An outbreak of gastroenteritis by emerging norovirus GII.2[P16] in a kindergarten in Kota Kinabalu, Malaysian Borneo

Ahmed, Kamruddin; Dony, Jiloris Julian Frederick; Mori, Daisuke; Haw, Liaw Yun; Giloi, Nelbon; Jeffree, Mohammad Saffree; Iha, Hidekatsu

doi:10.1038/s41598-020-64148-4

Cited by 11 publications

(8 citation statements)

References 33 publications

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“…Human-to-human transmission of NoV is common, mainly by the fecal-oral route (particularly for the epidemic strain GII.4); although, spread may be enhanced by episodes of vomiting [59]. NoV can efficiently survive in the environment and resists freezing temperatures, heating to 60 • C, and disinfection with chlorine or alcohol-facilitating contamination of food, water, and inanimate surfaces [60]-eventually leading to outbreaks, especially in close settings as daycare centers, schools [46,61], hospitals, military camps, and cruise ships [41,62], among others. NoV is highly contagious due to its very low infectious dose; a single particle has an infection probability of 50%, although a doseresponse relationship has been noted, in which individuals exposed to higher numbers of viruses experience a higher infectious rate [34,47,61,63].…”

Section: Transmission and Sheddingmentioning

confidence: 99%

Norovirus: Facts and Reflections from Past, Present, and Future

Lucero

Matson²,

Ashkenazi

et al. 2021

Viruses

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Human Norovirus is currently the main viral cause of acute gastroenteritis (AGEs) in most countries worldwide. Nearly 50 years after the discovery of the “Norwalk virus” by Kapikian and colleagues, the scientific and medical community continue to generate new knowledge on the full biological and disease spectrum of Norovirus infection. Nevertheless, several areas remain incompletely understood due to the serious constraints to effectively replicate and propagate the virus. Here, we present a narrated historic perspective and summarize our current knowledge, including insights and reflections on current points of interest for a broad medical community, including clinical and molecular epidemiology, viral–host–microbiota interactions, antivirals, and vaccine prototypes. We also include a reflection on the present and future impacts of the COVID-19 pandemic on Norovirus infection and disease.

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Section: Transmission and Sheddingmentioning

confidence: 99%

Norovirus: Facts and Reflections from Past, Present, and Future

Lucero

Matson²,

Ashkenazi

et al. 2021

Viruses

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“…(c) The construction of a phylogenetic tree using MEGA 7.0 software. The analysis of the self-expansion was performed after 1,000 times of repeated sampling by the Neighbor-joining method 53 .…”

Section: Resultsmentioning

confidence: 99%

Isolation, identification, and whole genome sequence analysis of the alginate-degrading bacterium Cobetia sp. cqz5-12

Cheng

Yan

Xiao

et al. 2020

Sci Rep

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Alginate-degrading bacteria or alginate lyases can be used to oligomerize alginate. In this study, an alginate-degrading bacterium with high alginolytic activity was successfully screened by using Sargassum fusiforme sludge. When the strain was grown on a plate containing sodium alginate, the transparent ring diameter (D) was 2.2 cm and the ratio (D/d) of transparent ring diameter to colony diameter (d) was 8.8. After 36 h in culture at a temperature of 28 °C shaken at 150 r/min, the enzymatic activity of the fermentation supernatant reached 160 U/mL, and the enzymatic activity of the bacterial precipitate harvested was 2,645 U/mL. The strain was named Cobetia sp. cqz5-12. Its genome is circular in shape, 4,209,007 bp in size, with a 62.36% GC content. It contains 3,498 predicted coding genes, 72 tRNA genes, and 21 rRNA genes. The functional annotations for the coding genes demonstrated that there were 181 coding genes in the genome related to carbohydrate transport and metabolism and 699 coding genes with unknown functions. Three putative coding genes, alg2107, alg2108 and alg2112, related to alginate degradation were identified by analyzing the carbohydrate active enzyme (CAZy) database. Moreover, proteins Alg2107 and Alg2112 were successfully expressed and exhibited alginate lyase activity. Alginate is a kind of water-soluble acidic polysaccharide found on the cell walls of algae, such as Gigantophtha, Charcot algae, Laminaria japonica, and Sargassum fusiformis. It is formed by the random combination of beta-d-1,4-mannosuronic acid and alpha-l-1,4-gulosuronic acid 1, 2. Because of its high degree of polymerization, high molecular weight, and high viscosity, it not easily absorbed and utilized by the human body, which limits its potential applications 3. The oligomerization of alginate can widen the scope of its potential applications and results in more biological activities. The oligomeric alginate is called alginate oligosaccharide (AOS). AOS, a kind of functional oligosaccharide, exhibits a variety of properties such as increasing fruit quality 4 , and antioxidative 5 , anticoagulant 6 , and antineoplastic 7 potential. Moreover, AOS has broad application prospects in the fields of pharmaceuticals, functional food, and green agriculture. Nowadays, there are many ways to achieve alginate oligomerization. At present, it is recognized that the environmentally friendly and mildly efficient method of alginate oligomerization is to use alginate-degrading microorganisms or alginate lyase 8 extracted from microorganisms. Until now, scientists have isolated several strains of alginate-degrading microorganisms, including Cobetia sp. NAP1 9 , Microbulbifer mangrovi DD-13 T10 , Vibrio weizhoudaoensis M010 11 , Isoptericola halotolerans NJ-05 12 , V. splendidus 12B01 13 , Sphingomonas sp. A1 14 , Pseudoalteromonas sp. CY24 15 , etc. Some alginate lyase enzymes have also been isolated and purified from these strains 11-13, 15. With the improvement of sequencing technology and the dramatic reduction in sequencing costs, th...

