H5N1 highly pathogenic avian influenza virus isolated from conjunctiva of a whooper swan with neurological signs Dahkki Bui, Vuong N., Ogawa, Haruko, Ngo, Lai H., Baatartsogt, Tugsbaatar, Abao, Lary N. B., Tamaki, Shio, Saito, Keisuke, Watanabe, Yukiko, Runstadler, Jonathan, Imai, Kunitoshi

“…An H5N1 highly pathogenic avian influenza virus was isolated from conjunctiva of a whooper swan with neurological signs, which was captured during the latest H5N1 HPAI outbreak in Japan. …”
Viečča ollesdeavstta
Viečča ollesdeavstta

ANALISIS GENETIK GEN HEMAGLUTININ VIRUS AVIAN INFLUENZA SUBTIPE H5N1 ISOLAT LAMPUNG TAHUN 2008-2013 Dahkki SRIHANTO, EKO AGUS, Asmara, Widya

“…Allantois fluid was extracted to obtain RNA and the subtype identification of H5N1 was done by Reverse Transcription Polymerase Chain Reaction (RT-PCR) technique. …”

Analisis filogenetik gen neuraminidase dan fingerprint RAPD RT-PCR virus avian influenza subtipe H5N1 Dahkki , IRIANINGSIH, Sri Handayani, , Dr. drh. Aris Haryanto, M.Si

WHO Rapid Advice Guidelines for pharmacological management of sporadic human infection with avian influenza A (H5N1) virus. Dahkki Schünemann, H, Hill, SR, Kakad, M, Bellamy, R, Uyeki, T, Hayden, F, Yazdanpanah, Y, Beigel, J, Chotpitayasunondh, T, Del Mar, C, Farrar, J, Tran, T, Ozbay, B, Sugaya, N, Fukuda, K, Shindo, N, Stockman, L, Vist, G, Croisier, A, Nagjdaliyev, A, Roth, C, Thomson, G, Zucker, H, Oxman, A

“…Recent spread of avian influenza A (H5N1) virus to poultry and wild birds has increased the threat of human infections with H5N1 virus worldwide. …”

Cellular transcripts regulated during infectinos with highly pathogenic H5N1 avian influenza virus in 3 host systems. Dahkki Balasubramanian, Vinod R.M.T, Syed Hassan, Sharifah, Omar, Abdul Rahman, Mohamed, Maizan, M. Noor, Suriani, Mohamed, Ramlan, Othman, Iekhsan

“…CONCLUSION: The Gene Fishing™ technique has allowed for the first time, the isolation and identification of sequences of host cellular genes regulated during H5N1 virus infection. In this limited study, the differentially expressed genes in the three host systems were not identical, thus suggesting that their responses to the H5N1 infection may not share similar mechanisms and pathways.…”
Viečča ollesdeavstta

Interaction of recombinant Gallus gallus SEPT5 and brain proteins of H5N1-avian influenza virus-infected chickens Dahkki Khairat, Jasmine Elanie, Balasubramaniam, Vinod R. M. T., Othman, Iekhsan, Omar, Abdul Rahman, Syed Hassan, Sharifah

“…The involvement of septins in infectious viral disease pathogenesis has been demonstrated by the upregulation of SEPT5 protein and its mRNA in brain tissues of H5N1-infected chickens, thus, providing evidence for the potential importance of this protein in the pathogenesis of neurovirulence caused by the avian influenza virus. …”
Viečča ollesdeavstta

Preventive, safety and control measures against Avian Influenza A(H5N1) in occupationally exposed groups: A scoping review Dahkki Haydee Susana Catalan Saenz, Liliana Cruz-Ausejo

Fáttát: Viečča ollesdeavstta

Australia's first human case of H5N1 and the current H7 poultry outbreaks: implications for public health and biosecurity measures Dahkki Pawan Kumar, Ayush Sharma, Vasso Apostolopoulos, Abhay M. Gaidhane, Prakasini Satapathy

Viečča ollesdeavstta

Application of a Biologically Contained Reporter System To Study Gain-of-Function H5N1 Influenza A Viruses with Pandemic Potential Dahkki Eva E. Spieler, Eva Moritz, Silke Stertz, Benjamin G. Hale

Fáttát: “…H5N1…”
Viečča ollesdeavstta

Characterization of neurotropic HPAI H5N1 viruses with novel genome constellations and mammalian adaptive mutations in free-living mesocarnivores in Canada Dahkki Tamiru N. Alkie, Sherri Cox, Carissa Embury-Hyatt, Brian Stevens, Neil Pople, Margo J. Pybus, Wanhong Xu, Tamiko Hisanaga, Matthew Suderman, Janice Koziuk, Peter Kruczkiewicz, Hoang Hai Nguyen, Mathew Fisher, Oliver Lung, Cassidy N. G. Erdelyan, Orie Hochman, Davor Ojkic, Carmencita Yason, Maria Bravo-Araya, Laura Bourque, Trent K. Bollinger, Catherine Soos, Jolene Giacinti, Jennifer Provencher, Sarah Ogilvie, Amanda Clark, Robyn MacPhee, Glen J. Parsons, Hazel Eaglesome, Sayrah Gilbert, Kelsey Saboraki, Richard Davis, Alexandra Jerao, Matthew Ginn, Megan E.B. Jones, Yohannes Berhane

