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1. A pangenome graph reference of 30 chicken genomes allows genotyping of large and complex structural variants

Author

Rice, Edward S., Alberdi, Antton, Alfieri, James, Athrey, Giridhar, Balacco, Jennifer R., Bardou, Philippe, Blackmon, Heath, Charles, Mathieu, Cheng, Hans H., Fedrigo, Olivier, Fiddaman, Steven R., Formenti, Giulio, Frantz, Laurent A. F., Gilbert, M. Thomas P., Hearn, Cari J., Jarvis, Erich D., Klopp, Christophe, Marcos, Sofia, Mason, Andrew S., Velez-Irizarry, Deborah, Xu, Luohao, and Warren, Wesley C.

Published
2023
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2. Genomic insights into the secondary aquatic transition of penguins

Author

Cole, Theresa L., Zhou, Chengran, Fang, Miaoquan, Pan, Hailin, Ksepka, Daniel T., Fiddaman, Steven R., Emerling, Christopher A., Thomas, Daniel B., Bi, Xupeng, Fang, Qi, Ellegaard, Martin R., Feng, Shaohong, Smith, Adrian L., Heath, Tracy A., Tennyson, Alan J. D., Borboroglu, Pablo García, Wood, Jamie R., Hadden, Peter W., Grosser, Stefanie, Bost, Charles-André, Cherel, Yves, Mattern, Thomas, Hart, Tom, Sinding, Mikkel-Holger S., Shepherd, Lara D., Phillips, Richard A., Quillfeldt, Petra, Masello, Juan F., Bouzat, Juan L., Ryan, Peter G., Thompson, David R., Ellenberg, Ursula, Dann, Peter, Miller, Gary, Dee Boersma, P., Zhao, Ruoping, Gilbert, M. Thomas P., Yang, Huanming, Zhang, De-Xing, and Zhang, Guojie

Published
2022
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3. Receding ice drove parallel expansions in Southern Ocean penguins

Author

Cole, Theresa L., Dutoit, Ludovic, Dussex, Nicolas, Hart, Tom, Alexander, Alana, Younger, Jane L., Clucas, Gemma V., Frugone, María José, Cherel, Yves, Cuthbert, Richard, Ellenberg, Ursula, Fiddaman, Steven R., Hiscock, Johanna, Houston, David, Jouventin, Pierre, Mattern, Thomas, Miller, Gary, Miskelly, Colin, Nolan, Paul, Polito, Michael J., Quillfeldt, Petra, Ryan, Peter G., Smith, Adrian, Tennyson, Alan J. D., Thompsona, David, Wieneckeb, Barbara, Viannac, Juliana A., and Waters, Jonathan M.

Published
2019

6. Chicken Genomic Diversity consortium: large-scale genomics to unravel the origins and adaptations of chickens

Author

Fiddaman, Steven R, Klopp, Christophe, Charles, Mathieu, Bardou, Philippe, Lebrasseur, Ophélie, Derks, Martijn F. L., Schauer, Jens, Reimer, Christian, Geibel, Johannes, Gheyas, Almas, Smith, Adrian L., Schnabel, Robert, Cerezo, Maria Luisa Martin, Nishibori, Masahide, Godinez, Cyrill John P., Layos, John King N., Alfieri, James M., Blackmon, Heath, Athrey, Giridhar N., Larson, Greger, Ng’ang’a, Ismael, Muir, William, Lange, Margaret, Wright, Dominic, Cheng, Hans H, Simianer, Henner, Weigend, Steffen, Warren, Wesley, Crooijmans, Richard P. M. A., Hanotte, Olivier, Smith, Jacqueline, Tixier-Boichard, Michele, and Frantz, Laurent Af

Abstract

On October 25-26, 2019, a satellite meeting devoted to the preparation of a Chicken Genome Diversity Consortium was organised after the 11th European Symposium of Poultry Genetics in Prague. Researchers involved in chicken genomics from Europe, Africa and China, discussed the objectives of such a consortium with some presenting their data. However, the technical aspects of how to share and jointly analyse the data were not finalized, nor was the funding model for the cost of data storage and computation. In 2021, an opportunity arose with the call for projects of the SuperMUC computing cluster of the Leibniz-Rechenzentrum in Germany. A new consortium of scientists re-launched the discussion to establish a project with the aim to explore how the high-throughput genomics age can be harnessed to answer evolutionary questions surrounding the chicken. The FARMGENOMIC project (23826) was accepted for funding in autumn 2021, gathering around 20 members from 10 institutions in Europe, North America, and Africa. This newly formed Chicken Genomic Diversity consortium brings together members from a variety of disciplines, including genomics, palaeogenetics, animal breeding, immunology, organismal biology, evolutionary biology, and archaeology. Central to the consortium are the concepts of inclusivity and openness – all data are to be made available to all members of the consortium, and later distributed to the wider community, and collaborations between groups are fostered and actively encouraged. It is hoped this state-of-the-art resource, curated in-house by bioinformaticians, will enable the community to answer previously intractable questions in chicken evolution.

