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2024-11-22 21:51:13
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Dudin GA, Aziz IM, Alzayed RM, Ahmed A, Hussain T,. Genetic Diversity and Evolutionary Kinetics of Influenza A Virus H3N2 Subtypes Circulating in Riyadh, Saudi Arabia. Vaccines (Basel). 2023 Mar 20;11(3):702.  Abstract  
submitted by kickingbird at Apr, 1, 2023 from Vaccines (Basel). 2023 Mar 20;11(3):702 (via https://www.mdpi.com/2076-393X/11/3/702)
Presence of a large foreign workforce and the annual gathering of people for pilgrimage from around the globe have significantly contributed to the emergence and diversity of respiratory viruses in Saudi ...

Dubovitskiy N, Derko A, Sobolev I, Prokopyeva E, M. Virological and Genetic Characterization of the Unusual Avian Influenza H14Nx Viruses in the Northern Asia. Viruses. 2023 Mar 11;15(3):734.  Abstract  
submitted by kickingbird at Apr, 1, 2023 from Viruses. 2023 Mar 11;15(3):734 (via https://www.mdpi.com/1999-4915/15/3/734)
Wild aquatic birds are generally identified as a natural reservoir of avian influenza viruses (AIVs), where a high diversity of subtypes has been detected. Some AIV subtypes are considered to have relatively ...

Hufnagel DE, Young KM, Arendsee ZW, Gay LC, Cacere. Characterizing a century of genetic diversity and contemporary antigenic diversity of N1 neuraminidase in influenza A virus from North American swine. Virus Evol. 2023 Feb 28;9(1):vead015.  Abstract  
submitted by kickingbird at Apr, 1, 2023 from Virus Evol. 2023 Feb 28;9(1):vead015 (via https://academic.oup.com/ve/article/9/1/vead015/7059557)
Influenza A viruses (IAVs) of the H1N1 classical swine lineage became endemic in North American swine following the 1918 pandemic. Additional human-to-swine transmission events after 1918, and a spillover ...

Plancarte M, Kovalenko G, Baldassano J, Ramírez AL. Human influenza A virus H1N1 in marine mammals in California, 2019. PLoS One. 2023 Mar 30;18(3):e0283049.  Abstract  
submitted by kickingbird at Apr, 1, 2023 from PLoS One. 2023 Mar 30;18(3):e0283049 (via https://journals.plos.org/plosone/article?id=10.1371/journal)
From 2011-2018, we conducted surveillance in marine mammals along the California coast for influenza A virus (IAV), frequently detecting anti-influenza antibodies and intermittently detecting IAV. In spring ...

Spackman E, Pantin-Jackwood MJ, Lee SA, Prosser D. The pathogenesis of a 2022 North American highly pathogenic clade 2.3.4.4b H5N1 avian influenza virus in mallards ( Anas platyrhynchos). Avian Pathol. 2023 Mar 31:1-28.  Abstract  
submitted by kickingbird at Apr, 1, 2023 from Avian Pathol. 2023 Mar 31:1-28 (via https://www.tandfonline.com/doi/abs/10.1080/03079457.2023.21)
Highly pathogenic (HP) avian influenza viruses (AIVs) of the clade 2.3.4.4 goose/Guangdong/1996 H5 lineage continue to be a problem in poultry and wild birds in much of the world. The recent incursion ...

Carnegie L, Hasan M, Mahmud R, Hoque MA, Debnath N. H9N2 avian influenza virus dispersal along Bangladeshi poultry trading networks. Virus Evol. 2023 Feb 25;9(1):vead014.  Abstract  
submitted by kickingbird at Mar, 30, 2023 from Virus Evol. 2023 Feb 25;9(1):vead014 (via https://academic.oup.com/ve/article/9/1/vead014/7057897)
Avian influenza virus subtype H9N2 is endemic in Bangladesh's poultry population. The subtype affects poultry production and poses a potential zoonotic risk. Insufficient understanding of how the poultry ...

Zhou J, Qiao ML, Jahejo AR, Han XY, Wang P, Wang Y. Effect of Avian Influenza Virus subtype H9N2 on the expression of complement-associated genes in chicken erythrocytes. Br Poult Sci. 2023 Mar 20..  Abstract  
submitted by kickingbird at Mar, 21, 2023 from Br Poult Sci. 2023 Mar 20. (via https://www.tandfonline.com/doi/abs/10.1080/00071668.2023.21)
The H9N2 subtype avian influenza virus can infect both chickens and humans. Previous studies have reported a role for erythrocytes in immunity. However, the role of H9N2 against chicken erythrocytes and ...