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“…GII genogroup viruses are the most commonly detected in humans; they can be further divided into 27 confirmed genotypes and 37 P types. From the mid-1990s to 2014, GII.4 genotype and its new variants have caused about 70%−80% of all NoVassociated AGE outbreaks worldwide (3) (4)(5)(6). The occurrence of GII.2[P16] from sporadic to large-scale outbreaks suggested that the reemergence and sudden epidemic may be related to the change of viral biological properties, which led to stronger transmissive and infective ability.…”

Section: Genomic Feature and Genetic Diversity Of Novmentioning

confidence: 99%

“…GII.2[P16] recombinant NoV first appeared in Japan in 2008 and caused AGE outbreaks in Osaka at that time and then was occasionally detected in sporadic cases. In 2016, GII.2[P16] NoV reemerged in Guangdong Province, China, and rapidly became the main epidemic strain in Asian countries ( 4 - 6 ). The occurrence of GII.2[P16] from sporadic to large-scale outbreaks suggested that the reemergence and sudden epidemic may be related to the change of viral biological properties, which led to stronger transmissive and infective ability.…”

Section: Introductionmentioning

confidence: 99%

What is the Potential Cause for the Predominance of GII.2[P16] Norovirus in Acute Gastroenteritis Outbreaks in China?

Yu¹

2022

China CDC Weekly

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GII.2[P16] noroviruses (NoV) reemerged and rapidly became the main epidemic strain in acute gastroenteritis (AGE) outbreaks in Asian countries since 2016. The current GII.2 [P16] NoV showed the same antigenicity to the ones before 2016, but several unique amino acid substitutions existed in the RNA dependent RNA polymerase (RdRp) and other nonstructural proteins, and the viral load of the current GII.2[P16] NoV was higher than those of other genotypes, it was estimated that the viral replication ability may have improved. However, other genotypes, such as GII.1 and GII.3, also had recombination with the novel RdRp, were not prevalent in AGE-outbreaks; thus, it was inferred that the capsid proteins also played an important role in the enhanced replication process. The viral infection could also be affected by other factors, such as the population genetic background, the climate and environment, and people's lifestyles. Continued surveillance on genetic diversity and evolutionary pattern for the GII.2[P16] NoV is necessary. Potential Factor for the Reemergence of GII.2[P16] in ChinaThough the GII.2 genotype has been reported since the 1970s, it was only detected in sporadic cases and accounted for less than 2% of all NoV genotypes. GII.2[P16] recombinant NoV first appeared in Japan China CDC Weekly Chinese Center for Disease Control and Prevention CCDC Weekly / Vol. 4 / No. 2 27

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An outbreak of gastroenteritis by emerging norovirus GII.2[P16] in a kindergarten in Kota Kinabalu, Malaysian Borneo

Cited by 11 publications

References 33 publications

Norovirus: Facts and Reflections from Past, Present, and Future

Norovirus: Facts and Reflections from Past, Present, and Future

Isolation, identification, and whole genome sequence analysis of the alginate-degrading bacterium Cobetia sp. cqz5-12

What is the Potential Cause for the Predominance of GII.2[P16] Norovirus in Acute Gastroenteritis Outbreaks in China?

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