Published
2023
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7. Ancient chicken remains reveal the origins of virulence in Marek’s disease virus.

Author

Fiddaman, Steven R., Dimopoulos, Evangelos A., Lebrasseur, Ophélie, du Plessis, Louis, Vrancken, Bram, Charlton, Sophy, Haruda, Ashleigh F., Tabbada, Kristina, Flammer, Patrik G., Dascalu, Stefan, Marković, Nemanja, Hannah Li, Franklin, Gabrielle, Symmons, Robert, Baron, Henriette, Daróczi-Szabó, László, Shaymuratova, Dilyara N., Askeyev, Igor V., Putelat, Olivier, and Sana, Maria

Subjects
*MAREK'S disease, *VIRUS diseases, *CHICKENS, *LIVESTOCK growth, *VIRAL genes
Abstract

The pronounced growth in livestock populations since the 1950s has altered the epidemiological and evolutionary trajectory of their associated pathogens. For example, Marek’s disease virus (MDV), which causes lymphoid tumors in chickens, has experienced a marked increase in virulence over the past century. Today, MDV infections kill >90% of unvaccinated birds, and controlling it costs more than US$1 billion annually. By sequencing MDV genomes derived from archeological chickens, we demonstrate that it has been circulating for at least 1000 years. We functionally tested the Meq oncogene, one of 49 viral genes positively selected in modern strains, demonstrating that ancient MDV was likely incapable of driving tumor formation. Our results demonstrate the power of ancient DNA approaches to trace the molecular basis of virulence in economically relevant pathogens. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Understanding the evolution of immune genes in jawed vertebrates.

Author

Vinkler, Michal, Fiddaman, Steven R., Těšický, Martin, O'Connor, Emily A., Savage, Anna E., Lenz, Tobias L., Smith, Adrian L., Kaufman, Jim, Bolnick, Daniel I., Davies, Charli S., Dedić, Neira, Flies, Andrew S., Samblás, M. Mercedes Gómez, Henschen, Amberleigh E., Novák, Karel, Palomar, Gemma, Raven, Nynke, Samaké, Kalifa, Slade, Joel, and Veetil, Nithya Kuttiyarthu

Subjects
*MOLECULAR evolution, *GENES, *ANIMAL species, *VERTEBRATES, *IMMUNE system
Abstract

Driven by co‐evolution with pathogens, host immunity continuously adapts to optimize defence against pathogens within a given environment. Recent advances in genetics, genomics and transcriptomics have enabled a more detailed investigation into how immunogenetic variation shapes the diversity of immune responses seen across domestic and wild animal species. However, a deeper understanding of the diverse molecular mechanisms that shape immunity within and among species is still needed to gain insight into—and generate evolutionary hypotheses on—the ultimate drivers of immunological differences. Here, we discuss current advances in our understanding of molecular evolution underpinning jawed vertebrate immunity. First, we introduce the immunome concept, a framework for characterizing genes involved in immune defence from a comparative perspective, then we outline how immune genes of interest can be identified. Second, we focus on how different selection modes are observed acting across groups of immune genes and propose hypotheses to explain these differences. We then provide an overview of the approaches used so far to study the evolutionary heterogeneity of immune genes on macro and microevolutionary scales. Finally, we discuss some of the current evidence as to how specific pathogens affect the evolution of different groups of immune genes. This review results from the collective discussion on the current key challenges in evolutionary immunology conducted at the ESEB 2021 Online Satellite Symposium: Molecular evolution of the vertebrate immune system, from the lab to natural populations. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Adaptation and Cryptic Pseudogenization in Penguin Toll-Like Receptors.