Wang Y, Wang M, Zhang H, Zhao C, Zhang Y, Shen J,. Prevalence, evolution, replication and transmission of H3N8 avian influenza viruses isolated from migratory birds in eastern China from 2017 to 2021. Emerg Microbes Infect. 2023 Dec;12(1):2184178.  Abstract  
submitted by kickingbird at Mar, 15, 2023 from Emerg Microbes Infect. 2023 Dec;12(1):2184178 (via https://www.tandfonline.com/doi/full/10.1080/22221751.2023.2)
The continued evolution and emergence of novel influenza viruses in wild and domestic animals poses an increasing public health risk. Two human cases of H3N8 avian influenza virus infection in China in ...

Bin NR, Prescott SL, Horio N, Wang Y, Chiu IM, Lib. An airway-to-brain sensory pathway mediates influenza-induced sickness. Nature. 2023 Mar 8.  Abstract  
submitted by kickingbird at Mar, 13, 2023 from Nature. 2023 Mar 8 (via https://www.nature.com/articles/s41586-023-05796-0)
Pathogen infection causes a stereotyped state of sickness that involves neuronally orchestrated behavioural and physiological changes1,2. On infection, immune cells release a 'storm' of cytokines and other ...

Siegers JY, Ferreri L, Eggink D, Veldhuis Kroeze E. Evolution of highly pathogenic H5N1 influenza A virus in the central nervous system of ferrets. PLoS Pathog. 2023 Mar 10;19(3):e1011214.  Abstract  
submitted by kickingbird at Mar, 13, 2023 from PLoS Pathog. 2023 Mar 10;19(3):e1011214 (via https://journals.plos.org/plospathogens/article?id=10.1371/j)
Central nervous system (CNS) disease is the most common extra-respiratory tract complication of influenza A virus infections in humans. Remarkably, zoonotic highly pathogenic avian influenza (HPAI) H5N1 ...

Ishida H, Murakami S, Kamiki H, Matsugo H, Katayam. Generation of a recombinant temperature-sensitive influenza D virus. Sci Rep. 2023 Mar 7;13(1):3806.  Abstract  
submitted by kickingbird at Mar, 10, 2023 from Sci Rep. 2023 Mar 7;13(1):3806 (via https://www.nature.com/articles/s41598-023-30942-z)
Influenza D virus (IDV) is a causative agent of the bovine respiratory disease complex (BRDC), which is the most common and costly disease affecting the cattle industry. For developing a candidate vaccine ...

Cao L, Lu Y, Xie C, Chen Y, Liang L, Zhou T, Zeng. Emerging triple-reassortant influenza C virus with household-associated infection during an influenza A(H3N2) outbreak, China, 2022. Emerg Microbes Infect. 2023 Dec;12(1):2175593.  Abstract  
submitted by kickingbird at Mar, 10, 2023 from Emerg Microbes Infect. 2023 Dec;12(1):2175593 (via https://www.tandfonline.com/doi/full/10.1080/22221751.2023.2)
Recent research have shown that influenza C virus (ICV) has a possible higher clinical impact than previously thought. But knowledge about ICV is limited compared with influenza A and B viruses, due to ...

Tammiranta N, Isomursu M, Fusaro A, Nylund M, Noki. Highly pathogenic avian influenza A (H5N1) virus infections in wild carnivores connected to mass mortalities of pheasants in Finland. Infect Genet Evol. 2023 Mar 6:105423.  Abstract  
submitted by kickingbird at Mar, 10, 2023 from Infect Genet Evol. 2023 Mar 6:105423 (via https://www.sciencedirect.com/science/article/pii/S156713482)
Highly pathogenic avian influenza (HPAI) has caused widespread mortality in both wild and domestic birds in Europe during 2020-2022. Virus types H5N8 and H5N1 have dominated the epidemic. Isolated spill-over ...

