Impact of Annexin A2 on virus life cycles.

Due to the limited size of viral genomes, hijacking host machinery by the viruses taking place throughout the virus life cycle is inevitable for the survival and proliferation of the virus in the infected hosts. Recent reports indicated that Annexin A2 (AnxA2), a calcium- and lipid-binding cellular protein, plays an important role as a critical regulator in various steps of the virus life cycle. The multifarious AnxA2 functions in cells, such as adhesion, adsorption, endocytosis, exocytosis, cell proliferation and division, inflammation, cancer metastasis, angiogenesis, etc., are intimately related to the various clinical courses of viral infection. Ubiquitous expression of AnxA2 across multiple cell types indicates the broad range of susceptibility of diverse species of the virus to induce disparate viral disease in various tissues, and intracellular expression of AnxA2 in the cytoplasmic membrane, cytosol, and nucleus suggests the involvement of AnxA2 in the regulation of the different stages of various virus life cycles within host cells. However, it is yet unclear as to the molecular processes on how AnxA2 and the infected virus interplay to regulate virus life cycles and thereby the virus-associated disease courses, and hence elucidation of the molecular mechanisms on AnxA2-mediated virus life cycle will provide essential clues to develop therapeutics deterring viral disease.

A prospects tool in virus research: Analyzing the applications of organoids in virus studies.

Organoids have emerged as a powerful tool for understanding the biology of the respiratory, digestive, nervous as well as urinary system, investigating infections, and developing new therapies. This article reviews recent progress in the development of organoid and advancements in virus research. The potential applications of these models in studying virul infections, pathogenesis, and antiviral drug discovery are discussed.

ViralZone 2024 provides higher-resolution images and advanced virus-specific resources.

ViralZone (http://viralzone.expasy.org) is a knowledge repository for viruses that links biological knowledge and databases. It contains data on virion structure, genome, proteome, replication cycle and host-virus interactions. The new update provides better access to the data through contextual popups and higher resolution images in Scalable Vector Graphics (SVG) format. These images are designed to be dynamic and interactive with human viruses to give users better access to the data. In addition, a new coronavirus-specific resource provides regularly updated data on variants and molecular biology of SARS-CoV-2. Other virus-specific resources have been added to the database, particularly for HIV, herpesviruses and poxviruses.

Virus replication in the honey bee parasite, Varroa destructor.

IMPORTANCE: The parasitic mite Varroa destructor is a significant driver of worldwide colony losses of our most important commercial pollinator, the Western honey bee Apis mellifera. Declines in honey bee health are frequently attributed to the viruses that mites vector to honey bees, yet whether mites passively transmit viruses as a mechanical vector or actively participate in viral amplification and facilitate replication of honey bee viruses is debated. Our work investigating the antiviral RNA interference response in V. destructor demonstrates that key viruses associated with honey bee declines actively replicate in mites, indicating that they are biological vectors, and the host range of bee-associated viruses extends to their parasites, which could impact virus evolution, pathogenicity, and spread.

Stem cells hint at how bats live with viruses.

Research team hits on formula to create stem cells from tissue of adult bats.

Vírus e fissuras orofaciais: um histórico isolado e de associação / Viruses and orofacial clefts: an isolated and associational history / Virus y fisuras orofaciales: una historia aislada y asociativa

