Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-10 (of 10 Records) |
Query Trace: Montmayeur AM[original query] |
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Emergence of novel norovirus GII.4 variant
Chhabra P , Tully DC , Mans J , Niendorf S , Barclay L , Cannon JL , Montmayeur AM , Pan CY , Page N , Williams R , Tutill H , Roy S , Celma C , Beard S , Mallory ML , Manouana GP , Velavan TP , Adegnika AA , Kremsner PG , Lindesmith LC , Hué S , Baric RS , Breuer J , Vinjé J . Emerg Infect Dis 2024 30 (1) 163-167 We detected a novel GII.4 variant with an amino acid insertion at the start of epitope A in viral protein 1 of noroviruses from the United States, Gabon, South Africa, and the United Kingdom collected during 2017-2022. Early identification of GII.4 variants is crucial for assessing pandemic potential and informing vaccine development. |
Infant antibody and B-cell responses following confirmed pediatric GII.17 norovirus infections functionally distinguish GII.17 genetic clusters
Strother CA , Brewer-Jensen PD , Becker-Dreps S , Zepeda O , May S , Gonzalez F , Reyes Y , McElvany BD , Averill AM , Mallory ML , Montmayeur AM , Costantini VP , Vinjé J , Baric RS , Bucardo F , Lindesmith LC , Diehl SA . Front Immunol 2023 14 1229724 Genogroup II (GII) noroviruses are a major cause of diarrheal disease burden in children in both high- and low-income countries. GII.17 noroviruses are composed of distinct genetic clusters (I, II, IIIa, and IIIb) and have shown potential for replacing historically more prevalent GII.4 strains, but the serological basis for GII.17 antigenic diversity has not been studied in children. Utilizing samples from a birth cohort, we investigated antibody and B-cell responses to GII.17 cluster variants in confirmed GII.17 infections in young children as well as demonstrated that the distinct genetic clusters co-circulate. Polyclonal serum antibodies bound multiple clusters but showed cluster-specific blockade activity in a surrogate virus neutralization assay. Antibodies secreted by immortalized memory B cells (MBCs) from an infant GII.17 case were highly specific to GII.17 and exhibited blockade activity against this genotype. We isolated an MBC-derived GII.17-specific Immunoglobulin A (IgA) monoclonal antibody called NVA.1 that potently and selectively blocked GII.17 cluster IIIb and recognized an epitope targeted in serum from cluster IIIb-infected children. These data indicate that multiple antigenically distinct GII.17 variants co-circulate in young children, suggesting retention of cluster diversity alongside potential for immune escape given the existence of antibody-defined cluster-specific epitopes elicited during infection. |
Comparison of Illumina MiSeq and the Ion Torrent PGM and S5 platforms for whole-genome sequencing of picornaviruses and caliciviruses (preprint)
Marine RL , Magana LC , Castro CJ , Zhao K , Montmayeur AM , Schmidt A , Diez-Valcarce M , Fan Ng TF , Vinje J , Burns CC , Allan Nix W , Rota PA , Oberste MS . bioRxiv 2019 705632 Next-generation sequencing is a powerful tool for virological surveillance. While Illumina® and Ion Torrent® sequencing platforms are used extensively for generating viral RNA genome sequences, there is limited data comparing different platforms. We evaluated the Illumina MiSeq, Ion Torrent PGM and Ion Torrent S5 platforms using a panel of sixteen specimens containing picornaviruses and human caliciviruses (noroviruses and sapoviruses). The specimens were processed, using combinations of three library preparation and five sequencing kits, to assess the quality and completeness of assembled viral genomes, and an estimation of cost per sample to generate the data was calculated. The choice of library preparation kit and sequencing platform was found to impact the breadth of genome coverage and accuracy of consensus viral genomes. The Ion Torrent S5 outperformed the older Ion Torrent PGM platform in data quality and cost, and generated the highest proportion of reads for enterovirus D68 samples. However, indels at homopolymer regions impacted the accuracy of consensus genome sequences. For lower throughput sequencing runs (i.e., Ion Torrent 510 or Illumina MiSeq Nano V2), the cost per sample was lower on the MiSeq platform, whereas with higher throughput runs (Ion Torrent 530 or Illumina MiSeq V2) the cost per sample was comparable. These findings suggest that the Ion Torrent S5 and Illumina MiSeq platforms are both viable options for genomic sequencing of RNA viruses, each with specific advantages and tradeoffs. |
Metagenomic sequencing generates the whole genomes of porcine rotavirus A, C, and H from the United States.