Delima GK, Ganti K, Holmes KE, Shartouny JR, Lowen. Influenza A virus coinfection dynamics are shaped by distinct virus-virus interactions within and between cells. PLoS Pathog. 2023 Mar 2;19(3):e1010978.  Abstract  
submitted by kickingbird at Mar, 6, 2023 from PLoS Pathog. 2023 Mar 2;19(3):e1010978 (via https://journals.plos.org/plospathogens/article?id=10.1371/j)
When multiple viral populations propagate within the same host environment, they often shape each other's dynamics. These interactions can be positive or negative and can occur at multiple scales, from ...

Taylor KY, Agu I, José I, M?ntynen S, Campbell AJ,. Influenza a virus reassortment is strain dependent. PLoS Pathog. 2023 Mar 1;19(3):e1011155.  Abstract  
submitted by kickingbird at Mar, 4, 2023 from PLoS Pathog. 2023 Mar 1;19(3):e1011155 (via https://journals.plos.org/plospathogens/article?id=10.1371/j)
RNA viruses can exchange genetic material during coinfection, an interaction that creates novel strains with implications for viral evolution and public health. Influenza A viral genetic exchange can occur ...

Chon I, Saito R, Kyaw Y, Aye MM, Setk S, Phyu WW,. Whole-Genome Analysis of Influenza A(H3N2) and B/Victoria Viruses Detected in Myanmar during the COVID-19 Pandemic in 2021. Viruses. 2023 Feb 20;15(2):583.  Abstract  
submitted by kickingbird at Mar, 1, 2023 from Viruses. 2023 Feb 20;15(2):583 (via https://www.mdpi.com/1999-4915/15/2/583)
An influenza circulation was observed in Myanmar between October and November in 2021. Patients with symptoms of influenza-like illness were screened using rapid diagnostic test (RDT) kits, and 147/414 ...

Tochetto C, Junqueira DM, Anderson TK, Gava D, Haa. Introductions of Human-Origin Seasonal H3N2, H1N2 and Pre-2009 H1N1 Influenza Viruses to Swine in Brazil. Viruses. 2023 Feb 19;15(2):576..  Abstract  
submitted by kickingbird at Mar, 1, 2023 from Viruses. 2023 Feb 19;15(2):576. (via https://www.mdpi.com/1999-4915/15/2/576)
In South America, the evolutionary history of influenza A virus (IAV) in swine has been obscured by historically low levels of surveillance, and this has hampered the assessment of the zoonotic risk of ...

Rademan R, Geldenhuys M, Markotter W. Detection and Characterization of an H9N2 Influenza A Virus in the Egyptian Rousette Bat in Limpopo, South Africa. Viruses. 2023 Feb 10;15(2):498.  Abstract  
submitted by kickingbird at Mar, 1, 2023 from Viruses. 2023 Feb 10;15(2):498 (via https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9958621/)
In recent years, bats have been shown to host various novel bat-specific influenza viruses, including H17N10 and H18N11 in the Americas and the H9N2 subtype from Africa. Rousettus aegyptiacus (Egyptian ...

Ortiz L, Geiger G, Ferreri L, Moran D, Mendez D, G. Blue-Winged Teals in Guatemala and Their Potential Role in the Ecology of H14 Subtype Influenza a Viruses. Viruses. 2023 Feb 9;15(2):483.  Abstract  
submitted by kickingbird at Mar, 1, 2023 from Viruses. 2023 Feb 9;15(2):483 (via https://www.mdpi.com/1999-4915/15/2/483)
Wild aquatic birds are considered the natural hosts of 16 HA (H1-H16) and 9 NA (N1-N9) subtypes of influenza A viruses (FLUAV) found in different combinations. H14 FLUAVs are rarely detected in nature. ...

Begum JA, Hossain I, Nooruzzaman M, King J, Chowdh. Experimental Pathogenicity of H9N2 Avian Influenza Viruses Harboring a Tri-Basic Hemagglutinin Cleavage Site in Sonali and Broiler Chickens. Viruses. 2023 Feb 7;15(2):461.  Abstract  
submitted by kickingbird at Mar, 1, 2023 from Viruses. 2023 Feb 7;15(2):461 (via https://www.mdpi.com/1999-4915/15/2/461)
Low-pathogenic avian influenza (LPAI) H9N2 virus is endemic in Bangladesh, causing huge economic losses in the poultry industry. Although a considerable number of Bangladeshi LPAI H9N2 viruses have been ...

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