Your search keyword '"Edward C. Holmes"' showing total 970 results

51. Francisella tularensis ssp. holarctica in Ringtail Possums, Australia

Author

John-Sebastian Eden, Karrie Rose, Jimmy Ng, Mang Shi, Qinning Wang, Vitali Sintchenko, and Edward C. Holmes

Subjects

tularemia, Francisella tularensis, ringtail possum, Pseudocheirus peregrinus, Australia, metagenomics, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

The occurrence of Francisella tularensis outside of endemic areas, such as North America and Eurasia, has been enigmatic. We report the metagenomic discovery and isolation of F. tularensis ssp. holarctica biovar japonica from diseased ringtail possums in Sydney, Australia. This finding confirms the presence of F. tularensis in the Southern Hemisphere.

Published

2017

52. The impact of migratory flyways on the spread of avian influenza virus in North America

Author

Mathieu Fourment, Aaron E. Darling, and Edward C. Holmes

Subjects

Evolution, QH359-425

Abstract

Abstract Background Wild birds are the major reservoir hosts for influenza A viruses (AIVs) and have been implicated in the emergence of pandemic events in livestock and human populations. Understanding how AIVs spread within and across continents is therefore critical to the development of successful strategies to manage and reduce the impact of influenza outbreaks. In North America many bird species undergo seasonal migratory movements along a North-South axis, thereby providing opportunities for viruses to spread over long distances. However, the role played by such avian flyways in shaping the genetic structure of AIV populations remains uncertain. Results To assess the relative contribution of bird migration along flyways to the genetic structure of AIV we performed a large-scale phylogeographic study of viruses sampled in the USA and Canada, involving the analysis of 3805 to 4505 sequences from 36 to 38 geographic localities depending on the gene segment data set. To assist in this we developed a maximum likelihood-based genetic algorithm to explore a wide range of complex spatial models, depicting a more complete picture of the migration network than determined previously. Conclusions Based on phylogenies estimated from nucleotide sequence data sets, our results show that AIV migration rates are significantly higher within than between flyways, indicating that the migratory patterns of birds play a key role in viral dispersal. These findings provide valuable insights into the evolution, maintenance and transmission of AIVs, in turn allowing the development of improved programs for surveillance and risk assessment.

Published

2017

53. Response to Brinkmann et al. 'Re-assembly of 19th century smallpox vaccine genomes reveals the contemporaneous use of horsepox and horsepox-related viruses in the United States'

Author

Ana T. Duggan, Edward C. Holmes, and Hendrik N. Poinar

Subjects

Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract We thank Brinkmann and colleagues for their correspondence and their further investigation into these American Civil War Era vaccination strains. Here, we summarize the difficulties and caveats of work with ancient DNA.

Published

2020

54. Can Sequence Phylogenies Safely Infer the Origin of the Global Virome?

Author

Edward C. Holmes and Sebastián Duchêne

Subjects

evolution, phylogeny, RNA polymerase, virus, Microbiology, QR1-502

Published

2019

55. A cluster-randomised controlled trial to test the efficacy of facemasks in preventing respiratory viral infection among Hajj pilgrims

Author

Mandy Wang, Osamah Barasheed, Harunor Rashid, Robert Booy, Haitham El Bashir, Elizabeth Haworth, Iman Ridda, Edward C. Holmes, Dominic E. Dwyer, Jonathan Nguyen-Van-Tam, Ziad A. Memish, and Leon Heron

Subjects

Facemask, Hajj pilgrimage, Influenza, Middle East respiratory syndrome coronavirus, Viral respiratory tract infection, Public aspects of medicine, RA1-1270

Abstract

Background: Cost-effective interventions are needed to control the transmission of viral respiratory tract infections (RTIs) in mass gatherings. Facemasks are a promising preventive measure, however, previous studies on the efficacy of facemasks have been inconclusive. This study proposes a large-scale facemask trial during the Hajj pilgrimage in Saudi Arabia and presents this protocol to illustrate its feasibility and to promote both collaboration with other research groups and additional relevant studies. Methods/design: A cluster-randomised controlled trial is being conducted to test the efficacy of standard facemasks in preventing symptomatic and proven viral RTIs among pilgrims during the Hajj season in Mina, Mecca, Saudi Arabia. The trial will compare the ‘supervised use of facemasks’ versus ‘standard measures’ among pilgrims over several Hajj seasons. Cluster-randomisation will be done by accommodation tents with a 1:1 ratio. For the intervention tents, free facemasks will be provided to be worn consistently for 7 days. Data on flu-like symptoms and mask use will be recorded in diaries. Nasal samples will be collected from symptomatic recruits and tested for nucleic acid of respiratory viruses. Data obtained from questionnaires, diaries and laboratory tests will be analysed to examine whether mask use significantly reduces the frequency of laboratory-confirmed respiratory viral infection and syndromic RTI as primary outcomes. Conclusions: This trial will provide valuable evidence on the efficacy of standard facemask use in preventing viral respiratory tract infections at mass gatherings. This study is registered at the Australian New Zealand Clinical Trials Registry (ANZCTR), ACTRN: ACTRN12613001018707 (http://www.anzctr.org.au).

Published

2019

56. Human Tick-Borne Diseases in Australia

Author

Mona Dehhaghi, Hamed Kazemi Shariat Panahi, Edward C. Holmes, Bernard J. Hudson, Richard Schloeffel, and Gilles J. Guillemin

Subjects

anaplasmosis, arbovirus, babesiosis, bartonellosis, Lyme-like disease, Q fever, Microbiology, QR1-502

Abstract

There are 17 human-biting ticks known in Australia. The bites of Ixodes holocyclus, Ornithodoros capensis, and Ornithodoros gurneyi can cause paralysis, inflammation, and severe local and systemic reactions in humans, respectively. Six ticks, including Amblyomma triguttatum, Bothriocroton hydrosauri, Haemaphysalis novaeguineae, Ixodes cornuatus, Ixodes holocyclus, and Ixodes tasmani may transmit Coxiella burnetii, Rickettsia australis, Rickettsia honei, or Rickettsia honei subsp. marmionii. These bacterial pathogens cause Q fever, Queensland tick typhus (QTT), Flinders Island spotted fever (FISF), and Australian spotted fever (ASF). It is also believed that babesiosis can be transmitted by ticks to humans in Australia. In addition, Argas robertsi, Haemaphysalis bancrofti, Haemaphysalis longicornis, Ixodes hirsti, Rhipicephalus australis, and Rhipicephalus sanguineus ticks may play active roles in transmission of other pathogens that already exist or could potentially be introduced into Australia. These pathogens include Anaplasma spp., Bartonella spp., Burkholderia spp., Francisella spp., Dera Ghazi Khan virus (DGKV), tick-borne encephalitis virus (TBEV), Lake Clarendon virus (LCV), Saumarez Reef virus (SREV), Upolu virus (UPOV), or Vinegar Hill virus (VINHV). It is important to regularly update clinicians' knowledge about tick-borne infections because these bacteria and arboviruses are pathogens of humans that may cause fatal illness. An increase in the incidence of tick-borne infections of human may be observed in the future due to changes in demography, climate change, and increase in travel and shipments and even migratory patterns of birds or other animals. Moreover, the geographical conditions of Australia are favorable for many exotic ticks, which may become endemic to Australia given an opportunity. There are some human pathogens, such as Rickettsia conorii and Rickettsia rickettsii that are not currently present in Australia, but can be transmitted by some human-biting ticks found in Australia, such as Rhipicephalus sanguineus, if they enter and establish in this country. Despite these threats, our knowledge of Australian ticks and tick-borne diseases is in its infancy.