Hull JJA , Qi M , Montmayeur AM , Kumar D , Velasquez DE , Moon SS , Magaña LC , Betrapally N , Ng TFF , Jiang B , Marthaler D . PLoS One 2020 15 (12) e0244498 The genus Rotavirus comprises eight species, designated A to H, and two recently identified tentative species I in dogs and J in bats. Species Rotavirus A, B, C and H (RVA, RVB, RVC and RVH) have been detected in humans and animals. While human and animal RVA are well characterized and defined, complete porcine genome sequences in the GenBank are limited compared to human strains. Here, we used a metagenomic approach to sequence the 11 segments of RVA, RVC and RVH strains from piglets in the United States (US) and explore the evolutionary relations of these RV species. Metagenomics identified Astroviridae, Picornaviridae, Caliciviridae, Coronoviridae in samples MN9.65 and OK5.68 while Picobirnaviridae and Arteriviridae were only identified in sample OK5.68. Whole genome sequencing and phylogenetic analyses identified multiple genotypes with the RVA of strain MN9.65 and OK5.68, with the genome constellation of G5/G9-P[7]/P[13]-I5/I5- R1/R1-C1-M1-A8-N1-T7-E1/E1-H1 and G5/G9-P[6]/P[7]-I5-R1/R1-C1-M1-A8-N1-T1/T7-E1/E1-H1, respectively. The RVA strains had a complex evolutionary relationship with other mammalian strains. The RVC strain OK5.68 had a genome constellation of G9-P[6]-I1-R1-C5-M6-A5-N1-T1-E1-H1, and shared an evolutionary relationship with porcine strains from the US. The RVH strains MN9.65 and OK5.68 had the genome constellation of G5-P1-I1-R1-C1-M1-A5-N1-T1-E4-H1 and G5-P1-I1-R1-C1-M1-A5-N1-T1-E1-H1, indicating multiple RVH genome constellations are circulating in the US. These findings allow us to understand the complexity of the enteric virome, develop improved screening methods for RVC and RVH strains, facilitate expanded rotavirus surveillance in pigs, and increase our understanding of the origin and evolution of rotavirus species. |
CrAssphage as a novel tool to detect human fecal contamination on environmental surfaces and hands
Park GW , Ng TFF , Freeland AL , Marconi VC , Boom JA , Staat MA , Montmayeur AM , Browne H , Narayanan J , Payne DC , Cardemil CV , Treffiletti A , Vinjé J . Emerg Infect Dis 2020 26 (8) 1731-1739 CrAssphage is a recently discovered human gut-associated bacteriophage. To validate the potential use of crAssphage for detecting human fecal contamination on environmental surfaces and hands, we tested stool samples (n = 60), hand samples (n = 30), and environmental swab samples (n = 201) from 17 norovirus outbreaks for crAssphage by real-time PCR. In addition, we tested stool samples from healthy persons (n = 173), respiratory samples (n = 113), and animal fecal specimens (n = 68) and further sequenced positive samples. Overall, we detected crAssphage in 71.4% of outbreak stool samples, 48%-68.5% of stool samples from healthy persons, 56.2% of environmental swabs, and 60% of hand rinse samples, but not in human respiratory samples or animal fecal samples. CrAssphage sequences could be grouped into 2 major genetic clusters. Our data suggest that crAssphage could be used to detect human fecal contamination on environmental surfaces and hands. |
Comparison of Illumina MiSeq and the Ion Torrent PGM and S5 platforms for whole-genome sequencing of picornaviruses and caliciviruses.
Marine RL , Magana LC , Castro CJ , Zhao K , Montmayeur AM , Schmidt A , Diez-Valcarce M , Fan Ng TF , Vinje J , Burns CC , Allan Nix W , Rota PA , Oberste MS . J Virol Methods 2020 280 113865 Next-generation sequencing is a powerful tool for virological surveillance. While Illumina(R) and Ion Torrent(R) sequencing platforms are used extensively for generating viral RNA genome sequences, there is limited data comparing different platforms. The Illumina MiSeq, Ion Torrent PGM and Ion Torrent S5 platforms were evaluated using a panel of sixteen specimens containing picornaviruses and human caliciviruses (noroviruses and sapoviruses). The specimens were processed, using combinations of three library preparation and five sequencing kits, to assess the quality and completeness of assembled viral genomes, and an estimation of cost per sample to generate the data was calculated. The choice of library preparation kit and sequencing platform was found to impact the breadth of genome coverage and accuracy of consensus viral genomes. The Ion Torrent S5 510 chip runs produced more reads at a lower cost per sample than the highest output Ion Torrent PGM 318 chip run, and generated the highest proportion of reads for enterovirus D68 samples. However, indels at homopolymer regions impacted the accuracy of consensus genome sequences. For lower throughput sequencing runs (i.e., Ion Torrent 510 and Illumina MiSeq Nano V2), the cost per sample was lower on the MiSeq platform, whereas with higher throughput runs (Ion Torrent 530 and Illumina MiSeq V2) there is less of a difference in the cost per sample between the two sequencing platforms ($5.47-$10.25 more per sample for an Ion Torrent 530 chip run when multiplexing 24 samples). These findings suggest that the Ion Torrent S5 and Illumina MiSeq platforms are both viable options for genomic sequencing of RNA viruses, each with specific advantages and tradeoffs. |
Emerging Novel GII.P16 Noroviruses Associated with Multiple Capsid Genotypes.