Os vírus são microrganismos comumente associados as doenças e infectam todos os seres vivos. Atuam de forma direta e indireta levando a pressão seletiva, com papel significativo e ainda em exploração no planeta. As fissuras orofaciais são anomalias congênitas de etiologia complexa e multifatorial, sendo as infecções virais durante a gestação um dos possíveis fatores etiológicos. A história da humanidade frente aos vírus e fissuras orofaciais de forma isolada é vasta, remontando a períodos antes de Cristo, seja por meio de leis para o controle de pragas e/ou por lendas de míticas criaturas deificadas e/ou demonizadas, cuja criação está fundamentada na Teoria Alegórica do surgimento das mitologias, demonstrando assim o interesse do ser humano e sua curiosidade em inovação e explicação destes assuntos. Considerando a relevância histórica, bem como a possível relação etiológica destes dois elementos, uma revisão da literatura foi realizada para apresentar a história mitológica e científica dos vírus e fissuras orofaciais, de forma isolada e associadas para fins de comparação. Para isso, foram utilizadas as bases PubMed/Medline, SciElo, LILACS e Portal Periódicos (CAPES) com os descritores: Virus, Anomalias/Anomalies, Virus and Anomalias/Virus and Anomalies, A History of viruses/História dos vírus, Virus and History/História and Virus, Virus and Myth/Virus and Mito, Anomalias and Mitos/Anomalies and Myths, Vampires and Virus/Vampiros and Virus. Enquanto o histórico mitológico é cheio de teorias contraditórias, o histórico cientifico acadêmico se revela coerente, porém resistente as novas áreas de atuação, não ponderando novas possibilidades e limitando a exploração científica, que só pôde ser alcançada nos séculos atuais. Quanto a associação, a linha de pesquisa relacionando vírus e fissuras orofaciais não possui nem meio século de existência, propiciando um grande campo a ser explorado e na mesma medida limitando os benefícios em prevenção que poderiam ser obtidos através destes estudos.

Viruses are microorganisms commonly associated with diseases that infect all living beings, they act directly and indirectly leading to selective pressure, their role on the planet is significant and still under exploration. Orofacial clefts are congenital anomalies that have a complex multifactorial etiology, with viral infections during pregnancy being one of the possible etiological factors. The history of humanity in the face of viruses and orofacial clefts in isolation is vast, dating back to periods before Christ, whether through laws for pest control and/or legends of mythical deified and/or demonized creatures, whose creation is fundamentalized in the Allegorical Theory of the emergence of mythologies, thus demonstrating the interest of human beings and their curiosity in innovation and explanation of these subjects. Considering the historical relevance, as well as the possible etiology relationship of these two elements, we carried out a literature review to present the mythological and scientific history of viruses and orofacial clefts, isolated and associated for comparison purposes. For this intent, the bases PubMed/Medline, SciElo, LILACS and Portal Periódicos (CAPES) were selected with the descriptors: A History of viruses/História dos vírus, Virus and History/História and Virus, Virus and Myth/Virus and Mito, Anomalias and Mitos/Anomalies and Myths, Vampires and Virus/Vampiros and Virus. While the mythological history is full of contradictory theories, the academic, scientific history proves to be consistent, but resistant to new areas of action, not considering new possibilities and limiting scientific exploration, which can only be achieved in the present centuries. As for the association, the line of research relating viruses and orofacial clefts does not even have half a century of existence, providing a large field to be explored and at the same time limiting the benefits of prevention that could be obtained through these studies.

Los virus son microorganismos comúnmente asociados a enfermedades que infectan a todos los seres vivos, actúan directa e indirectamente provocando presión selectiva, su papel en el planeta es significativo y aún en exploración. Las hendiduras orofaciales son anomalías congénitas que tienen una compleja etiología multifactorial, siendo las infecciones virales durante el embarazo uno de los posibles factores etiológicos. La historia de la humanidad frente a los virus y las hendiduras orofaciales de forma aislada es vasta, remontándose a períodos anteriores a Cristo, ya sea a través de leyes para el control de plagas y/o leyendas de criaturas míticas deificadas y/o demonizadas, cuya creación se fundamentaliza en la Teoría Alegórica del surgimiento de las mitologías, demostrando así el interés del ser humano y su curiosidad en la innovación y explicación de estos temas. Considerando la relevancia histórica, así como la posible relación etiológica de estos dos elementos, realizamos una revisión bibliográfica para presentar la historia mitológica y científica de los virus y las hendiduras orofaciales, aislados y asociados para fines de comparación. Para ello, se seleccionaron las bases PubMed/Medline, SciElo, LILACS y Portal Periódicos (CAPES) con los descriptores: A History of viruses/História dos vírus, Virus and History/História and Virus, Virus and Myth/Virus and Mito, Anomalias and Mitos/Anomalías y Mitos, Vampiros and Virus/Vampiros y Virus. Mientras que la historia mitológica está llena de teorías contradictorias, la historia académica, científica, se muestra coherente, pero resistente a nuevos campos de actuación, no considerando nuevas posibilidades y limitando la exploración científica, que sólo puede alcanzarse en los siglos actuales. En cuanto a la asociación, la línea de investigación que relaciona virus y hendiduras orofaciales no tiene ni medio siglo de existencia, proporcionando un gran campo a ser explorado y al mismo tiempo limitando los beneficios de prevención que podrían ser obtenidos a través de estos estudios.