Published

2019

57. Emergence and Spread of SARS-CoV-2 Lineages B.1.1.7 and P.1 in Italy

Author

Francesca Di Giallonardo, Ilaria Puglia, Valentina Curini, Cesare Cammà, Iolanda Mangone, Paolo Calistri, Joanna C. A. Cobbin, Edward C. Holmes, and Alessio Lorusso

Subjects

SARS-Cov-2, Italy, epidemic, variant of concern, B.1.1.7, P.1, Microbiology, QR1-502

Abstract

Italy’s second wave of SARS-CoV-2 has hit hard, with more than three million cases and over 100,000 deaths, representing an almost ten-fold increase in the numbers reported by August 2020. Herein, we present an analysis of 6515 SARS-CoV-2 sequences sampled in Italy between 29 January 2020 and 1 March 2021 and show how different lineages emerged multiple times independently despite lockdown restrictions. Virus lineage B.1.177 became the dominant variant in November 2020, when cases peaked at 40,000 a day, but since January 2021 this is being replaced by the B.1.1.7 ‘variant of concern’. In addition, we report a sudden increase in another documented variant of concern—lineage P.1—from December 2020 onwards, most likely caused by a single introduction into Italy. We again highlight how international importations drive the emergence of new lineages and that genome sequencing should remain a top priority for ongoing surveillance in Italy.

Published

2021

58. A Novel Rubi-Like Virus in the Pacific Electric Ray (Tetronarce californica) Reveals the Complex Evolutionary History of the Matonaviridae

Author

Rebecca M. Grimwood, Edward C. Holmes, and Jemma L. Geoghegan

Subjects

metatranscriptomics, virus discovery, rubella, ruhugu, rustrela, Matonaviridae, Microbiology, QR1-502

Abstract

Rubella virus (RuV) is the causative agent of rubella (“German measles”) and remains a global health concern. Until recently, RuV was the only known member of the genus Rubivirus and the only virus species classified within the Matonaviridae family of positive-sense RNA viruses. Recently, two new rubella-like matonaviruses, Rustrela virus and Ruhugu virus, have been identified in several mammalian species, along with more divergent viruses in fish and reptiles. To screen for the presence of additional novel rubella-like viruses, we mined published transcriptome data using genome sequences from Rubella, Rustrela, and Ruhugu viruses as baits. From this, we identified a novel rubella-like virus in a transcriptome of Tetronarce californica—order Torpediniformes (Pacific electric ray)—that is more closely related to mammalian Rustrela virus than to the divergent fish matonavirus and indicative of a complex pattern of cross-species virus transmission. Analysis of host reads confirmed that the sample analysed was indeed from a Pacific electric ray, and two other viruses identified in this animal, from the Arenaviridae and Reoviridae, grouped with other fish viruses. These findings indicate that the evolutionary history of the Matonaviridae is more complex than previously thought and highlights the vast number of viruses that remain undiscovered.

Published

2021

59. Genomic Epidemiology of the First Wave of SARS-CoV-2 in Italy

Author

Francesca Di Giallonardo, Sebastian Duchene, Ilaria Puglia, Valentina Curini, Francesca Profeta, Cesare Cammà, Maurilia Marcacci, Paolo Calistri, Edward C. Holmes, and Alessio Lorusso

Subjects

SARS-Cov-2, Italy, lockdown, phylogeny, transmission, Microbiology, QR1-502

Abstract

Italy was one of the first countries to experience a major epidemic of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), with >1000 cases confirmed by 1 March 2020. However, virus genome sequence data is sparse and there has been only limited investigation of virus transmission across the country. Here, we provide the most extensive study to date of the genomic epidemiology of SARS-CoV-2 in Italy covering the first wave of infection. We generated 191 new full-length genomes, largely sampled from central Italy (Abruzzo), before, during, and after the enforcement of a nationwide “lockdown” (8 March–3 June). These were combined with 460 published SARS-CoV-2 sequences sampled across Italy. Phylogenetic analysis including global sequence data revealed multiple independent introductions into Italy, with at least 124 instances of sequence clusters representing longer chains of transmission. Eighteen of these transmission clusters emerged before the nation-wide lockdown was implemented on 8 March, and an additional 18 had evidence for transmission between different Italian regions. Extended transmission periods between infections of up to 104 days were observed in five clusters. In addition, we found seven clusters that persisted throughout the lockdown period. Overall, we show how importations were an important driver of the first wave of SARS-CoV-2 in Italy.

Published

2020

60. Identification of Novel Astroviruses in the Gastrointestinal Tract of Domestic Cats

Author

Kate Van Brussel, Xiuwan Wang, Mang Shi, Maura Carrai, Jun Li, Vito Martella, Julia A. Beatty, Edward C. Holmes, and Vanessa R. Barrs

Subjects

feline astrovirus, diarrhoea, mamastrovirus, capsid, domestic cats, evolution, Microbiology, QR1-502

Abstract

Astroviruses, isolated from numerous avian and mammalian species including humans, are commonly associated with enteritis and encephalitis. Two astroviruses have previously been identified in cats, and while definitive evidence is lacking, an association with enteritis is suggested. Using metagenomic next-generation sequencing of viral nucleic acids from faecal samples, we identified two novel feline astroviruses termed Feline astrovirus 3 and 4. These viruses were isolated from healthy shelter-housed kittens (Feline astrovirus 3; 6448 bp) and from a kitten with diarrhoea that was co-infected with Feline parvovirus (Feline astrovirus 4, 6549 bp). Both novel astroviruses shared a genome arrangement of three open reading frames (ORFs) comparable to that of other astroviruses. Phylogenetic analysis of the concatenated ORFs, ORF1a, ORF1b and capsid protein revealed that both viruses were phylogenetically distinct from other feline astroviruses, although their precise evolutionary history could not be accurately determined due to a lack of resolution at key nodes. Large-scale molecular surveillance studies of healthy and diseased cats are needed to determine the pathogenicity of feline astroviruses as single virus infections or in co-infections with other enteric viruses.

Published

2020

61. Meta-Transcriptomic Identification of Divergent Amnoonviridae in Fish

Author

Olivia M. H. Turnbull, Ayda Susana Ortiz-Baez, John-Sebastian Eden, Mang Shi, Jane E. Williamson, Troy F. Gaston, Yong-Zhen Zhang, Edward C. Holmes, and Jemma L. Geoghegan

Subjects

meta-transcriptomics, virus discovery, Amnoonviridae, Articulavirales, fish, tilapia lake virus, Microbiology, QR1-502

Abstract

Tilapia lake virus (TiLV) has caused mass mortalities in farmed and wild tilapia with serious economic and ecological consequences. Until recently, this virus was the sole member of the Amnoonviridae, a family within the order Articulavirales comprising segmented negative-sense RNA viruses. We sought to identify additional viruses within the Amnoonviridae through total RNA sequencing (meta-transcriptomics) and data mining of published transcriptomes. Accordingly, we sampled marine fish species from both Australia and China and discovered several segments of two new viruses within the Amnoonviridae, tentatively called Flavolineata virus and Piscibus virus, respectively. In addition, by mining vertebrate transcriptome data, we identified nine additional virus transcripts matching to multiple genomic segments of TiLV in both marine and freshwater fish. These new viruses retained sequence conservation with the distantly related Orthomyxoviridae in the RdRp subunit PB1, but formed a distinct and diverse phylogenetic group. These data suggest that the Amnoonviridae have a broad host range within fish and that greater animal sampling will identify additional divergent members of the Articulavirales.

