals and Modern Humans, Cell, vol.175, pp.360-371, 2018. ,
A natural history of FUT2 polymorphism in humans, Mol Biol Evol, vol.26, pp.1993-2003, 2009. ,
Rotavirus vaccines: successes and challenges, The Journal of infection, vol.68, 2014. ,
Crystal structures of GII.10 and GII.12 norovirus protruding domains in complex with histo-blood group antigens reveal details for a potential site of vulnerability, J Virol, vol.85, pp.6687-7388, 2011. ,
Cell attachment protein VP8* of a human rotavirus specifically interacts with A-type histo-blood group antigen, Nature, vol.485, pp.256-265, 2012. ,
Glycan recognition in globally dominant human rotaviruses, Nat Commun, vol.9, p.2631, 2018. ,
Human susceptibility and resistance to Norwalk virus infection, Nat Med, vol.9, pp.548-553, 2003. ,
Global, regional, and national causes of child mortality: an updated systematic analysis for 2010 with time trends since, Lancet, vol.379, pp.2151-2161, 2000. ,
Rotavirus VP8*: phylogeny, host range, and interaction with histo-blood group antigens, J Virol, vol.86, pp.9899-910, 2012. ,
Glycan specificity of P[19] rotavirus and comparison with those of related P genotypes, J Virol, vol.90, pp.9983-9996, 2016. ,
Multistep entry of rotavirus into cells: a Versaillesque dance, Trends Microbiol, vol.12, pp.271-279, 2004. ,
The Gal?1,3Gal?1,4GlcNAc-R (?-Gal) epitope: A carbohydrate of unique evolution and clinical relevance, Biochem Biophys Acta, vol.1780, pp.75-88, 2008. ,
, GII.4 Human Norovirus: Surveying the Antigenic Landscape, vol.11, p.177, 2019.
Norwalk virus binds to histo-blood group antigens on gastro-duodenal epithelial cells of secretor individuals, Gastroenterology, vol.122, pp.1967-1977, 2002. ,
VP6-sequence-based cutoff values as a criterion for rotavirus species demarcation, Arch Virol, vol.157, pp.1177-82, 2012. ,
Are human P[14] rotavirus strains the result of interspecies transmissions from sheep or other ungulates that belong to the mammalian order Artiodactyla?, J Virol, vol.83, pp.2917-2946, 2009. ,
, Steep rise in norovirus cases and emergence of a new recombinant strain GII.P16-GII, vol.2, 2016.
Host genetic factors affect susceptibility to norovirus infections in Burkina Faso, PLoS One, vol.8, p.69557, 2013. ,
Both Lewis and Secretor Status Mediate Susceptibility to Rotavirus Infections in a Rotavirus Genotype Dependent Manner, Clin Infect Dis, vol.59, pp.1567-1573, 2014. ,
Genetic susceptibility to human norovirus infection: an update, Viruses, vol.11, p.226, 2019. ,
Neofunctionalization of the Sec1 alpha1,2fucosyltransferase paralogue in leporids contributes to glycan polymorphism and resistance to rabbit hemorrhagic disease virus, PLoS Pathog, vol.11, p.1004759, 2015. ,
Polymorphism of the human ABO-Secretor locus (FUT2) in four populations in Asia: indication of distinct Asian subpopulations, Ann Hum Genet, vol.65, pp.429-437, 2001. ,
BGMUT: NCBI dbRBC database of allelic variations of genes encoding antigens of blood group systems, Nucleic Acids Res, vol.40, pp.1023-1032, 2012. ,
Structural Adaptations of Norovirus GII.17/13/21 Lineage through Two Distinct Evolutionary Paths, J Virol, vol.93, pp.1655-1673, 2018. ,
, Human Immunology through the Lens of Evolutionary Genetics. Cell, vol.177, pp.184-199, 2019.
