Chelsea Cereghino scite author profile

Reverse genetics systems are a critical tool in combating emerging viruses by enabling a better understanding of the genetic mechanisms by which they cause disease. Traditional cloning approaches are fraught with difficulties due to the bacterial toxicity of many viral sequences. Many attempts have been made to develop a simplified workflow to produce a simple-to-use infectious clone without the concerns of host toxicity; however, none offers the advantages of bacterial cloning without the various disadvantages. This paper demonstrates a novel in vitro workflow that leverages gene synthesis and replication cycle reaction—an innovative technology that reconstitutes the bacterial replication machinery in a tube—to develop a supercoiled infectious clone plasmid that is easy to rescue. Using this workflow, we developed two infectious clones, one of a low passage dengue virus serotype 2 isolate (PUO-218) and the Washington strain of SARS-CoV-2, which behaved similarly to their respective parental viruses. Furthermore, we generated a medically relevant mutant of SARS-CoV-2, Spike D614G. These results indicate that this novel in vitro workflow is a viable method to generate and manipulate infectious clones, specifically for viruses that are notoriously difficult for traditional bacterial-based cloning methods. This work represents a paradigm shift in producing infectious clones and lowers the barrier of entry for scientists to develop such tools.

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The E2 glycoprotein holds key residues for Mayaro virus adaptation to the urban Aedes aegypti mosquito

Roesch

Cereghino

Carrau

et al. 2022

Preprint

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Adaptation to mosquito vectors suited for transmission in urban settings is a major driver in the emergence of arboviruses. To better anticipate future emergence events, it is crucial to assess their potential to adapt to new vector hosts. In this work, we used two different experimental evolution approaches to study the adaptation process of an emerging alphavirus, Mayaro virus (MAYV), to Aedes aegypti, an urban mosquito vector of many arboviruses. We identified E2-T179N as a key mutation increasing MAYV replication in insect cells and enhancing transmission by live Aedes aegypti. In contrast, this mutation decreased viral replication and binding in human fibroblasts, a primary cellular target of MAYV in humans. We also showed that MAYV E2-T179N was attenuated in vivo in a mouse model. We then used structural and experimental analyses to show that MAYV E2-T179N bound less efficiently to human cells, though the decrease in replication or binding was not mediated through interaction with one of the host receptors, Mxra8. When this mutation was introduced in the closely related chikungunya virus, which has caused major outbreaks globally in the past two decades, we observed increased replication in both human and insect cells, suggesting E2 position 179 is an important determinant of alphavirus host-adaptation, although in a virus-specific manner. Collectively, these results indicate that adaptation at the T179 residue in MAYV E2 may result in increased vector competence – but coming at the cost of optimal replication in humans – and may represent a first step towards a future emergence event.Author SummaryMosquito-borne viruses must replicate in both mosquito and vertebrate hosts to be maintained in nature successfully. When viruses that are typically transmitted by forest dwelling mosquitoes enter urban environments due to deforestation or travel, they must adapt to urban mosquito vectors to transmit effectively. For mosquito-borne viruses, the need to also replicate in a vertebrate host like humans constrains this adaptation process. Towards understanding how the emerging alphavirus, Mayaro virus, might adapt to transmission by the urban mosquito vector, Aedes aegypti, we used natural evolution approaches to identify several viral mutations that impacted replication in both mosquito and vertebrate hosts. We show that a single mutation in the receptor binding protein increased transmission by Aedes aegypti but simultaneously reduced replication and disease in a mouse model, suggesting that this mutation alone is unlikely to be maintained in a natural transmission cycle between mosquitoes and humans. Understanding the adaptive potential of emerging viruses is critical to preventing future pandemics.

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De Novo Assembly and Annotation of 11 Diverse Shrub Willow (Salix) Genomes Reveals Novel Gene Organization in Sex-Linked Regions

Hyden

Feng

Yates

et al. 2023

IJMS

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Poplar and willow species in the Salicaceae are dioecious, yet have been shown to use different sex determination systems located on different chromosomes. Willows in the subgenus Vetrix are interesting for comparative studies of sex determination systems, yet genomic resources for these species are still quite limited. Only a few annotated reference genome assemblies are available, despite many species in use in breeding programs. Here we present de novo assemblies and annotations of 11 shrub willow genomes from six species. Copy number variation of candidate sex determination genes within each genome was characterized and revealed remarkable differences in putative master regulator gene duplication and deletion. We also analyzed copy number and expression of candidate genes involved in floral secondary metabolism, and identified substantial variation across genotypes, which can be used for parental selection in breeding programs. Lastly, we report on a genotype that produces only female descendants and identified gene presence/absence variation in the mitochondrial genome that may be responsible for this unusual inheritance.

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The E2 glycoprotein holds key residues for Mayaro virus adaptation to the urban Aedes aegypti mosquito

et al. 2023

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