Published

2020

62. Unmapped RNA Virus Diversity in Termites and Their Symbionts

Author

Callum Le Lay, Mang Shi, Aleš Buček, Thomas Bourguignon, Nathan Lo, and Edward C. Holmes

Subjects

RNA viruses, evolution, ecology, metatranscriptomics, RNA sequencing, termites, Microbiology, QR1-502

Abstract

Despite their ecological importance, nothing is known about the diversity and abundance of RNA viruses in termites (Termitoidae). We used a metatranscriptomics approach to determine the RNA virome structure of 50 diverse species of termite that differ in both phylogenetic position and colony composition. From these samples, we identified 67 novel RNA viruses, characterized their genomes, quantified their abundance and inferred their evolutionary history. These viruses were found within or similar to those from the Togaviridae, Iflaviridae, Polycipiviridae, Flaviviridae, Leviviridae, Narnaviridae, Mitoviridae, Lispivirdae, Phasmaviridae, Picobirnaviridae and Partitiviridae. However, all viruses identified were novel and divergent, exhibiting only 20% to 45% amino acid identity to previously identified viruses. Our analysis suggested that 17 of the viruses identified were termite-infecting, with the remainder likely associated with the termite microbiome or diet. Unclassified sobemo-like and bunya-like viruses dominated termite viromes, while most of the phylogenetic diversity was provided by the picobirna- and mitovirus-like viruses. Of note was the identification of a novel flavi-like virus most closely related to those found in marine vertebrates and invertebrates. Notably, the sampling procedure had the strongest association with virome composition, with greater RNA virome diversity in libraries prepared from whole termite bodies than those that only sampled heads.

Published

2020

63. Metatranscriptomic Identification of Diverse and Divergent RNA Viruses in Green and Chlorarachniophyte Algae Cultures

Author

Justine Charon, Vanessa Rossetto Marcelino, Richard Wetherbee, Heroen Verbruggen, and Edward C. Holmes

Subjects

algae viruses, protist viruses, RNA-dependent RNA polymerase, RNA virus metatranscriptomics, evolution, phylogeny, Microbiology, QR1-502

Abstract

Our knowledge of the diversity and evolution of the virosphere will likely increase dramatically with the study of microbial eukaryotes, including the microalgae within which few RNA viruses have been documented. By combining total RNA sequencing with sequence and structural-based homology detection, we identified 18 novel RNA viruses in cultured samples from two major groups of microbial algae: the chlorophytes and the chlorarachniophytes. Most of the RNA viruses identified in the green algae class Ulvophyceae were related to the Tombusviridae and Amalgaviridae viral families commonly associated with land plants. This suggests that the evolutionary history of these viruses extends to divergence events between algae and land plants. Seven Ostreobium sp-associated viruses exhibited sequence similarity to the mitoviruses most commonly found in fungi, compatible with horizontal virus transfer between algae and fungi. We also document, for the first time, RNA viruses associated with chlorarachniophytes, including the first negative-sense (bunya-like) RNA virus in microalgae, as well as a distant homolog of the plant virus Virgaviridae, potentially signifying viral inheritance from the secondary chloroplast endosymbiosis that marked the origin of the chlorarachniophytes. More broadly, these data suggest that the scarcity of RNA viruses in algae results from limited investigation rather than their absence.

Published

2020

64. Meta-Transcriptomic Discovery of a Divergent Circovirus and a Chaphamaparvovirus in Captive Reptiles with Proliferative Respiratory Syndrome

Author

Wei-Shan Chang, Ci-Xiu Li, Jane Hall, John-Sebastian Eden, Timothy H. Hyndman, Edward C. Holmes, and Karrie Rose

Subjects

RNA-sequencing, respiratory disease, chapparvovirus, circovirus, PCR assays, Microbiology, QR1-502

Abstract

Viral pathogens are being increasingly described in association with mass morbidity and mortality events in reptiles. However, our knowledge of reptile viruses remains limited. Herein, we describe the meta-transcriptomic investigation of a mass morbidity and mortality event in a colony of central bearded dragons (Pogona vitticeps) in 2014. Severe, extensive proliferation of the respiratory epithelium was consistently found in affected dragons. Similar proliferative lung lesions were identified in bearded dragons from the same colony in 2020 in association with increased intermittent mortality. Total RNA sequencing identified two divergent DNA viruses: a reptile-infecting circovirus, denoted bearded dragon circovirus (BDCV), and the first exogeneous reptilian chaphamaparvovirus—bearded dragon chaphamaparvovirus (BDchPV). Phylogenetic analysis revealed that BDCV was most closely related to bat-associated circoviruses, exhibiting 70% amino acid sequence identity in the Replicase (Rep) protein. In contrast, in the nonstructural (NS) protein, the newly discovered BDchPV showed approximately 31%–35% identity to parvoviruses obtained from tilapia fish and crocodiles in China. Subsequent specific PCR assays revealed BDCV and BDchPV in both diseased and apparently normal captive reptiles, although only BDCV was found in those animals with proliferative pulmonary lesions and respiratory disease. This study expands our understanding of viral diversity in captive reptiles.

Published

2020

65. Divergent Influenza-Like Viruses of Amphibians and Fish Support an Ancient Evolutionary Association

Author

Rhys Parry, Michelle Wille, Olivia M. H. Turnbull, Jemma L. Geoghegan, and Edward C. Holmes

Subjects

Orthomyxoviridae, influenza, metatranscriptomics, fish, amphibians, evolution, Microbiology, QR1-502

Abstract

Influenza viruses (family Orthomyxoviridae) infect a variety of vertebrates, including birds, humans, and other mammals. Recent metatranscriptomic studies have uncovered divergent influenza viruses in amphibians, fish and jawless vertebrates, suggesting that these viruses may be widely distributed. We sought to identify additional vertebrate influenza-like viruses through the analysis of publicly available RNA sequencing data. Accordingly, by data mining, we identified the complete coding segments of five divergent vertebrate influenza-like viruses. Three fell as sister lineages to influenza B virus: salamander influenza-like virus in Mexican walking fish (Ambystoma mexicanum) and plateau tiger salamander (Ambystoma velasci), Siamese algae-eater influenza-like virus in Siamese algae-eater fish (Gyrinocheilus aymonieri) and chum salmon influenza-like virus in chum salmon (Oncorhynchus keta). Similarly, we identified two influenza-like viruses of amphibians that fell as sister lineages to influenza D virus: cane toad influenza-like virus and the ornate chorus frog influenza-like virus, in the cane toad (Rhinella marina) and ornate chorus frog (Microhyla fissipes), respectively. Despite their divergent phylogenetic positions, these viruses retained segment conservation and splicing consistent with transcriptional regulation in influenza B and influenza D viruses, and were detected in respiratory tissues. These data suggest that influenza viruses have been associated with vertebrates for their entire evolutionary history.

