Piezo1-directed neutrophil extracellular traps regulate macrophage differentiation during influenza virus infection by Yuexin Wang, Qiuli Yang, Yingjie Dong, Likun Wang, Zhiyuan Zhang, Ruiying Niu, Yufei Wang, Yujing Bi, Guangwei Liu

“…Our studies provide critical insight into the role of neutrophil-based mechanical regulation of immunopathology in directing macrophage lineage commitment during the response to influenza virus infection.…”
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Comparison of the Infectivity and Transmission of Contemporary Canine and Equine H3N8 Influenza Viruses in Dogs by Heidi L. Pecoraro, Susi Bennett, Kristina Garretson, Ayshea M. Quintana, Katharine F. Lunn, Gabriele A. Landolt

“…Phylogenetic analyses indicate that canine influenza viruses (CIVs) (H3N8) evolved from contemporary equine influenza virus (EIV). …”
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Novel H16N3 avian influenza viruses isolated from migratory gulls in China in 2023 by Peng Peng, Peng Peng, Peng Peng, Jinyan Shen, Wenjun Shi, Jing Guo, Mengjing Wang, Wenxi Li, Zhiqin Yue, Xiaohong Sun, Mengdi Guan, Lili Liu, Hongke Xu, Yujiao Xie, Anran Ren, Mingfeng Liu, Wenqiang Liu, Zhibin Zhang, Zhibin Zhang, Zhishu Xiao, Zhishu Xiao, Xuyong Li

Subjects: “…avian influenza viruses…”
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Research Note: Establishment of vector system harboring duck RNA polymerase I promoter for avian influenza virus by Yunyueng Jang, Yoon-Gi Baek, Yu-Na Lee, Ra Mi Cha, Yun-Chan Choi, Min-Ji Park, Youn-Jeong Lee, Eun-Kyoung Lee

“…Reverse genetics (RG) systems are extensively utilized to investigate the characteristics of influenza viruses and develop vaccines, predominantly relying on human RNA polymerase I (pol I). …”
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T4 Phage Displaying Dual Antigen Clusters Against H3N2 Influenza Virus Infection by Shenglong Liu, Mengzhou Lin, Xin Zhou

“…Background: The current H3N2 influenza subunit vaccine exhibits weak immunogenicity, which limits its effectiveness in preventing and controlling influenza virus infections. Methods: In this study, we aimed to develop a T4 phage-based nanovaccine designed to enhance the immunogenicity of two antigens by displaying the HA1 and M2e antigens of the H3N2 influenza virus on each phage nanoparticle. …”
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Three Types of Broadly Reacting Antibodies against Influenza B Viruses Induced by Vaccination with Seasonal Influenza Viruses by Daisuke Hirano, Nobuko Ohshima, Ritsuko Kubota-Koketsu, Ayami Yamasaki, Gene Kurosawa, Yoshinobu Okuno, Shunji Yoshida, Yoshikazu Kurosawa

“…We analyzed the antibody (Ab) repertoire against influenza B viruses induced by vaccination with seasonal influenza viruses in one individual who had never been vaccinated until 2009. …”
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Testing of chickens experimentally infected with A/H9N2 avian influenza virus isolates for their immune responses by O. S. Osipova, M. A. Volkova, S. V. Frolov, D. B. Andreychuk, I. A. Chvala

“…Data on tests of chickens for their immune responses to infection with low pathogenic А/Н9N2 avian influenza virus isolates belonging to Y-280 and G1 genetic lines are presented in the paper. …”
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Cross-protection against homo and heterologous influenza viruses via intranasal administration of an HA chimeric multiepitope nanoparticle vaccine by Yongqiang Zhao, Jia Liu, Chun Peng, Shuangshuang Guo, Bo Wang, Longping Chen, Yating Wang, Haiwen Tang, Liming Liu, Qi Pan, Shiren Li, Jingyu Wang, Dongni Yang, Enqi Du

Subjects: “…Influenza virus…”
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FluKB: A Knowledge-Based System for Influenza Vaccine Target Discovery and Analysis of the Immunological Properties of Influenza Viruses by Christian Simon, Ulrich J. Kudahl, Jing Sun, Lars Rønn Olsen, Guang Lan Zhang, Ellis L. Reinherz, Vladimir Brusic

