Panel. Painting, Passing, and Periodicals: Faulkner and Twentieth-Century African American Culture

Faulkner\u27s Visual Blues and the Paintings of William H. Johnson / Randall S. Wilhelm, Clemson University Passing Through Places: Movement, Travel, and the Passing Narrative in Faulkner\u27s Light in August and Chestnutt\u27s The House Behind the Cedars / Stephanie Tsank, University of Iowa If I Were a Negro : Faulkner and the Readers of Ebony Magazine / Eurie Dahn, College of Saint Ros

Characterization of a human H3N8 influenza virusResearch in context

Summary: Background: In 2022 and 2023, novel reassortant H3N8 influenza viruses infected three people, marking the first human infections with viruses of this subtype. Methods: Here, we generated one of these viruses (A/Henan/4-10CNIC/2022; hereafter called A/Henan/2022 virus) by using reverse genetics and characterized it. Findings: In intranasally infected mice, reverse genetics-generated A/Henan/2022 virus caused weight loss in all five animals (one of which had to be euthanized) and replicated efficiently in the respiratory tract. Intranasal infection of ferrets resulted in minor weight loss and moderate fever but no mortality. Reverse genetics-generated A/Henan/2022 virus replicated efficiently in the upper respiratory tract of ferrets but was not detected in the lungs. Virus transmission via respiratory droplets occurred in one of four pairs of ferrets. Deep-sequencing of nasal swab samples from inoculated and exposed ferrets revealed sequence polymorphisms in the haemagglutinin protein that may affect receptor-binding specificity. We also tested 90 human sera for neutralizing antibodies against reverse genetics-generated A/Henan/2022 virus and found that some of them possessed neutralizing antibody titres, especially sera from older donors with likely exposure to earlier human H3N2 viruses. Interpretation: Our data demonstrate that reverse genetics-generated A/Henan/2022 virus is a low pathogenic influenza virus (of avian influenza virus descent) with some antigenic resemblance to older human H3N2 viruses and limited respiratory droplet transmissibility in ferrets. Funding: This work was supported by the Japan Program for Infectious Diseases Research and Infrastructure (JP23wm0125002), and the Japan Initiative for World-leading Vaccine Research and Development Centers (JP233fa627001) from the Japan Agency for Medical Research and Development (AMED)

The mammalian midbody and midbody remnant are assembly sites for RNA and localized translation

International audienceLong ignored as a vestigial remnant of cytokinesis, the mammalian midbody (MB) is released post-abscission inside large extracellular vesicles called MB remnants (MBRs). Recent evidence suggests that MBRs can modulate cell proliferation and cell fate decisions. Here, we demonstrate that the MB matrix is the site of ribonucleoprotein assembly and is enriched in mRNAs that encode proteins involved in cell fate, oncogenesis, and pluripotency, which we are calling the MB granule. Both MBs and post-abscission MBRs are sites of spatiotemporally regulated translation, which is initiated when nascent daughter cells re-enter G1 and continues after extracellular release. MKLP1 and ARC are necessary for the localization and translation of RNA in the MB dark zone, whereas ESCRT-III is necessary to maintain translation levels in the MB. Our work reveals a unique translation event that occurs during abscission and within a large extracellular vesicle