Published

2020

66. A Divergent Articulavirus in an Australian Gecko Identified Using Meta-Transcriptomics and Protein Structure Comparisons

Author

Ayda Susana Ortiz-Baez, John-Sebastian Eden, Craig Moritz, and Edward C. Holmes

Subjects

virus discovery, protein structure, meta-transcriptomics, Tilapia tilapinevirus, Articulavirales, Amnoonviridae, Microbiology, QR1-502

Abstract

The discovery of highly divergent RNA viruses is compromised by their limited sequence similarity to known viruses. Evolutionary information obtained from protein structural modelling offers a powerful approach to detect distantly related viruses based on the conservation of tertiary structures in key proteins such as the RNA-dependent RNA polymerase (RdRp). We utilised a template-based approach for protein structure prediction from amino acid sequences to identify distant evolutionary relationships among viruses detected in meta-transcriptomic sequencing data from Australian wildlife. The best predicted protein structural model was compared with the results of similarity searches against protein databases. Using this combination of meta-transcriptomics and protein structure prediction we identified the RdRp (PB1) gene segment of a divergent negative-sense RNA virus, denoted Lauta virus (LTAV), in a native Australian gecko (Gehyra lauta). The presence of this virus was confirmed by PCR and Sanger sequencing. Phylogenetic analysis revealed that Lauta virus likely represents a newly described genus within the family Amnoonviridae, order Articulavirales, that is most closely related to the fish virus Tilapia tilapinevirus (TiLV). These findings provide important insights into the evolution of negative-sense RNA viruses and structural conservation of the viral replicase among members of the order Articulavirales.

Published

2020

67. Identification of a Novel Papillomavirus Associated with Squamous Cell Carcinoma in a Domestic Cat

Author

Maura Carrai, Kate Van Brussel, Mang Shi, Ci-Xiu Li, Wei-Shan Chang, John S. Munday, Katja Voss, Alicia McLuckie, David Taylor, Andrew Laws, Edward C. Holmes, Vanessa R. Barrs, and Julia A. Beatty

Subjects

papillomavirus, feline, cat, felid, cancer, squamous cell carcinoma, phylogeny, discovery, pathogen, oncogenic, Microbiology, QR1-502

Abstract

Papillomaviruses infect the skin and mucosal surfaces of diverse animal hosts with consequences ranging from asymptomatic colonization to highly malignant epithelial cancers. Increasing evidence suggests a role for papillomaviruses in the most common cutaneous malignancy of domestic cats, squamous cell carcinoma (SCC). Using total DNA sequencing we identified a novel feline papillomavirus in a nasal biopsy taken from a cat presenting with both nasal cavity lymphoma and recurrent squamous cell carcinoma affecting the nasal planum. We designate this novel virus as Felis catus papillomavirus 6 (FcaPV6). The complete FcaPV6 7453 bp genome was similar to those of other feline papillomaviruses and phylogenetic analysis revealed that it was most closely related to FcaPV3, although was distinct enough to represent a new viral type. Classification of FcaPV6 in a new genus alongside FcaPVs 3, 4 and 5 is supported. Archived excisional biopsy of the SCC, taken 20 months prior to presentation, was intensely positive on p16 immunostaining. FcaPV6, amplified using virus-specific, but not consensus, PCR, was the only papillomavirus detected in DNA extracted from the SCC. Conversely, renal lymphoma, sampled at necropsy two months after presentation, tested negative on FcaPV6-specific PCR. In sum, using metagenomics we demonstrate the presence of a novel feline papillomavirus in association with cutaneous squamous cell carcinoma.

Published

2020

68. Reemergence and Autochthonous Transmission of Dengue Virus, Eastern China, 2014

Author

Wen Wang, Bin Yu, Xian-Dan Lin, De-Guang Kong, Jian Wang, Jun-Hua Tian, Ming-Hui Li, Edward C. Holmes, and Yong-Zhen Zhang

Subjects

Dengue virus, viruses, phylogeny, evolution, autochthonous transmission, vector-borne infections, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

In 2014, 20 dengue cases were reported in the cities of Wenzhou (5 cases) and Wuhan (15 cases), China, where dengue has rarely been reported. Dengue virus 1 was detected in 4 patients. Although most of these cases were likely imported, epidemiologic analysis provided evidence for autochthonous transmission.

Published

2015

69. Phylogeography of Influenza A(H3N2) Virus in Peru, 2010–2012

Author

Simon Pollett, Martha I. Nelson, Matthew R. Kasper, Yeny Tinoco, Mark Simons, Candice Romero, Marita Silva, Xudong Lin, Rebecca A. Halpin, Nadia B. Fedorova, Timothy B. Stockwell, David Wentworth, Edward C. Holmes, and Daniel G. Bausch

Subjects

Peru, H3N2, influenza virus, evolution, viruses, phylogeography, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

It remains unclear whether lineages of influenza A(H3N2) virus can persist in the tropics and seed temperate areas. We used viral gene sequence data sampled from Peru to test this source–sink model for a Latin American country. Viruses were obtained during 2010–2012 from influenza surveillance cohorts in Cusco, Tumbes, Puerto Maldonado, and Lima. Specimens positive for influenza A(H3N2) virus were randomly selected and underwent hemagglutinin sequencing and phylogeographic analyses. Analysis of 389 hemagglutinin sequences from Peru and 2,192 global sequences demonstrated interseasonal extinction of Peruvian lineages. Extensive mixing occurred with global clades, but some spatial structure was observed at all sites; this structure was weakest in Lima and Puerto Maldonado, indicating that these locations may experience greater viral traffic. The broad diversity and co-circulation of many simultaneous lineages of H3N2 virus in Peru suggests that this country should not be overlooked as a potential source for novel pandemic strains.

Published

2015

70. Myxoma Virus and the Leporipoxviruses: An Evolutionary Paradigm

Author

Peter J. Kerr, June Liu, Isabella Cattadori, Elodie Ghedin, Andrew F. Read, and Edward C. Holmes

Subjects

myxoma virus, leporipoxvirus, poxvirus, myxomatosis, rabbit, coevolution, Microbiology, QR1-502

Abstract

Myxoma virus (MYXV) is the type species of the Leporipoxviruses, a genus of Chordopoxvirinae, double stranded DNA viruses, whose members infect leporids and squirrels, inducing cutaneous fibromas from which virus is mechanically transmitted by biting arthropods. However, in the European rabbit (Oryctolagus cuniculus), MYXV causes the lethal disease myxomatosis. The release of MYXV as a biological control for the wild European rabbit population in Australia, initiated one of the great experiments in evolution. The subsequent coevolution of MYXV and rabbits is a classic example of natural selection acting on virulence as a pathogen adapts to a novel host species. Slightly attenuated mutants of the progenitor virus were more readily transmitted by the mosquito vector because the infected rabbit survived longer, while highly attenuated viruses could be controlled by the rabbit immune response. As a consequence, moderately attenuated viruses came to dominate. This evolution of the virus was accompanied by selection for genetic resistance in the wild rabbit population, which may have created an ongoing co-evolutionary dynamic between resistance and virulence for efficient transmission. This natural experiment was repeated on a continental scale with the release of a separate strain of MYXV in France and its subsequent spread throughout Europe. The selection of attenuated strains of virus and resistant rabbits mirrored the experience in Australia in a very different environment, albeit with somewhat different rates. Genome sequencing of the progenitor virus and the early radiation, as well as those from the 1990s in Australia and Europe, has shown that although MYXV evolved at high rates there was no conserved route to attenuation or back to virulence. In contrast, it seems that these relatively large viral genomes have the flexibility for multiple pathways that converge on a similar phenotype.