Author

Fiddaman, Steven R, Vinkler, Michal, Spiro, Simon G, Levy, Hila, Emerling, Christopher A, Boyd, Amy C, Dimopoulos, Evangelos A, Vianna, Juliana A, Cole, Theresa L, Pan, Hailin, Fang, Miaoquan, Zhang, Guojie, Hart, Tom, Frantz, Laurent A F, and Smith, Adrian L

Subjects
IMMUNOGENETICS, PSEUDOGENES, WILDLIFE diseases, IMMUNOLOGY, HAPLOTYPES
Abstract

Penguins (Sphenisciformes) are an iconic order of flightless, diving seabirds distributed across a large latitudinal range in the Southern Hemisphere. The extensive area over which penguins are endemic is likely to have fostered variation in pathogen pressure, which in turn will have imposed differential selective pressures on the penguin immune system. At the front line of pathogen detection and response, the Toll-like receptors (TLRs) provide insight into host evolution in the face of microbial challenge. TLRs respond to conserved pathogen-associated molecular patterns and are frequently found to be under positive selection, despite retaining specificity for defined agonist classes. We undertook a comparative immunogenetics analysis of TLRs for all penguin species and found evidence of adaptive evolution that was largely restricted to the cell surface-expressed TLRs, with evidence of positive selection at, or near, key agonist-binding sites in TLR1B , TLR4 , and TLR5. Intriguingly, TLR15 , which is activated by fungal products, appeared to have been pseudogenized multiple times in the Eudyptes spp. but a full-length form was present as a rare haplotype at the population level. However, in vitro analysis revealed that even the full-length form of Eudyptes TLR15 was nonfunctional, indicating an ancestral cryptic pseudogenization prior to its eventual disruption multiple times in the Eudyptes lineage. This unusual pseudogenization event could provide an insight into immune adaptation to fungal pathogens such as Aspergillus , which is responsible for significant mortality in wild and captive bird populations. [ABSTRACT FROM AUTHOR]

Published
2022
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11. Evidence of Pathogen-Induced Immunogenetic Selection across the Large Geographic Range of a Wild Seabird.

Author

Levy, Hila, Fiddaman, Steven R, Vianna, Juliana A, Noll, Daly, Clucas, Gemma V, Sidhu, Jasmine K H, Polito, Michael J, Bost, Charles A, Phillips, Richard A, Crofts, Sarah, Miller, Gary D, Pistorius, Pierre, Bonnadonna, Francesco, Bohec, Céline Le, Barbosa, Andrés, Trathan, Phil, Rey, Andrea Raya, Frantz, Laurent A F, Hart, Tom, and Smith, Adrian L

Abstract

Over evolutionary time, pathogen challenge shapes the immune phenotype of the host to better respond to an incipient threat. The extent and direction of this selection pressure depend on the local pathogen composition, which is in turn determined by biotic and abiotic features of the environment. However, little is known about adaptation to local pathogen threats in wild animals. The Gentoo penguin (Pygoscelis papua) is a species complex that lends itself to the study of immune adaptation because of its circumpolar distribution over a large latitudinal range, with little or no admixture between different clades. In this study, we examine the diversity in a key family of innate immune genes—the Toll-like receptors (TLRs)—across the range of the Gentoo penguin. The three TLRs that we investigated present varying levels of diversity, with TLR4 and TLR5 greatly exceeding the diversity of TLR7. We present evidence of positive selection in TLR4 and TLR5 , which points to pathogen-driven adaptation to the local pathogen milieu. Finally, we demonstrate that two positively selected cosegregating sites in TLR5 are sufficient to alter the responsiveness of the receptor to its bacterial ligand, flagellin. Taken together, these results suggest that Gentoo penguins have experienced distinct pathogen-driven selection pressures in different environments, which may be important given the role of the Gentoo penguin as a sentinel species in some of the world's most rapidly changing environments. [ABSTRACT FROM AUTHOR]

Published
2020
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12. Mitogenomes Uncover Extinct Penguin Taxa and Reveal Island Formation as a Key Driver of Speciation.

Author

Cole, Theresa L, Ksepka, Daniel T, Mitchell, Kieren J, Tennyson, Alan J D, Thomas, Daniel B, Pan, Hailin, Zhang, Guojie, Rawlence, Nicolas J, Wood, Jamie R, Bover, Pere, Bouzat, Juan L, Cooper, Alan, Fiddaman, Steven R, Hart, Tom, Miller, Gary, Ryan, Peter G, Shepherd, Lara D, Wilmshurst, Janet M, and Waters, Jonathan M

