Your search keyword '"Kuttichantran Subramaniam"' showing total 100 results

1. Exploring Burkholderia pseudomallei-specific bacteriophages: overcoming O-antigen specificity and adaptive mutation in phage tail fiber

Author

Pacharapong Khrongsee, Jedsada Kaewrakmuk, Mariam Alami-Rose, Kuttichantran Subramaniam, Thomas B. Waltzek, Herbert P. Schweizer, and Apichai Tuanyok

Subjects

melioidosis, Burkholderia pseudomallei, bacteriophage, phage-tail fiber, GpH, Microbiology, QR1-502

Abstract

IntroductionBurkholderia pseudomallei, a Gram-negative bacterium inhabiting soil and fresh water, is the causative agent of melioidosis, a formidable disease in the tropics. The emergence of antibiotic resistance and the extended duration of treatment, up to 20 weeks, have posed significant challenges in combatting melioidosis. As an alternative approach, bacteriophage therapy is being explored.MethodsTo identify the most promising bacteriophage for future therapeutic applications, we designed a screening process to address the barrier of phage specificity due to the O-antigen receptor diversity. By using two biosafe strains, Bp82 (O-antigen type A) and 576mn (O-antigen type B), to represent the major serotype A and B, we screened 145 phage samples collected from soil and water in southern Thailand.ResultsTen of them demonstrated the ability to overcome differences in O-antigen types, yielding positive plaques formed on culture of both bacterial strains. Subsequently, we isolated 22 bacteriophages from these samples, one was adaptively mutated during the screening process, named ΦPK23V1, which had the ability to infect up to 83.3% (115/138) of tested B. pseudomallei strains, spanning both serogroups. Employing a panel of surface polysaccharide antigen mutant strains, we explored the role of capsular polysaccharide (CPS) and O-antigens as essential components for phage infection. All isolated phages were classified into the P2-like myophage group. Additionally, our research revealed a point mutation in the phage tail fiber gene (gpH), expanding the host range of ΦPK23V1, even in the absence of CPS and O-antigens.DiscussionHowever, it was evident that ΦPK23V1 is a lysogenic phage, which cannot be readily applied for therapeutic use. This discovery sheds light on the receptor binding domain of P2-like bacteriophages in B. pseudomallei. Collectively, our study has identified bacteriophages with a broad host range within B. pseudomallei strains, enhancing our understanding of phage–host interactions and offering insights into the role of the phage tail fiber gene in host cell entry.

Published

2024

2. Piscichuvirus-Associated Severe Meningoencephalomyelitis in Aquatic Turtles, United States, 2009–2021

Author

Weerapong Laovechprasit, Kelsey T. Young, Brian A. Stacy, Steven B. Tillis, Robert J. Ossiboff, Jordan A. Vann, Kuttichantran Subramaniam, Dalen W. Agnew, Elizabeth W. Howerth, Jian Zhang, Shayna Whitaker, Alicia Walker, Andrew M. Orgill, Lyndsey N. Howell, Donna J. Shaver, Kyle Donnelly, Allen M. Foley, and James B. Stanton

Subjects

Piscichuvirus, turtles, metagenomics, encephalomyelitis, meningoencephalomyelitis, infectious diseases, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Viruses from a new species of piscichuvirus were strongly associated with severe lymphocytic meningoencephalomyelitis in several free-ranging aquatic turtles from 3 coastal US states during 2009–2021. Sequencing identified 2 variants (freshwater turtle neural virus 1 [FTuNV1] and sea turtle neural virus 1 [STuNV1]) of the new piscichuvirus species in 3 turtles of 3 species. In situ hybridization localized viral mRNA to the inflamed region of the central nervous system in all 3 sequenced isolates and in 2 of 3 additional nonsequenced isolates. All 3 sequenced isolates phylogenetically clustered with other vertebrate chuvirids within the genus Piscichuvirus. FTuNV1 and STuNV1 shared ≈92% pairwise amino acid identity of the large protein, which narrowly places them within the same novel species. The in situ association of the piscichuviruses in 5 of 6 turtles (representing 3 genera) with lymphocytic meningoencephalomyelitis suggests that piscichuviruses are a likely cause of lymphocytic meningoencephalomyelitis in freshwater and marine turtles.