Published

2015

71. Highly Divergent Dengue Virus Type 2 in Traveler Returning from Borneo to Australia

Author

Wenjun Liu, Paul Pickering, Sebastián Duchêne, Edward C. Holmes, and John G. Aaskov

Subjects

dengue virus, dengue virus type 2, DENV-2, viruses, traveler, divergence, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Dengue virus type 2 was isolated from a tourist who returned from Borneo to Australia. Phylogenetic analysis identified this virus as highly divergent and occupying a basal phylogenetic position relative to all known human and sylvatic dengue virus type 2 strains and the most divergent lineage not assigned to a new serotype.

Published

2016

72. Parasite Microbiome Project: Systematic Investigation of Microbiome Dynamics within and across Parasite-Host Interactions

Author

Nolwenn M. Dheilly, Daniel Bolnick, Seth Bordenstein, Paul J. Brindley, Cédric Figuères, Edward C. Holmes, Joaquín Martínez Martínez, Anna J. Phillips, Robert Poulin, and Karyna Rosario

Subjects

ecology, microbiome, parasitology, Microbiology, QR1-502

Abstract

ABSTRACT Understanding how microbiomes affect host resistance, parasite virulence, and parasite-associated diseases requires a collaborative effort between parasitologists, microbial ecologists, virologists, and immunologists. We hereby propose the Parasite Microbiome Project to bring together researchers with complementary expertise and to study the role of microbes in host-parasite interactions. Data from the Parasite Microbiome Project will help identify the mechanisms driving microbiome variation in parasites and infected hosts and how that variation is associated with the ecology and evolution of parasites and their disease outcomes. This is a call to arms to prevent fragmented research endeavors, encourage best practices in experimental approaches, and allow reliable comparative analyses across model systems. It is also an invitation to foundations and national funding agencies to propel the field of parasitology into the microbiome/metagenomic era.

Published

2017

73. Predicting virus emergence amid evolutionary noise

Author

Jemma L. Geoghegan and Edward C. Holmes

Subjects

emergence, evolution, phylogeny, virus, spill-over, virosphere, Biology (General), QH301-705.5

Abstract

The study of virus disease emergence, whether it can be predicted and how it might be prevented, has become a major research topic in biomedicine. Here we show that efforts to predict disease emergence commonly conflate fundamentally different evolutionary and epidemiological time scales, and are likely to fail because of the enormous number of unsampled viruses that could conceivably emerge in humans. Although we know much about the patterns and processes of virus evolution on evolutionary time scales as depicted in family-scale phylogenetic trees, these data have little predictive power to reveal the short-term microevolutionary processes that underpin cross-species transmission and emergence. Truly understanding disease emergence therefore requires a new mechanistic and integrated view of the factors that allow or prevent viruses spreading in novel hosts. We present such a view, suggesting that both ecological and genetic aspects of virus emergence can be placed within a simple population genetic framework, which in turn highlights the importance of host population size and density in determining whether emergence will be successful. Despite this framework, we conclude that a more practical solution to preventing and containing the successful emergence of new diseases entails ongoing virological surveillance at the human–animal interface and regions of ecological disturbance.

Published

2017

74. Discovery and Prevalence of Divergent RNA Viruses in European Field Voles and Rabbits

Author

Theocharis Tsoleridis, Joseph G. Chappell, Elodie Monchatre-Leroy, Gérald Umhang, Mang Shi, Malcolm Bennett, Rachael E. Tarlinton, C. Patrick McClure, Edward C. Holmes, and Jonathan K. Ball

Subjects

virus discovery, paramyxovirus, rotavirus a, astrovirus, picorna-like virus, rodents, rabbits, field voles, Microbiology, QR1-502

Abstract

The advent of unbiased metagenomic virus discovery has revolutionized studies of virus biodiversity and evolution. Despite this, our knowledge of the virosphere, including in mammalian species, remains limited. We used unbiased metagenomic sequencing to identify RNA viruses in European field voles and rabbits. Accordingly, we identified a number of novel RNA viruses including astrovirus, rotavirus A, picorna-like virus and a narmovirus (paramyxovirus). In addition, we identified a sobemovirus and a novel luteovirus that likely originated from the rabbit diet. These newly discovered viruses were often divergent from those previously described. The novel astrovirus was most closely related to a virus sampled from the rodent-eating European roller bird (Coracias garrulous). PCR screening revealed that the novel narmovirus in the UK field vole had a prevalence of approximately 4%, and shared common ancestry with other rodent narmoviruses sampled globally. Two novel rotavirus A sequences were detected in a UK field vole and a French rabbit, the latter with a prevalence of 5%. Finally, a highly divergent picorna-like virus found in the gut of the French rabbit virus was only ~35% similar to an arilivirus at the amino acid level, suggesting the presence of a novel viral genus within the Picornaviridae.

Published

2019

75. Meta-Transcriptomic Comparison of the RNA Viromes of the Mosquito Vectors Culex pipiens and Culex torrentium in Northern Europe

Author

John H.-O Pettersson, Mang Shi, John-Sebastian Eden, Edward C. Holmes, and Jenny C. Hesson

Subjects

mosquito-borne rna viruses, evolution, ecology, meta-transcriptomics, rna-sequencing, culex mosquitoes, Microbiology, QR1-502

Abstract

Mosquitoes harbor an extensive diversity of ‘insect-specific’ RNA viruses in addition to those important to human and animal health. However, because most studies of the mosquito virome have been conducted at lower latitudes, little is known about the diversity and evolutionary history of RNA viruses sampled from mosquitoes in northerly regions. Here, we compared the RNA virome of two common northern mosquito species, Culex pipiens and Culex torrentium, collected in south-central Sweden. Following bulk RNA-sequencing (meta-transcriptomics) of 12 libraries, comprising 120 specimens of Cx. pipiens and 150 specimens of Cx. torrentium, we identified 40 viruses (representing 14 virus families) of which 28 were novel based on phylogenetic analysis of the RNA-dependent RNA polymerase (RdRp) protein. Hence, we documented similar levels of virome diversity as in mosquitoes sampled from the more biodiverse lower latitudes. Many viruses were also related to those sampled on other continents, indicative of a widespread global movement and/or long host−virus co-evolution. Although the two mosquito species investigated have overlapping geographical distributions and share many viruses, several viruses were only found at a specific location at this scale of sampling, such that local habitat and geography may play an important role in shaping viral diversity in Culex mosquitoes.

Published

2019

76. Identification of a Novel Equine Papillomavirus in Semen from a Thoroughbred Stallion with a Penile Lesion

Author

Ci-Xiu Li, Wei-Shan Chang, Katerina Mitsakos, James Rodger, Edward C. Holmes, and Bernard J. Hudson

Subjects

equine papillomaviruses, horse, genital wart, phylogeny, evolution, Microbiology, QR1-502

Abstract

Papillomaviruses (PVs) have been identified in a wide range of animal species and are associated with a variety of disease syndromes including classical papillomatosis, aural plaques, and genital papillomas. In horses, 13 PVs have been described to date, falling into six genera. Using total RNA sequencing (meta-transcriptomics) we identified a novel equine papillomavirus in semen taken from a thoroughbred stallion suffering a genital lesion, which was confirmed by nested RT-PCR. We designate this novel virus Equus caballus papillomavirus 9 (EcPV9). The complete 7656 bp genome of EcPV9 exhibited similar characteristics to those of other horse papillomaviruses. Phylogenetic analysis based on concatenated E1-E2-L2-L1 amino acid sequences revealed that EcPV9 clustered with EcPV2, EcPV4, and EcPV5, although was distinct enough to represent a new viral species within the genus Dyoiotapapillomavirus (69.35%, 59.25%, and 58.00% nucleotide similarity to EcPV2, EcPV4, and EcPV5, respectively). In sum, we demonstrate the presence of a novel equine papillomavirus for which more detailed studies of disease association are merited.