Abstract

The emergence of islands has been linked to spectacular radiations of diverse organisms. Although penguins spend much of their lives at sea, they rely on land for nesting, and a high proportion of extant species are endemic to geologically young islands. Islands may thus have been crucial to the evolutionary diversification of penguins. We test this hypothesis using a fossil-calibrated phylogeny of mitochondrial genomes (mitogenomes) from all extant and recently extinct penguin taxa. Our temporal analysis demonstrates that numerous recent island-endemic penguin taxa diverged following the formation of their islands during the Plio-Pleistocene, including the Galápagos (Galápagos Islands), northern rockhopper (Gough Island), erect-crested (Antipodes Islands), Snares crested (Snares) and royal (Macquarie Island) penguins. Our analysis also reveals two new recently extinct island-endemic penguin taxa from New Zealand's Chatham Islands: Eudyptes warhami sp. nov. and a dwarf subspecies of the yellow-eyed penguin, Megadyptes antipodes richdalei ssp. nov. Eudyptes warhami diverged from the Antipodes Islands erect-crested penguin between 1.1 and 2.5 Ma, shortly after the emergence of the Chatham Islands (∼3 Ma). This new finding of recently evolved taxa on this young archipelago provides further evidence that the radiation of penguins over the last 5 Ma has been linked to island emergence. Mitogenomic analyses of all penguin species, and the discovery of two new extinct penguin taxa, highlight the importance of island formation in the diversification of penguins, as well as the extent to which anthropogenic extinctions have affected island-endemic taxa across the Southern Hemisphere's isolated archipelagos. [ABSTRACT FROM AUTHOR]

Published
2019
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13. List of contributors

Author

Adelman, James S., Ardia, Daniel R., Astill, Jake, Balic, Adam, Barrow, Paul, Beal, Richard, Bean, Andrew G.D., Bortoluzzi, Cristiano, Dalgaard, Tina Sørensen, Davison, Fred, de Wit, J.J. (Sjaak), Dekkers, Jack C.M., Doran, Timothy, Dunon, Dominique, Erf, Gisela F., Fiddaman, Steven R., Gautron, Joel, Göbel, Thomas W., Guabiraba, Rodrigo, Guyot, Nicolas, Härtle, Sonja, Hincke, Maxwell, Jaffredo, Thierry, Kaspers, Bernd, Kaufman, Jim, Kogut, Michael H., Lamont, Susan J., Lowenthal, John W., Magor, Katharine E., Montiel, Enrique, Nagy, Nándor, Nair, Venugopal, Oláh, Imre, Powers, Claire, Ratcliffe, Michael J.H., Rebel, Johanna M.J., Réhault-Godbert, Sophie, Robin, Catherine, Schat, Karel A., Schultz, Ursula, Schusser, Benjamin, Sharif, Shayan, Skinner, Michael A., Smith, Adrian L., Sutton, Kate, Veldhuizen, Edwin J.A., Vervelde, Lonneke, Vinkler, Michal, Wigley, Paul, Wolc, Anna, Wood, R. Darren, Yvernogeau, Laurent, and Zhou, Huaijun

Published
2022
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14. Identification of Circovirus Genome in a Chinstrap Penguin (Pygoscelis antarcticus) and Adélie Penguin (Pygoscelis adeliae) on the Antarctic Peninsula.

Author

Levy, Hila, Fiddaman, Steven R., Djurhuus, Anni, Black, Caitlin E., Kraberger, Simona, Smith, Adrian L., Hart, Tom, and Varsani, Arvind

Subjects
*SINGLE-stranded DNA, *CIRCULAR DNA, *PENGUINS, *ANIMAL species, *VIRUS diseases, *PENINSULAS
Abstract

Circoviruses infect a variety of animal species and have small (~1.8–2.2 kb) circular single-stranded DNA genomes. Recently a penguin circovirus (PenCV) was identified associated with an Adélie Penguin (Pygoscelis adeliae) with feather disorder and in the cloacal swabs of three asymptomatic Adélie Penguins at Cape Crozier, Antarctica. A total of 75 cloacal swab samples obtained from adults and chicks of three species of penguin (genus: Pygoscelis) from seven Antarctic breeding colonies (South Shetland Islands and Western Antarctic Peninsula) in the 2015−2016 breeding season were screened for PenCV. We identified new variants of PenCV in one Adélie Penguin and one Chinstrap Penguin (Pygoscelis antarcticus) from Port Charcot, Booth Island, Western Antarctic Peninsula, a site home to all three species of Pygoscelid penguins. These two PenCV genomes (length of 1986 nucleotides) share > 99% genome-wide nucleotide identity with each other and share ~87% genome-wide nucleotide identity with the PenCV sequences described from Adélie Penguins at Cape Crozier ~4400 km away in East Antarctica. We did not find any evidence of recombination among PenCV sequences. This is the first report of PenCV in Chinstrap Penguins and the first detection outside of Ross Island, East Antarctica. Given the limited knowledge on Antarctic animal viral diversity, future samples from Antarctic wildlife should be screened for these and other viruses to determine the prevalence and potential impact of viral infections. [ABSTRACT FROM AUTHOR]

Published
2020
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15. Correction to: High-coverage genomes to elucidate the evolution of penguins.