Fáttát: Viečča ollesdeavstta

禽流感H5N1亚型病毒感染BALB/c小鼠的疾病动物模型

Fáttát: Viečča ollesdeavstta

STUDY OF PATHOGENETIC FEATURES INFECTIOUS CAUSED BY HIGHLY PATHOGENIC INFLUENZA VIRUS A/H5N1 IN WILD DUCKS AND DOMESTIC CHICKEN Dahkki E. R. Abdullazyanova, A. V. Zajkovsmaya, L. V. Shestopalova, A. M. Shestopalov

Fáttát: Viečča ollesdeavstta

Wild bird mass mortalities in eastern Canada associated with the Highly Pathogenic Avian Influenza A(H5N1) virus, 2022 Dahkki Stephanie Avery‐Gomm, Tatsiana Barychka, Matthew English, Robert A. Ronconi, Sabina I. Wilhelm, Jean‐François Rail, Tabatha Cormier, Matthieu Beaumont, Campbell Bowser, Tori V. Burt, Sydney M. Collins, Steven Duffy, Jolene A. Giacinti, Scott Gilliland, Jean‐François Giroux, Carina Gjerdrum, Magella Guillemette, Kathryn E. Hargan, Megan Jones, Andrew Kennedy, Liam Kusalik, Stéphane Lair, Andrew Lang, Raphael A. Lavoie, Christine Lepage, Gretchen McPhail, William A. Montevecchi, Glen J. Parsons, Jennifer F. Provencher, Ishraq Rahman, Gregory J. Robertson, Yannick Seyer, Catherine Soos, Christopher R. E. Ward, Regina Wells, Jordan Wight

Fáttát: Viečča ollesdeavstta

Immunogenetic Factors Associated with Severe Respiratory Illness Caused by Zoonotic H1N1 and H5N1 Influenza Viruses Dahkki Jennifer Juno, Keith R. Fowke, Yoav Keynan

“…Following the 2009 H1N1 pandemic and ongoing sporadic avian-to-human transmission of H5N1 viruses, an emphasis has been placed on better understanding the determinants and pathogenesis of severe influenza infections. …”
Viečča ollesdeavstta

Effects of Water Models on Binding Affinity: Evidence from All-Atom Simulation of Binding of Tamiflu to A/H5N1 Neuraminidase Dahkki Trang Truc Nguyen, Man Hoang Viet, Mai Suan Li

“…The influence of water models SPC, SPC/E, TIP3P, and TIP4P on ligand binding affinity is examined by calculating the binding free energy ΔGbind of oseltamivir carboxylate (Tamiflu) to the wild type of glycoprotein neuraminidase from the pandemic A/H5N1 virus. ΔGbind is estimated by the Molecular Mechanic-Poisson Boltzmann Surface Area method and all-atom simulations with different combinations of these aqueous models and four force fields AMBER99SB, CHARMM27, GROMOS96 43a1, and OPLS-AA/L. …”
Viečča ollesdeavstta

Unveiling the role of long non-coding RNAs in chicken immune response to highly pathogenic avian influenza H5N1 infection Dahkki Thi Hao Vu, Chaeeun Kim, Anh Duc Truong, Jun-Mo Kim, Hyun S. Lillehoj, Yeong Ho Hong

Fáttát: Viečča ollesdeavstta

Reassortants of the Highly Pathogenic Influenza Virus A/H5N1 Causing Mass Swan Mortality in Kazakhstan from 2023 to 2024 Dahkki Kulyaisan T. Sultankulova, Takhmina U. Argimbayeva, Nurdos A. Aubakir, Arailym Bopi, Zamira D. Omarova, Aibarys M. Melisbek, Kobey Karamendin, Aidyn Kydyrmanov, Olga V. Chervyakova, Aslan A. Kerimbayev, Yerbol D. Burashev, Yermukhanmet T. Kasymbekov, Mukhit B. Orynbayev

“…Avian influenza viruses A/<i>Cygnus cygnus</i>/Karakol lake/01/2024(H5N1) and A/<i>Mute swan</i>/Karakol lake/02/2024(H5N1) isolated on 10 January 2024 received PB2, PB1, and NP from LPAIV, while A/<i>Mute swan</i>/Mangystau/9809/2023(H5N1) isolated on 26 December 2023 received PB1 and NP from LPAIV, indicating that the H5N1 viruses in this study are new reassortants. …”
Viečča ollesdeavstta

Identification of h5n1-specific t-cell responses in a high-risk cohort in Vietnam indicates the existence of potential asymptomatic infections Dahkki Powell, T, Fox, A, Peng, Y, Quynh Mai, L, Lien, V, Hang, N, Wang, L, Lee, L, Simmons, C, McMichael, A, Farrar, J, Askonas, B, Duong, T, Thai, P, Thu Yen, N, Rowland-Jones, S, Hien, N, Horby, P, Dong, T

“…We sought evidence of mild or asymptomatic H5N1 infection by examining H5N1-specific T-cell and antibody responses in a high-risk cohort in Vietnam.…”

Functional analysis of the influenza virus H5N1 nucleoprotein tail loop reveals amino acids that are crucial for oligomerization and ribonucleoprotein activities. Dahkki Chan, W, Ng, A, Robb, N, Lam, M, Chan, P, Au, S, Wang, J, Fodor, E, Shaw, P

“…The nucleoprotein is also essential for transcription and replication during the virus life cycle. In the H5N1 NP structure, the tail loop region is important for NP to form oligomers. …”

Analysis of H5N1 specific T cell responses in a high risk cohort in VietNam indicates possible asymptomatic infection Dahkki Powell, T, Fox, A, Lien, V, Hang, N, Mai, L, Mcmichael, A, Rowland-Jones, S, Horby, P, Dong, T