Published

2019

77. Limited Sustained Local Transmission of HIV-1 CRF01_AE in New South Wales, Australia

Author

Francesca Di Giallonardo, Angie N. Pinto, Phillip Keen, Ansari Shaik, Alex Carrera, Hanan Salem, Barbara Telfer, Craig Cooper, Karen Price, Christine Selvey, Joanne Holden, Nadine Bachmann, Frederick J. Lee, Dominic E. Dwyer, Sebastián Duchêne, Edward C. Holmes, Andrew E. Grulich, and Anthony D. Kelleher

Subjects

HIV-1 CRF01_AE, transmission cluster, evolution, cluster growth, sub-epidemic, Microbiology, QR1-502

Abstract

Australia’s response to the human immunodeficiency virus type 1 (HIV-1) pandemic led to effective control of HIV transmission and one of the world’s lowest HIV incidence rates—0.14%. Although there has been a recent decline in new HIV diagnoses in New South Wales (NSW), the most populous state in Australia, there has been a concomitant increase with non-B subtype infections, particularly for the HIV-1 circulating recombinant form CRF01_AE. This aforementioned CRF01_AE sampled in NSW, were combined with those sampled globally to identify NSW-specific viral clades. The population growth of these clades was assessed in two-year period intervals from 2009 to 2017. Overall, 109 NSW-specific clades were identified, most comprising pairs of sequences; however, five large clades comprising ≥10 sequences were also found. Forty-four clades grew over time with one or two sequences added to each in different two-year periods. Importantly, while 10 of these clades have seemingly discontinued, the remaining 34 were still active in 2016/2017. Seven such clades each comprised ≥10 sequences, and are representative of individual sub-epidemics in NSW. Thus, although the majority of new CRF01_AE infections were associated with small clades that rarely establish ongoing chains of local transmission, individual sub-epidemics are present and should be closely monitored.

Published

2019

78. Identification of A Novel Picorna-Like Virus, Burpengary Virus, that is Negatively Associated with Chlamydial Disease in the Koala

Author

Erin Harvey, Danielle Madden, Adam Polkinghorne, and Edward C. Holmes

Subjects

virus discovery, Chlamydia pecorum, koala, picornavirus, phylogeny, Microbiology, QR1-502

Abstract

Koalas (Phascolarctos cinereus) are native Australian marsupials whose populations are in decline from a range of threats. Infectious diseases caused by the bacterium Chlamydia pecorum and other pathogens are of particular concern. We analysed 26 poly-A selected RNA-sequencing libraries from a data set designed to study the immune response of koalas to ocular chlamydial infection. Using virus discovery techniques, we identified the coding-complete genome sequence of a novel picorna-like virus, denoted Burpengary virus, that was most common in south-east Queensland. Notably, abundance measurements of the virus across all 26 libraries revealed an inverse relationship between abundance and ocular disease in koalas, suggesting that the co-infection of Burpengary virus and Chlamydia pecorum is inhibited.

Published

2019

79. Shared Common Ancestry of Rodent Alphacoronaviruses Sampled Globally

Author

Theocharis Tsoleridis, Joseph G. Chappell, Okechukwu Onianwa, Denise A. Marston, Anthony R. Fooks, Elodie Monchatre-Leroy, Gérald Umhang, Marcel A. Müller, Jan F. Drexler, Christian Drosten, Rachael E. Tarlinton, Charles P. McClure, Edward C. Holmes, and Jonathan K. Ball

Subjects

coronavirus, alphacoronavirus, rodents, ancestry, recombination, evolution, Microbiology, QR1-502

Abstract

The recent discovery of novel alphacoronaviruses (alpha-CoVs) in European and Asian rodents revealed that rodent coronaviruses (CoVs) sampled worldwide formed a discrete phylogenetic group within this genus. To determine the evolutionary history of rodent CoVs in more detail, particularly the relative frequencies of virus-host co-divergence and cross-species transmission, we recovered longer fragments of CoV genomes from previously discovered European rodent alpha-CoVs using a combination of PCR and high-throughput sequencing. Accordingly, the full genome sequence was retrieved from the UK rat coronavirus, along with partial genome sequences from the UK field vole and Poland-resident bank vole CoVs, and a short conserved ORF1b fragment from the French rabbit CoV. Genome and phylogenetic analysis showed that despite their diverse geographic origins, all rodent alpha-CoVs formed a single monophyletic group and shared similar features, such as the same gene constellations, a recombinant beta-CoV spike gene, and similar core transcriptional regulatory sequences (TRS). These data suggest that all rodent alpha CoVs sampled so far originate from a single common ancestor, and that there has likely been a long-term association between alpha CoVs and rodents. Despite this likely antiquity, the phylogenetic pattern of the alpha-CoVs was also suggestive of relatively frequent host-jumping among the different rodent species.

Published

2019

80. Emerging Rabbit Hemorrhagic Disease Virus 2 (RHDVb), Australia

Author

Robyn N. Hall, Jackie E. Mahar, Stephanie Haboury, Vicky Stevens, Edward C. Holmes, and Tanja Strive

Subjects

rabbit hemorrhagic disease virus, RHDV2, RHDVb, biocontrol, viruses, Australia, Medicine, Infectious and parasitic diseases, RC109-216

Published

2015

81. A Divergent Hepatitis D-Like Agent in Birds

Author

Michelle Wille, Hans J. Netter, Margaret Littlejohn, Lilly Yuen, Mang Shi, John-Sebastian Eden, Marcel Klaassen, Edward C. Holmes, and Aeron C. Hurt

Subjects

co-evolution, dabbling duck, hepatitis D virus, phylogeny, Microbiology, QR1-502

Abstract

Hepatitis delta virus (HDV) is currently only found in humans and is a satellite virus that depends on hepatitis B virus (HBV) envelope proteins for assembly, release, and entry. Using meta-transcriptomics, we identified the genome of a novel HDV-like agent in ducks. Sequence analysis revealed secondary structures that were shared with HDV, including self-complementarity and ribozyme features. The predicted viral protein shares 32% amino acid similarity to the small delta antigen of HDV and comprises a divergent phylogenetic lineage. The discovery of an avian HDV-like agent has important implications for the understanding of the origins of HDV and sub-viral agents.

Published

2018

82. Evolution of Human Respiratory Syncytial Virus (RSV) over Multiple Seasons in New South Wales, Australia

Author

Francesca Di Giallonardo, Jen Kok, Marian Fernandez, Ian Carter, Jemma L. Geoghegan, Dominic E. Dwyer, Edward C. Holmes, and John-Sebastian Eden

Subjects

respiratory syncytial virus, phylogenetics, evolution, multi-year persistence, Microbiology, QR1-502

Abstract

There is an ongoing global pandemic of human respiratory syncytial virus (RSV) infection that results in substantial annual morbidity and mortality. In Australia, RSV is a major cause of acute lower respiratory tract infections (ALRI). Nevertheless, little is known about the extent and origins of the genetic diversity of RSV in Australia, nor the factors that shape this diversity. We have conducted a genome-scale analysis of RSV infections in New South Wales (NSW). RSV genomes were successfully sequenced for 144 specimens collected between 2010–2016. Of these, 64 belonged to the RSVA and 80 to the RSVB subtype. Phylogenetic analysis revealed a wide diversity of RSV lineages within NSW and that both subtypes evolved rapidly in a strongly clock-like manner, with mean rates of approximately 6–8 × 10−4 nucleotide substitutions per site per year. There was only weak evidence for geographic clustering of sequences, indicative of fluid patterns of transmission within the infected population and no evidence of any clustering by patient age such that viruses in the same lineages circulate through the entire host population. Importantly, we show that both subtypes circulated concurrently in NSW with multiple introductions into the Australian population in each year and only limited evidence for multi-year persistence.