Author

Pan, Hailin, Cole, Theresa L, Bi, Xupeng, Fang, Miaoquan, Zhou, Chengran, Yang, Zhengtao, Ksepka, Daniel T, Hart, Tom, Bouzat, Juan L, Argilla, Lisa S, Bertelsen, Mads F, Boersma, P Dee, Bost, Charles-Andre, Cherel, Yves, Dann, Peter, Fiddaman, Steven R, Howard, Pauline, Labuschagne, Kim, Mattern, Thomas, and Miller, Gary

Subjects
PENGUINS, BIOLOGICAL evolution
Published
2020
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16. High-coverage genomes to elucidate the evolution of penguins.

Author

Pan, Hailin, Cole, Theresa L, Bi, Xupeng, Fang, Miaoquan, Zhou, Chengran, Yang, Zhengtao, Ksepka, Daniel T, Hart, Tom, Bouzat, Juan L, Argilla, Lisa S, Bertelsen, Mads F, Boersma, P Dee, Bost, Charles-André, Cherel, Yves, Dann, Peter, Fiddaman, Steven R, Howard, Pauline, Labuschagne, Kim, Mattern, Thomas, and Miller, Gary

Abstract

Background Penguins (Sphenisciformes) are a remarkable order of flightless wing-propelled diving seabirds distributed widely across the southern hemisphere. They share a volant common ancestor with Procellariiformes close to the Cretaceous-Paleogene boundary (66 million years ago) and subsequently lost the ability to fly but enhanced their diving capabilities. With ∼20 species among 6 genera, penguins range from the tropical Galápagos Islands to the oceanic temperate forests of New Zealand, the rocky coastlines of the sub-Antarctic islands, and the sea ice around Antarctica. To inhabit such diverse and extreme environments, penguins evolved many physiological and morphological adaptations. However, they are also highly sensitive to climate change. Therefore, penguins provide an exciting target system for understanding the evolutionary processes of speciation, adaptation, and demography. Genomic data are an emerging resource for addressing questions about such processes. Results Here we present a novel dataset of 19 high-coverage genomes that, together with 2 previously published genomes, encompass all extant penguin species. We also present a well-supported phylogeny to clarify the relationships among penguins. In contrast to recent studies, our results demonstrate that the genus Aptenodytes is basal and sister to all other extant penguin genera, providing intriguing new insights into the adaptation of penguins to Antarctica. As such, our dataset provides a novel resource for understanding the evolutionary history of penguins as a clade, as well as the fine-scale relationships of individual penguin lineages. Against this background, we introduce a major consortium of international scientists dedicated to studying these genomes. Moreover, we highlight emerging issues regarding ensuring legal and respectful indigenous consultation, particularly for genomic data originating from New Zealand Taonga species. Conclusions We believe that our dataset and project will be important for understanding evolution, increasing cultural heritage and guiding the conservation of this iconic southern hemisphere species assemblage. [ABSTRACT FROM AUTHOR]

Published
2019
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17. High-coverage genomes to elucidate the evolution of penguins

Author

Pan, Hailin, Cole, Theresa L, Bi, Xupeng, Fang, Miaoquan, Zhou, Chengran, Yang, Zhengtao, Ksepka, Daniel T, Hart, Tom, Bouzat, Juan L, Argilla, Lisa S, Bertelsen, Mads F, Boersma, P Dee, Bost, Charles-André, Cherel, Yves, Dann, Peter, Fiddaman, Steven R, Howard, Pauline, Labuschagne, Kim, Mattern, Thomas, Miller, Gary, Parker, Patricia, Phillips, Richard A, Quillfeldt, Petra, Ryan, Peter G, Taylor, Helen, Thompson, David R, Young, Melanie J, Ellegaard, Martin R, Gilbert, M Thomas P, Sinding, Mikkel-Holger S, Pacheco, George, Shepherd, Lara D, Tennyson, Alan J D, Grosser, Stefanie, Kay, Emily, Nupen, Lisa J, Ellenberg, Ursula, Houston, David M, Reeve, Andrew Hart, Johnson, Kathryn, Masello, Juan F, Stracke, Thomas, McKinlay, Bruce, Borboroglu, Pablo García, Zhang, De-Xing, Zhang, Guojie, and Justus Liebig University Giessen