Blood groups in man, 1975. ,
Diversity in rotavirus-host glycan interactions: a "sweet spectrum, Cell Mol Gastroenterol Hepatol, vol.12, pp.263-273, 2016. ,
The Impact of Rotavirus Vaccines on Genotype Diversity: A Comprehensive Analysis of 2 Decades of Australian Surveillance Data, J Infect Dis, vol.218, pp.546-554, 2018. ,
Noroviruses and histo-blood groups: the impact of common host genetic polymorphisms on virus transmission and evolution, Rev Med Virol, vol.23, pp.355-366, 2013. ,
Human norovirus interactions with histo-blood group antigens and human milk oligosaccharides, J Virol, vol.90, pp.5855-5859, 2016. ,
Ancestry runs deeper than blood: The evolutionary history of ABO points to cryptic variation of functional importance, Bioessays, vol.35, pp.862-867, 2013. ,
The ABO blood group is a transspecies polymorphism in primates, Proc Natl Acad Sci, vol.109, pp.18493-18498, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-00956369
Structural analysis of determinants of histo-blood group antigen binding specificity in genogroup I noroviruses, J Virol, vol.88, pp.6168-6180, 2014. ,
Infection-associated FUT2 (fucosyltransferase 2) genetic variation and impact on functionality assessed by in vivo studies, Glycoconj J, vol.27, pp.61-68, 2010. ,
Structural Evolution of the Emerging 2014-2015 GII.17 Noroviruses, J Virol, vol.90, pp.2710-2715, 2015. ,
Human noroviruses' fondness for histoblood group antigens, J Virol, vol.89, pp.2024-2040, 2015. ,
Binding specificity of P[8] VP8* proteins of rotavirus vaccine strains with histo-blood group antigens, Virology, vol.495, pp.129-135, 2016. ,
Rotavirus infection and histo-blood group antigens in the children hospitalized with diarrhoea in China, Clin Microbiol Infect, vol.22, pp.740-741, 2016. ,
Human Group C Rotavirus VP8*s Recognize Type A Histo-Blood Group Antigens as Ligands, J Virol, vol.92, pp.442-460, 2018. ,
Norovirus-host interaction: Multi-selections by human histo-blood group antigens, Trends Microbiol, vol.19, pp.382-388, 2011. ,
Histo-blood group antigens: a common niche for norovirus and rotavirus, Expert Rev Mol Med, vol.16, p.5, 2014. ,
Changes in Rotavirus Genotypes before and after Vaccine Introduction: a Multicenter, Prospective Observational Study in Three Areas of Japan, Jpn J Infect Dis, vol.70, pp.448-452, 2017. ,
Global, regional, and national estimates of rotavirus mortality in children <5 years of age, Clin Infect Dis, vol.62, pp.96-105, 2000. ,
Rotavirus Vaccination and the Global Burden of Rotavirus Diarrhea Among Children Younger Than 5 Years, JAMA Pediatr, vol.172, pp.958-965, 2018. ,
Long-term evolution of the CAZY glycosyltransferase 6 (ABO) gene family from fishes to mammals: a birth-and-death evolution model, Glycobiology, vol.17, pp.516-528, 2007. ,
Association between norovirus and rotavirus infection and histo-blood group antigen types in Vietnamese children, Journal of clinical microbiology, vol.52, pp.1366-1374, 2014. ,
A General Model of Negative Frequency Dependent Selection Explains Global Patterns of Human ABO Polymorphism, PLoS One, vol.10, p.125003, 2015. ,
Molecular basis of P[6] and P[8] major human rotavirus VP8* domain interactions with histo-blood group antigens, 2019. ,
Genetic susceptibility to rotavirus gastroenteritis and vaccine effectiveness in Taiwanese children, Sci Rep, vol.7, p.6412, 2017. ,
The alphaGal epitope of the histo-blood group antigen family is a ligand for bovine norovirus Newbury2 expected to prevent cross-species prevention, PLoS Pathog, vol.5, p.1000504, 2009. ,
Emerging OP354-Like P[8] Rotaviruses Have Rapidly Dispersed from Asia to Other Continents, Mol Biol Evol, vol.32, pp.2060-71, 2015. ,
An outbreak caused by GII.17 norovirus with a wide spectrum of HBGA-associated susceptibility. Sci Rep 5: 17687. arc indicate partial genetic susceptibility, 2015. ,