Published

2018

83. Transcriptome Analysis and In Situ Hybridization for FcaGHV1 in Feline Lymphoma

Author

Mahdis Aghazadeh, Mang Shi, Patricia A. Pesavento, Amy C. Durham, Tamsen Polley, Shannon L. Donahoe, Ryan M. Troyer, Vanessa R. Barrs, Edward C. Holmes, and Julia A. Beatty

Subjects

gammaherpesvirus, immunodeficiency, virus, domestic cat, felid, lymphomagenesis, oncogenic, transcriptome, lymphoma, cancer, B-cell, T-cell, Microbiology, QR1-502

Abstract

Lymphoma is one of the most common malignancies in domestic cats. The lymphomagenic potential of Felis catus gammaherpesvirus 1 (FcaGHV1), a common infection in domestic cats, is unknown. In other species, including humans, cellular transformation by gammaherpesviruses is typically mediated by viral genes expressed during latency. We analysed tumour RNA, from diffuse large B-cell lymphomas (DLBCL) appearing in cats coinfected with FcaGHV1 and feline immunodeficiency virus (FIV) (n = 10), by high throughput transcriptome sequencing and reverse transcription PCR. A limited repertoire of FcaGHV transcripts was identified in five tumors, including homologs of oncogenic latency-associated transcripts, latency-associated nuclear antigen (LANA, ORF73) and vFLIP (F7), lytic genes (ORF50, ORF6, ORF59, F10), and an ORF unique to FcaGHV1, F20. In situ hybridization of FIV-associated DLBCLs (n = 9), post-transplant lymphomas (n = 6) and high-grade B and T-cell intestinal lymphomas (n = 8) identified a single case in which FcaGHV1 nucleic acid was detectable. These results demonstrate that FcaGHV1 transcripts can be detected in some FIV-associated lymphomas, but at low copy number, precluding assessment of a potential role for FcaGHV1 in lymphomagenesis. Future investigation of the FcaGHV1 transcriptome in clinical samples might employ viral enrichment and greater sequencing depth to enhance the retrieval of viral reads. Our results suggest prioritization of a subset of intestinal T-cell tumors, large granular lymphocyte lymphoma, for study.

Published

2018

84. Virological Sampling of Inaccessible Wildlife with Drones

Author

Jemma L. Geoghegan, Vanessa Pirotta, Erin Harvey, Alastair Smith, Jan P. Buchmann, Martin Ostrowski, John-Sebastian Eden, Robert Harcourt, and Edward C. Holmes

Subjects

whale, virome, drone, mammalian host, virosphere, Microbiology, QR1-502

Abstract

There is growing interest in characterizing the viromes of diverse mammalian species, particularly in the context of disease emergence. However, little is known about virome diversity in aquatic mammals, in part due to difficulties in sampling. We characterized the virome of the exhaled breath (or blow) of the Eastern Australian humpback whale (Megaptera novaeangliae). To achieve an unbiased survey of virome diversity, a meta-transcriptomic analysis was performed on 19 pooled whale blow samples collected via a purpose-built Unmanned Aerial Vehicle (UAV, or drone) approximately 3 km off the coast of Sydney, Australia during the 2017 winter annual northward migration from Antarctica to northern Australia. To our knowledge, this is the first time that UAVs have been used to sample viruses. Despite the relatively small number of animals surveyed in this initial study, we identified six novel virus species from five viral families. This work demonstrates the potential of UAVs in studies of virus disease, diversity, and evolution.

Published

2018

85. Publisher Correction: Sudden emergence of human infections with H7N9 avian influenza A virus in Hubei province, central China

Author

Jiafa Liu, Junqiang Xu, Linlin Liu, Xiaoman Wei, Yi Song, Bin Fang, Xiao Yu, Xiang Li, Guojun Ye, Yingying Du, Mingyue Chen, Weifeng Shi, Di Liu, Edward C. Holmes, and Jie Cui

Subjects

Medicine, Science

Abstract

A correction to this article has been published and is linked from the HTML and PDF versions of this paper. The error has been fixed in the paper.

Published

2018

86. A Novel Hepadnavirus Identified in an Immunocompromised Domestic Cat in Australia

Author

Mahdis Aghazadeh, Mang Shi, Vanessa R. Barrs, Alicia J. McLuckie, Scott A. Lindsay, Barbara Jameson, Bronte Hampson, Edward C. Holmes, and Julia A. Beatty

Subjects

virus, hepadnavirus, Orthohepadnavirus, immuosuppression, hepatitis B, domestic cat, feline, carnivore, pathogen discovery, Microbiology, QR1-502

Abstract

High-throughput transcriptome sequencing allows for the unbiased detection of viruses in host tissues. The application of this technique to immunosuppressed animals facilitates the detection of viruses that might otherwise be excluded or contained in immunocompetent individuals. To identify potential viral pathogens infecting domestic cats we performed high-throughput transcriptome sequencing of tissues from cats infected with feline immunodeficiency virus (FIV). A novel member of the Hepadnaviridae, tentatively named domestic cat hepadnavirus, was discovered in a lymphoma sample and its complete 3187 bp genome characterized. Phylogenetic analysis placed the domestic cat hepadnavirus as a divergent member of mammalian orthohepadnaviruses that exhibits no close relationship to any other virus. DNA extracted from whole blood from pet cats was positive for the novel hepadnavirus by PCR in 6 of 60 (10%) FIV-infected cats and 2 of 63 (3.2%) FIV-uninfected cats. The higher prevalence of hepadnavirus viraemia detected in FIV-infected cats mirrors that seen in human immunodeficiency virus-infected humans coinfected with hepatitis B virus. In summary, we report the first hepadnavirus infection in a carnivore and the first in a companion animal. The natural history, epidemiology and pathogenic potential of domestic cat hepadnavirus merits additional investigation.

Published

2018

87. Global Distribution of Novel Rhinovirus Genotype

Author

Thomas Briese, Neil Renwick, Marietjie Venter, Richard G. Jarman, Dhrubaa Ghosh, Sophie Köndgen, Sanjaya K. Shrestha, A. Mette Hoegh, Inmaculada Casas, Edgard Valerie Adjogoua, Chantal Akoua-Koffi, Khin Saw Myint, David T. Williams, Glenys R. Chidlow, Ria van den Berg, Cristina Calvo, Orienka Koch, Gustavo Palacios, Vishal Kapoor, Joseph Villari, Samuel R. Dominguez, Kathryn V. Holmes, Gerry Harnett, David W. Smith, John S. MacKenzie, Heinz Ellerbrok, Brunhilde Schweiger, Kristian Schønning, Mandeep S. Chadha, Fabian H. Leendertz, A.C. Mishra, Robert V. Gibbons, Edward C. Holmes, and W. Ian Lipkin

Subjects

picornavirus, rhinovirus, HRV-C, multiplex MassTag PCR, lower respiratory tract infection, childhood pneumonia, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Global surveillance for a novel rhinovirus genotype indicated its association with community outbreaks and pediatric respiratory disease in Africa, Asia, Australia, Europe, and North America. Molecular dating indicates that these viruses have been circulating for at least 250 years.

