Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-4 (of 4 Records) |
Query Trace: Sessions WM[original query] |
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Detection and discrimination of influenza B Victoria lineage deletion variant viruses by real-time RT-PCR (preprint)
Shu B , Kirby MK , Warnes C , Sessions WM , Davis WG , Liu J , Wilson MM , Wentworth DE , Barnes JR . bioRxiv 2019 818617 Influenza B viruses have two genetically and antigenically distinct lineages, B/Victoria/2/1987-like (VIC) and B/Yamagata/16/1988-like (YAM) viruses, that emerged in the 1980s and co-circulate annually during the influenza season. During the 2016-2017 influenza season, influenza B/VIC lineage variant viruses emerged with two (K162N163) or three (K162N163D164) amino acid (AA) deletions in the hemagglutinin protein. Hemagglutination inhibition assays demonstrate that these deletion variant influenza B/VIC viruses are antigenically distinct from each other and from the progenitor B/VIC virus that lacks the deletion. Therefore, there are currently four antigenically distinct HA proteins expressed by influenza B co-circulating: B/YAM, B/VIC V1A (no deletion), B/VIC V1A.1 (two-AA deletion), and B/VIC V1A.2 and V1A.3 (three-AA deletion). The prevalence of these viruses differs across geographic regions, making it critical to have a sensitive, rapid diagnostic assay(s) that detect and distinguish these Influenza B variant viruses during surveillance. Here, we present a real time RT-PCR assay that targets the influenza B/VIC deletion region in the HA gene and detects and distinguishes the influenza B/VIC V1A, B/VIC V1A.1, B/VIC V1A.2 and B/VIC V1A.3 variant viruses, with no cross-reactivity. This assay can be run as a multiplex reaction, allowing for increased testing efficiency and reduced cost. Coupling this assay with the CDC Human Influenza Virus Real-Time RT-PCR Diagnostic Panel Influenza B Lineage Genotyping Kit results in rapid detection and characterization of circulating influenza B viruses. Having accurate and detailed surveillance information on these distinct Influenza B variant viruses will provide insight into the prevalence and geographic distribution and could aid in vaccine recommendations. |
Detection and discrimination of influenza B Victoria lineage deletion variant viruses by real-time RT-PCR.
Shu B , Kirby MK , Warnes C , Sessions WM , Davis WG , Liu J , Wilson MM , Lindstrom S , Wentworth DE , Barnes JR . Euro Surveill 2020 25 (41) BackgroundDuring the 2016/17 influenza season, influenza B/VIC lineage variant viruses emerged with two (K(162)N(163)) or three (K(162)N(163)D(164)) amino acid (aa) deletions in the haemagglutinin (HA) protein. There are currently five antigenically distinct HA proteins expressed by co-circulating influenza B viruses: B/YAM, B/VIC V1A (no deletion), B/VIC V1A-2DEL (2 aa deletion) and two antigenically distinguishable groups of B/VIC V1A-3DEL (3 aa deletion). The prevalence of these viruses differs across geographical regions, making it critical to have a sensitive, rapid diagnostic assay that detects and distinguishes these influenza B variant viruses during surveillance.AimOur objective was to develop a real-time RT-PCR (rRT-PCR) assay for detection and discrimination of influenza B/VIC lineage variant viruses.MethodsWe designed a diagnostic assay with one pair of conserved primers and three probes specific to each genetic group. We used propagated influenza B/VIC variant viruses and clinical specimens to assess assay performance.ResultsThis rRT-PCR assay detects and distinguishes the influenza B/VIC V1A, B/VIC V1A-2DEL, and B/VIC V1A-3DEL variant viruses, with no cross-reactivity. This assay can be run as a multiplex reaction, allowing for increased testing efficiency and reduced cost.ConclusionCoupling this assay with the Centers for Disease Control and Prevention's Human Influenza Virus Real-Time RT-PCR Diagnostic Panel Influenza B Lineage Genotyping Kit results in rapid detection and characterisation of circulating influenza B viruses. Detailed surveillance information on these distinct influenza B variant viruses will provide insight into their prevalence and geographical distribution and could aid in vaccine recommendations. |
Pandemic H1N1 influenza surveillance in Haiti, July-December 2009
Fitter DL , Freeman NM , Buteau J , Magloire R , Sessions WM , Guo L , Katz MA , Boncy J . Influenza Other Respir Viruses 2012 7 (5) 772-5 From June 2009 through December 2009, Haiti conducted sentinel surveillance for influenza. 499 samples were collected and tested using real-time RT-PCR. 197 (39.5%) were positive for influenza, including 95 (48%) pandemic (H1N1) 2009, 57 (29%) seasonal influenza A and 45 (23%) influenza B. The median age of pandemic (H1N1) 2009 cases was 21.7; two-thirds of pandemic (H1N1) 2009 cases were in patients aged 6 years - 35 years. Pandemic activity peaked in September and co-circulated with other influenza subtypes. The age distribution and seasonality of pandemic (H1N1) 2009 in Haiti were similar to other countries in the Caribbean region. |
Antigenic and genetic characteristics of swine-origin 2009 A(H1N1) influenza viruses circulating in humans
Garten RJ , Davis CT , Russell CA , Shu B , Lindstrom S , Balish A , Sessions WM , Xu X , Skepner E , Deyde V , Okomo-Adhiambo M , Gubareva L , Barnes J , Smith CB , Emery SL , Hillman MJ , Rivailler P , Smagala J , de Graaf M , Burke DF , Fouchier RA , Pappas C , Alpuche-Aranda CM , Lopez-Gatell H , Olivera H , Lopez I , Myers CA , Faix D , Blair PJ , Yu C , Keene KM , Dotson PD Jr , Boxrud D , Sambol AR , Abid SH , St George K , Bannerman T , Moore AL , Stringer DJ , Blevins P , Demmler-Harrison GJ , Ginsberg M , Kriner P , Waterman S , Smole S , Guevara HF , Belongia EA , Clark PA , Beatrice ST , Donis R , Katz J , Finelli L , Bridges CB , Shaw M , Jernigan DB , Uyeki TM , Smith DJ , Klimov AI , Cox NJ . Science 2009 325 (5937) 197-201 Since its identification in April 2009, an A(H1N1) virus containing a unique combination of gene segments from both North American and Eurasian swine lineages has continued to circulate in humans. The lack of similarity between the 2009 A(H1N1) virus and its nearest relatives indicates that its gene segments have been circulating undetected for an extended period. Its low genetic diversity suggests that the introduction into humans was a single event or multiple events of similar viruses. Molecular markers predictive of adaptation to humans are not currently present in 2009 A(H1N1) viruses, suggesting that previously unrecognized molecular determinants could be responsible for the transmission among humans. Antigenically the viruses are homogeneous and similar to North American swine A(H1N1) viruses but distinct from seasonal human A(H1N1). |
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