Enteric viruses replicate in salivary glands and infect through saliva.

Enteric viruses like norovirus, rotavirus and astrovirus have long been accepted as spreading in the population through fecal-oral transmission: viruses are shed into feces from one host and enter the oral cavity of another, bypassing salivary glands (SGs) and reaching the intestines to replicate, be shed in feces and repeat the transmission cycle1. Yet there are viruses (for example, rabies) that infect the SGs2,3, making the oral cavity one site of replication and saliva one conduit of transmission. Here we report that enteric viruses productively and persistently infect SGs, reaching titres comparable to those in the intestines. We demonstrate that enteric viruses get released into the saliva, identifying a second route of viral transmission. This is particularly significant for infected infants, whose saliva directly transmits enteric viruses to their mothers' mammary glands through backflow during suckling. This sidesteps the conventional gut-mammary axis route4 and leads to a rapid surge in maternal milk secretory IgA antibodies5,6. Lastly, we show that SG-derived spheroids7 and cell lines8 can replicate and propagate enteric viruses, generating a scalable and manageable system of production. Collectively, our research uncovers a new transmission route for enteric viruses with implications for therapeutics, diagnostics and importantly sanitation measures to prevent spread through saliva.

Temporal Patterns of Bacterial and Viral Communities during Algae Blooms of a Reservoir in Macau.

Compositions of microbial communities associated with blooms of algae in a storage reservoir in Macau, China were investigated between 2013 and 2016. Algae were enumerated by visible light microscopy. Profiles of organisms in water were examined by 16S rRNA sequences and viral metagenomics, based on next generation sequencing. Results of 16S rRNA sequencing indicated that majority of the identified organisms were bacteria closely related to Proteobacteria, Cyanobacteria, Verrucomicrobia, Bacteroidetes, and Actinobacteria. Metagenomics sequences demonstrated that the dominant virus was Phycodnavirus, accounting for 70% of the total population. Patterns of relative numbers of bacteria in the microbial community and their temporal changes were determined through alpha diversity indices, principal coordinates analysis (PCoA), relative abundance, and visualized by Venn diagrams. Ways in which the bacterial and viral communities are influenced by various water-related variables were elucidated based on redundancy analysis (RDA). Relationships of the relative numbers of bacteria with trophic status in a reservoir used for drinking water in Macau, provided insight into associations of Phycodnavirus and Proteobacteria with changes in blooms of algae.

Perspective on taxonomic classification of uncultivated viruses.

Historically, virus taxonomy has been limited to describing viruses that were readily cultivated in the laboratory or emerging in natural biomes. Metagenomic analyses, single-particle sequencing, and database mining efforts have yielded new sequence data on an astounding number of previously unknown viruses. As metagenomes are relatively free of biases, these data provide an unprecedented insight into the vastness of the virosphere, but to properly value the extent of this diversity it is critical that the viruses are taxonomically classified. Inclusion of uncultivated viruses has already improved the process as well as the understanding of the taxa, viruses, and their evolutionary relationships. The continuous development and testing of computational tools will be required to maintain a dynamic virus taxonomy that can accommodate the new discoveries.