Barclay L , Cannon JL , Wikswo ME , Phillips AR , Browne H , Montmayeur AM , Tatusov RL , Burke RM , Hall AJ , Vinje J . Viruses 2019 11 (6) Noroviruses evolve by antigenic drift and recombination, which occurs most frequently at the junction between the non-structural and structural protein coding genomic regions. In 2015, a novel GII.P16-GII.4 Sydney recombinant strain emerged, replacing the predominance of GII.Pe-GII.4 Sydney among US outbreaks. Distinct from GII.P16 polymerases detected since 2010, this novel GII.P16 was subsequently detected among GII.1, GII.2, GII.3, GII.10 and GII.12 viruses, prompting an investigation on the unique characteristics of these viruses. Norovirus positive samples (n = 1807) were dual-typed, of which a subset (n = 124) was sequenced to yield near-complete genomes. CaliciNet and National Outbreak Reporting System (NORS) records were matched to link outbreak characteristics and case outcomes to molecular data and GenBank was mined for contextualization. Recombination with the novel GII.P16 polymerase extended GII.4 Sydney predominance and increased the number of GII.2 outbreaks in the US. Introduction of the novel GII.P16 noroviruses occurred without unique amino acid changes in VP1, more severe case outcomes, or differences in affected population. However, unique changes were found among NS1/2, NS4 and VP2 proteins, which have immune antagonistic functions, and the RdRp. Multiple polymerase-capsid combinations were detected among GII viruses including 11 involving GII.P16. Molecular surveillance of protein sequences from norovirus genomes can inform the functional importance of amino acid changes in emerging recombinant viruses and aid in vaccine and antiviral formulation. |
Complete Genome Sequences of Mumps and Measles Virus Isolates from Three States in the United States.
Magana LC , Espinosa A , Marine RL , Ng TFF , Castro CJ , Montmayeur AM , Hacker JK , Scott S , Whyte T , Bankamp B , Oberste MS , Rota PA . Genome Announc 2017 5 (33) We report here the full coding sequence of nine paramyxovirus genomes, including two full-length mumps virus genomes (genotypes G and H) and seven measles virus genomes (genotypes B3 and D4, D8, and D9), from respiratory samples of patients from California, Virginia, and Alabama obtained between 2010 and 2014. |
High-Throughput Next Generation Sequencing of Polioviruses.
Montmayeur AM , Ng TF , Schmidt A , Zhao K , Magana L , Iber J , Castro CJ , Chen Q , Henderson E , Ramos E , Shaw J , Tatusov RL , Dybdahl-Sissoko N , Endegue-Zanga MC , Adeniji JA , Oberste MS , Burns CC . J Clin Microbiol 2016 55 (2) 606-615 Poliovirus (PV) is currently targeted for worldwide eradication and containment. Sanger-based sequencing of the VP1 capsid region is the current standard method for PV surveillance; however, the whole genome sequence is sometimes needed for higher resolution global surveillance. In this study, we optimized whole genome sequencing protocols for poliovirus isolates and FTA cards using NGS, aiming for high sequence coverage, efficiency, and throughput. We found that DNase treatment of poliovirus RNA followed by random RT, amplification, and the Nextera XT DNA Library Preparation Kit produced significantly better results than other preparations. Average viral reads per total reads, a measurement of efficiency, is as high as 84.2% +/- 15.6%; PV genomes covering >99-100% of the reference length were obtained and validated with Sanger sequencing. A total of 52 PV genomes were generated, multiplexing as many as 64 samples in a single Illumina MiSeq run. This high-throughput, sequence-independent NGS approach can facilitate the detection of a diverse range of PV, especially for those in vaccine-derived polioviruses (VDPV), circulating VDPV, or immunodeficiency-related VDPV. In contrast to previous studies on other viruses, our results showed that filtration and nuclease treatment did not produce discernable increases in sequencing efficiency of PV isolates. However, DNase treatment after nucleic acid extraction to remove host DNA significantly improved sequencing results. This NGS method has been successfully implemented to generate PV genomes for molecular epidemiology of the most recent PV isolates. Additionally, the ability to obtain full PV genomes from FTA cards will aid in facilitating global poliovirus surveillance. |
Genomic Sequence of the First Porcine Rotavirus Group H Strain in the United States.
Hull JJ , Marthaler D , Rossow S , Ng TF , Montmayeur AM , Magana L , Moon SS , Jiang B . Genome Announc 2016 4 (2) The genomic sequence of a rotavirus group H was identified in the intestine of a diarrheal pig in the United States, designated RVH/Pig-wt/USA/MN9.65/2008/GxP[x]. |
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