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Showing below up to 50 results in range #151 to #200.

151. Late remdesivir treatment initiation partially protects African green monkeys from lethal Nipah virus infection (02:17, 7 February 2026)
152. Science. 2022 March 25; 375(6587): 1373–1378. (02:17, 7 February 2026)
153. Hendra and Nipah Infection: Pathology, Models and Potential Therapies (02:17, 7 February 2026)
154. Ephrin-B2 and ephrin-B3 as functional henipavirus receptors (02:17, 7 February 2026)
155. Henipavirus Receptor Usage and Tropism (02:17, 7 February 2026)
156. Potent monoclonal antibody–mediated neutralization of a divergent Hendra virus variant (02:17, 7 February 2026)
157. A recombinant VSV-vectored vaccine rapidly protects nonhuman primates against lethal Nipah virus disease (02:17, 7 February 2026)
158. Feline Morbillivirus: A Unique Pathogen Infecting Domestic Cats (02:17, 7 February 2026)
159. The Nature of Exposure Drives Transmission of Nipah Viruses from Malaysia and Bangladesh in Ferrets (02:17, 7 February 2026)
160. Aerosol exposure to intermediate size Nipah virus particles induces neurological disease in African green monkeys (02:17, 7 February 2026)
161. Nipah Virus Inhibitor Knowledgebase (NVIK): a combined evidence approach to prioritise small molecule inhibitors (02:17, 7 February 2026)
162. Development of a culture-independent whole-genome sequencing of Nipah virus using the MinION Oxford Nanopore platform (02:17, 7 February 2026)
163. Pathogenic Differences between Nipah Virus Bangladesh and Malaysia Strains in Primates: Implications for Antibody Therapy (02:17, 7 February 2026)
164. Super-spreaders of novel coronaviruses that cause SARS, MERS and COVID-19: a systematic review (02:17, 7 February 2026)
165. Evolution of Nipah Virus Infection: Past, Present, and Future Considerations (02:17, 7 February 2026)
166. Vertical Transfer of Humoral Immunity against Nipah Virus: A Novel Evidence from Bangladesh (02:17, 7 February 2026)
167. Inference of Nipah virus evolution, 1999–2015 (02:17, 7 February 2026)
168. From Protein to Pandemic: The Transdisciplinary Approach Needed to Prevent Spillover and the Next Pandemic (02:17, 7 February 2026)
169. Henipavirus Immune Evasion and Pathogenesis Mechanisms: Lessons Learnt from Natural Infection and Animal Models (02:17, 7 February 2026)
170. Inactivation Methods for Experimental Nipah Virus Infection (02:17, 7 February 2026)
171. Nipah Virus Infection Generates Ordered Structures in Cellulo (02:17, 7 February 2026)
172. First Genomic Evidence of a Henipa-like Virus in Brazil (02:17, 7 February 2026)
173. Animal Models for Henipavirus Research (02:17, 7 February 2026)
174. Structural Studies of Henipavirus Glycoproteins (02:17, 7 February 2026)
175. Surveillance for Nipah virus in Thailand's bat population (02:22, 7 February 2026)
176. Characterization of TheWe: Isolation and Phylogenetic Analysis of Nipah Virus from Pteropus vampyrus Bats (02:22, 7 February 2026)
177. Detection of possible Nipah virus infection in Rousettus leschenaultii and Pipistrellus Pipistrellus bats in Maharashtra, India (02:22, 7 February 2026)
178. The deadly drink: Nipah virus transmission through date palm sap, cultural practices and the evolution of behavioral interventions in Bangladesh over two decades (02:22, 7 February 2026)
179. Bats Without Borders: Long-Distance Movements and Implications for Disease Risk Management (02:22, 7 February 2026)
180. Human Exposure to Bats, Rodents and Monkeys in Bangladesh (02:22, 7 February 2026)
181. Detection of Nipah virus in Pteropus medius in 2019 outbreak from Ernakulam district, Kerala, India (02:22, 7 February 2026)
182. Serological and molecular analysis of henipavirus infections in synanthropic fruit bat and rodent populations in the Centre and North regions of Cameroon (2018–2020) (02:22, 7 February 2026)
183. Bats and viruses: a death-defying friendship (02:22, 7 February 2026)
184. Nipah Virus Transmission from Bats to Humans Associated with Drinking Traditional Liquor Made from Date Palm Sap, Bangladesh, 2011–2014 (02:22, 7 February 2026)
185. Nipah Virus Detection at Bat Roosts after Spillover Events, Bangladesh, 2012–2019 (02:22, 7 February 2026)
186. Nipah Virus Exposure in Domestic and Peridomestic Animals Living in Human Outbreak Sites, Bangladesh, 2013–2015 (02:22, 7 February 2026)
187. Nipah Virus Detection in Pteropus hypomelanus Bats, Central Java, Indonesia (02:23, 7 February 2026)
188. Nipah Virus Antibodies in Bats, the Philippines, 2013–2022 (02:23, 7 February 2026)
189. Patterns of foraging activity and fidelity in a southeast Asian flying fox (02:23, 7 February 2026)
190. Increased human-animal interface & emerging zoonotic diseases: An enigma requiring multi-sectoral efforts to address (02:23, 7 February 2026)
191. From Bat to Worse: The Pivotal Role of Bats for Viral Zoonosis (02:23, 7 February 2026)
192. Cat–wildlife interactions and zoonotic disease risk: a call for more and better community science data (02:23, 7 February 2026)
193. Severe zoonotic viruses carried by different species of bats and their regional distribution (02:23, 7 February 2026)
194. Disease control tools to secure animal and public health in a densely populated world (02:23, 7 February 2026)
195. Assessing the risk of Nipah virus establishment in Australian flying-foxes (02:23, 7 February 2026)
196. Trends in Bacterial Pathogens of Bats: Global Distribution and Knowledge Gaps (02:23, 7 February 2026)
197. Seroprevalence of Nipah virus and related paramyxoviruses in native frugivorous bats, Luzon, Philippines (02:23, 7 February 2026)
198. Major bat-borne zoonotic viral epidemics in Asia and Africa: A systematic review and meta-analysis (02:23, 7 February 2026)
199. Henipavirus zoonosis: outbreaks, animal hosts and potential new emergence (02:23, 7 February 2026)
200. Surveillance of Nipah virus in Pteropus medius of Kerala state, India, 2023 (02:23, 7 February 2026)