Subjects
phylogenetics, demography, climate change, comparative evolution, speciation, evolution, genomics, Antarctica, 14. Life underwater, ddc:570, 15. Life on land, Sphenisciformes, biogeography
Abstract

Background: Penguins (Sphenisciformes) are a remarkable order of flightless wing-propelled diving seabirds distributed widely across the southern hemisphere. They share a volant common ancestor with Procellariiformes close to the Cretaceous-Paleogene boundary (66 million years ago) and subsequently lost the ability to fly but enhanced their diving capabilities. With ∼20 species among 6 genera, penguins range from the tropical Galápagos Islands to the oceanic temperate forests of New Zealand, the rocky coastlines of the sub-Antarctic islands, and the sea ice around Antarctica. To inhabit such diverse and extreme environments, penguins evolved many physiological and morphological adaptations. However, they are also highly sensitive to climate change. Therefore, penguins provide an exciting target system for understanding the evolutionary processes of speciation, adaptation, and demography. Genomic data are an emerging resource for addressing questions about such processes. Results: Here we present a novel dataset of 19 high-coverage genomes that, together with 2 previously published genomes, encompass all extant penguin species. We also present a well-supported phylogeny to clarify the relationships among penguins. In contrast to recent studies, our results demonstrate that the genus Aptenodytes is basal and sister to all other extant penguin genera, providing intriguing new insights into the adaptation of penguins to Antarctica. As such, our dataset provides a novel resource for understanding the evolutionary history of penguins as a clade, as well as the fine-scale relationships of individual penguin lineages. Against this background, we introduce a major consortium of international scientists dedicated to studying these genomes. Moreover, we highlight emerging issues regarding ensuring legal and respectful indigenous consultation, particularly for genomic data originating from New Zealand Taonga species. Conclusions: We believe that our dataset and project will be important for understanding evolution, increasing cultural heritage and guiding the conservation of this iconic southern hemisphere species assemblage.

18. Comparison of CpG- and UpA-mediated restriction of RNA virus replication in mammalian and avian cells and investigation of potential ZAP-mediated shaping of host transcriptome compositions.

Author

Odon V, Fiddaman SR, Smith AL, and Simmonds P

Subjects
Animals, Antiviral Agents pharmacology, Chickens genetics, Humans, Mammals genetics, RNA, Messenger, RNA, Viral genetics, RNA, Viral metabolism, Virus Replication genetics, Influenza A virus genetics, Influenza A virus metabolism, Transcriptome
Abstract

The ability of zinc finger antiviral protein (ZAP) to recognize and respond to RNA virus sequences with elevated frequencies of CpG dinucleotides has been proposed as a functional part of the vertebrate innate immune antiviral response. It has been further proposed that ZAP activity shapes compositions of cytoplasmic mRNA sequences to avoid self-recognition, particularly mRNAs for interferons (IFNs) and IFN-stimulated genes (ISGs) expressed during the antiviral state. We investigated whether restriction of the replication of mutants of influenza A virus (IAV) and the echovirus 7 (E7) replicon with high CpG and UpA frequencies varied in different species of mammals and birds. Cell lines from different bird orders showed substantial variability in restriction of CpG-high mutants of IAV and E7 replicons, whereas none restricted UpA-high mutants, in marked contrast to universal restriction of both mutants in mammalian cells. Dinucleotide representation in ISGs and IFN genes was compared with those of cellular transcriptomes to determine whether potential differences in inferred ZAP activity between species shaped dinucleotide compositions of highly expressed genes during the antiviral state. While mammalian type 1 IFN genes typically showed often profound suppression of CpG and UpA frequencies, there was no oversuppression of either in ISGs in any species, irrespective of their ability to restrict CpG- or UpA-high mutants. Similarly, genome sequences of mammalian and avian RNA viruses were compositionally equivalent, as were IAV strains recovered from ducks, chickens and humans. Overall, we found no evidence for host variability in inferred ZAP function shaping host or viral transcriptome compositions., (© 2022 Odon et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society.)

Published
2022
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