Published

2008

88. Intrahost Dynamics of Antiviral Resistance in Influenza A Virus Reflect Complex Patterns of Segment Linkage, Reassortment, and Natural Selection

Author

Matthew B. Rogers, Timothy Song, Robert Sebra, Benjamin D. Greenbaum, Marie-Eve Hamelin, Adam Fitch, Alan Twaddle, Lijia Cui, Edward C. Holmes, Guy Boivin, and Elodie Ghedin

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT Resistance following antiviral therapy is commonly observed in human influenza viruses. Although this evolutionary process is initiated within individual hosts, little is known about the pattern, dynamics, and drivers of antiviral resistance at this scale, including the role played by reassortment. In addition, the short duration of human influenza virus infections limits the available time window in which to examine intrahost evolution. Using single-molecule sequencing, we mapped, in detail, the mutational spectrum of an H3N2 influenza A virus population sampled from an immunocompromised patient who shed virus over a 21-month period. In this unique natural experiment, we were able to document the complex dynamics underlying the evolution of antiviral resistance. Individual resistance mutations appeared weeks before they became dominant, evolved independently on cocirculating lineages, led to a genome-wide reduction in genetic diversity through a selective sweep, and were placed into new combinations by reassortment. Notably, despite frequent reassortment, phylogenetic analysis also provided evidence for specific patterns of segment linkage, with a strong association between the hemagglutinin (HA)- and matrix (M)-encoding segments that matches that previously observed at the epidemiological scale. In sum, we were able to reveal, for the first time, the complex interaction between multiple evolutionary processes as they occur within an individual host. IMPORTANCE Understanding the evolutionary forces that shape the genetic diversity of influenza virus is crucial for predicting the emergence of drug-resistant strains but remains challenging because multiple processes occur concurrently. We characterized the evolution of antiviral resistance in a single persistent influenza virus infection, representing the first case in which reassortment and the complex patterns of drug resistance emergence and evolution have been determined within an individual host. Deep-sequence data from multiple time points revealed that the evolution of antiviral resistance reflects a combination of frequent mutation, natural selection, and a complex pattern of segment linkage and reassortment. In sum, these data show how immunocompromised hosts may help reveal the drivers of strain emergence.

Published

2015

89. Co-Circulation and Persistence of Genetically Distinct Saffold Viruses, Denmark

Author

Alex Christian Yde Nielsen, Mette Louise Gyhrs, Edward C. Holmes, and Jie Cui

Subjects

Safford virus, cardiovirus, evolution, phylogeny, co-circulation, persistence, Medicine, Infectious and parasitic diseases, RC109-216

Published

2012

90. Comment: Characterization of Two Historic Smallpox Specimens from a Czech Museum

Author

Ashleigh F. Porter, Ana T. Duggan, Hendrik N. Poinar, and Edward C. Holmes

Subjects

smallpox, variola virus, evolution, ancient DNA, molecular clock, phylogeny, Microbiology, QR1-502

Abstract

The complete genome sequences of two strains of variola virus (VARV) sampled from human smallpox specimens present in the Czech National Museum, Prague, were recently determined, with one of the sequences estimated to date to the mid-19th century. Using molecular clock methods, the authors of this study go on to infer that the currently available strains of VARV share an older common ancestor, at around 1350 AD, than some recent estimates based on other archival human samples. Herein, we show that the two Czech strains exhibit anomalous branch lengths given their proposed age, and by assuming a constant rate of evolutionary change across the rest of the VARV phylogeny estimate that their true age in fact lies between 1918 and 1937. We therefore suggest that the age of the common ancestor of currently available VARV genomes most likely dates to late 16th and early 17th centuries and not ~1350 AD.

Published

2017

91. Pandemics–Keep Calm and Carry On.

Author

Edward C. Holmes

Subjects

Biology (General), QH301-705.5

Abstract

Evolutionary biologist Edward Holmes reviews Peter Doherty's book,

Published

2014

92. Diversity and Origin of Dengue Virus Serotypes 1, 2, and 3, Bhutan

Author

Tandin Dorji, In-Kyu Yoon, Edward C. Holmes, Sonam Wangchuk, Tashi Tobgay, Ananda Nisalak, Piyawan Chinnawirotpisan, Kanittha Sangkachantaranon, Robert V. Gibbons, and Richard G. Jarman

Subjects

Dengue, Bhutan, Nepal, phylogeny, emergence, serotypes, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

To determine the serotype and genotype of dengue virus (DENV) in Bhutan, we conducted phylogenetic analyses of complete envelope gene sequences. DENV-2 (Cosmopolitan genotype) predominated in 2004, and DENV-3 (genotype III) predominated in 2005–2006; these viruses were imported from India. Primary dengue infections outnumbered secondary infections, suggesting recent emergence.

Published

2009

93. Correction: The Role of Selection in Shaping Diversity of Natural Populations.

Author

Caitlin S. Pepperell, Amanda M. Casto, Andrew Kitchen, Julie M. Granka, Omar E. Cornejo, Edward C. Holmes, Bruce Birren, James Galagan, and Marcus W. Feldman

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2013

94. Correction: Phylodynamics and Human-Mediated Dispersal of a Zoonotic Virus.

Author

Chiraz Talbi, Philippe Lemey, Marc A. Suchard, Elbia Abdelatif, Mehdi Elharrak, Jalal Nourlil, Abdellah Faouzi, Juan E. Echevarría, Sonia Vazquez Morón, Andrew Rambaut, Nicholas Campiz, Andrew J. Tatem, Edward C. Holmes, and Hervé Bourhy

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2011

95. Correction: Molecular Epidemiology of A/H3N2 and A/H1N1 Influenza Virus during a Single Epidemic Season in the United States.

Author

Martha I. Nelson, Laurel Edelman, David J. Spiro, Alex R. Boyne, Jayati Bera, Rebecca Halpin, Naomi Sengamalay, Elodie Ghedin, Mark A. Miller, Lone Simonsen, Cecile Viboud, and Edward C. Holmes

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2008

96. Dengue Virus Type 3, Cuba, 2000–2002

Author

Rosmari Rodriguez-Roche, Mayling Alvarez, Edward C. Holmes, Lidice Bernardo, Gustavo Kouri, Ernest A. Gould, Scott B. Halstead, and María G. Guzmán

Subjects

phylogenetic analysis, sequences, dengue viruses, Cuba, Medicine, Infectious and parasitic diseases, RC109-216

Published

2005

97. Bioinformatics resources for SARS-CoV-2 discovery and surveillance.

Author

Tao Hu, Juan Li, Hong Zhou, Cixiu Li, Edward C. Holmes, and Weifeng Shi

Published

2021

98. Collecting and managing taxonomic data with NCBI-taxonomist.

Author

Jan P. Buchmann and Edward C. Holmes

Published

2021

99. Entrezpy: a Python library to dynamically interact with the NCBI Entrez databases.

Author

Jan P. Buchmann and Edward C. Holmes

Published

2019

100. Identification of bovine coronavirus in a Daurian ground squirrel expands the host range of Betacoronavirus 1

Author

Lin Xu, Wei Liu, Mengyu Bie, Tao Hu, Dong Yan, Zhishu Xiao, Edward C. Holmes, and Weifeng Shi

Subjects

Virology, Immunology, Molecular Medicine

Published

2023