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CaMKII-dependent non-canonical RIG-I pathway promotes influenza virus propagation in the acute-phase of infection by Shinichiro Hama, Miho Watanabe-Takahashi, Hiroki Nishimura, Jumpei Omi, Masakazu Tamada, Takashi Saitoh, Katsumi Maenaka, Yuta Okuda, Aoi Ikegami, Asami Kitagawa, Koudai Furuta, Kana Izumi, Eiko Shimizu, Takashi Nishizono, Makoto Fujiwara, Tomohiro Miyasaka, Shigeo Takamori, Hiroshi Takayanagi, Keizo Nishikawa, Toshihiko Kobayashi, Noriko Toyama-Sorimachi, Makoto Yamashita, Toshiya Senda, Takatsugu Hirokawa, Haruhiko Bito, Kiyotaka Nishikawa

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Decitabine Increases the Transcription of <i>RIG-I</i> Gene to Suppress the Replication of Feline Calicivirus and Canine Influenza Virus by Shaotang Ye, Zhen Wang, Aolei Chen, Ying Chen, Gaoming Lou, Qingmei Xie, Gang Lu, Shoujun Li

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Global avian influenza situation (2019–2022). Host range expansion asevidence of high pathogenicity avian influenza virus evolution by M. V. Zhiltsova, T. P. Akimova, A. V. Varkentin, M. N. Mitrofanova, A. V. Mazneva, V. P. Semakina, E. S. Vystavkina

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GGCX promotes Eurasian avian-like H1N1 swine influenza virus adaption to interspecies receptor binding by Jiahui Zou, Meijun Jiang, Rong Xiao, Huimin Sun, Hailong Liu, Thomas Peacock, Shaoyu Tu, Tong Chen, Jinli Guo, Yaxin Zhao, Wendy Barclay, Shengsong Xie, Hongbo Zhou

“…Abstract The Eurasian avian-like (EA) H1N1 swine influenza virus (SIV) possesses the capacity to instigate the next influenza pandemic, owing to its heightened affinity for the human-type α-2,6 sialic acid (SA) receptor. …”
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Isolation and examination of A/H5N1 avian influenza virus that caused disease outbreaks in Altai Krai in 2014 by I. A. Chvala, A. V. Andriyasov, N. G. Zinyakov, D. A. Altunin, V. Yu. Sosipatorova

“…Laboratory tests allowed isolation and identification of highly pathogenic A/H5N1 avian influenza virus. Molecular and biological properties of the virus were examined; typical clinical signs, post-mortem lesions and disease character in chicks were described.…”
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Isoleucine at position 137 of haemagglutinin acts as a mammalian adaptation marker of H9N2 avian influenza virus by Weiwei Ma, Chenyang Ren, Lin Shi, Bo Meng, Yali Feng, Ying Zhang

Subjects: “…Avian influenza virus…”
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Molecular epidemiological analysis of Influenza viruses in Influenza-like illness cases: a retrospective study in Chongqing Hi-Tech Zone, China (2021–2024) by Wei Cai, Yuhang Deng, Pan Xu, Jianjiang Xue

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The novel H10N3 avian influenza virus acquired airborne transmission among chickens: an increasing threat to public health by Xiaoquan Wang, Huiyan Yu, Yahao Ma, Pinghu Zhang, Xiyue Wang, Jianyu Liang, Xiuling Zhang, Ruyi Gao, Xiaolong Lu, Wenhao Yang, Yu Chen, Min Gu, Jiao Hu, Xiaowen Liu, Shunlin Hu, Daxin Peng, Xian Qi, Changjun Bao, Kaituo Liu, Xiufan Liu

Subjects: “…avian influenza virus…”
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ANALYSIS OF GENETIC CHARACTERISTICS OF INFLUENZA VIRUS A/CHICKEN/CHELYABINSK/30/2019 H9N2 ISOLATED IN CHELYABINSK OBLAST by N. G. Zinyakov, Щю S. Osipova, P. B. Akshalova, V. Yu. Sosipatorova, A. V. Andriyasov, D. B. Andreychuk, I. A. Chvala

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RESULTS OF EXPERIMENTAL INFECTION OF TURKEYS WITH A/DUCK/ALTAI/469/14 H5N1 STRAIN OF AVIAN INFLUENZA VIRUS by V. Yu. Sosipatorova, D. A. Altunin, I. A. Chvala, N. S. Mudrak, D. B. Andreychuk

“…Immunohistochemical analysis showed the greatest distribution of the influenza virus antigen in the cerebral endothelium, cerebellar Purkinje neurons, acinar cells of the pancreas and in myocardiocytes of the heart. …”
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Human ANP32A/B are SUMOylated and utilized by avian influenza virus NS2 protein to overcome species-specific restriction by Liuke Sun, Xing Guo, Mengmeng Yu, Xue-Feng Wang, Huiling Ren, Xiaojun Wang

“…Abstract Human ANP32A/B (huANP32A/B) poorly support the polymerase activity of avian influenza viruses (AIVs), thereby limiting interspecies transmission of AIVs from birds to humans. …”
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