Published

2024

3. A Novel Jeilongvirus from Florida, USA, Has a Broad Host Cell Tropism Including Human and Non-Human Primate Cells

Author

Emily DeRuyter, Kuttichantran Subramaniam, Samantha M. Wisely, J. Glenn Morris, and John A. Lednicky

Subjects

Jeilongvirus, viral emergence, paramyxovirus, rodent virus, cell culture, Medicine

Abstract

A novel jeilongvirus was identified through next-generation sequencing in cell cultures inoculated with spleen and kidney extracts. The spleen and kidney were obtained from a Peromyscus gossypinus rodent (cotton mouse) found dead in the city of Gainesville, in North-Central Florida, USA. Jeilongviruses are paramyxoviruses of the subfamily Orthoparamyxovirinae that have been found in bats, cats, and rodents. We designated the virus we discovered as Gainesville rodent jeilong virus 1 (GRJV1). Preliminary results indicate that GRJV1 can complete its life cycle in various human, non-human primate, and rodent cell lines, suggesting that the virus has a generalist nature with the potential for a spillover event. The early detection of endemic viruses circulating within hosts in North-Central Florida can significantly enhance surveillance efforts, thereby bolstering our ability to monitor and respond to potential outbreaks effectively.

Published

2024

4. Mycobacterium kansasii Infection in a Farmed White-Tailed Deer (Odocoileus virginianus) in Florida, USA

Author

Sydney L. Cottingham, An-Chi Cheng, Pedro H. de Oliveira Viadanna, Kuttichantran Subramaniam, William F. Craft, Marley E. Iredale, Samantha M. Wisely, and Juan M. Campos Krauer

Subjects

non-tuberculous Mycobacterium, pneumonia, captive cervid, deer farming, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

A 7-year-old farmed white-tailed deer doe was transported to a Levy County, Florida property and began to decline in health, exhibiting weight loss and pelvic limb weakness. The doe prematurely delivered live twin fawns, both of which later died. The doe was treated with corticosteroids, antibiotics, gastric cytoprotectants, and B vitamins but showed no improvement. The doe was euthanized, and a post mortem examination was performed under the University of Florida’s Cervidae Health Research Initiative. We collected lung tissue after the animal was euthanized and performed histological evaluation, using H&E and Ziehl–Neelsen (ZN) staining, and molecular evaluation, using conventional PCR, followed by Sanger sequencing. The microscopic observations of the H&E-stained lung showed multifocal granuloma, while the ZN-stained tissue revealed low numbers of beaded, magenta-staining rod bacteria inside the granuloma formation. Molecular analysis identified the presence of Mycobacterium kansasii. This isolation of a non-tuberculous Mycobacterium in a white-tailed deer emphasizes the importance of specific pathogen identification in cases of tuberculosis-like disease in farmed and free-ranging cervids. We report the first case of M. kansasii infection in a farmed white-tailed deer (Odocoileus virginianus) in Florida. Although M. kansasii cases are sporadic in white-tailed deer, it is important to maintain farm biosecurity and prevent farmed cervids from contacting wildlife to prevent disease transmission.

Published

2024

5. Phylogenomic Characterization of Ranavirus Isolated from Wild Smallmouth Bass (Micropterus dolomieu)

Author

Hannah Quail, Pedro H. O. Viadanna, Jordan A. Vann, Hui-Min Hsu, Andrea Pohly, Willow Smith, Scott Hansen, Nicole Nietlisbach, Danielle Godard, Thomas B. Waltzek, and Kuttichantran Subramaniam

Subjects

largemouth bass virus, iridovirus, ranavirus, smallmouth bass, Microbiology, QR1-502

Abstract

In September 2021, 14 smallmouth bass (SMB; Micropterus dolomieu) with skin lesions were collected from Green Bay waters of Lake Michigan and submitted for diagnostic evaluation. All the skin samples tested positive for largemouth bass virus (LMBV) by conventional PCR. The complete genome of the LMBV (99,328 bp) isolated from a homogenized skin sample was determined using an Illumina MiSeq sequencer. A maximum likelihood (ML) phylogenetic analysis based on the 21 core iridovirus genes supported the LMBV isolated from SMB (LMBV-WVL21117) as a member of the species Santee-Cooper ranavirus. Pairwise nucleotide comparison of the major capsid protein (MCP) gene showed that LMBV-WVL21117 is identical to other LMBV reported from the United States and nearly identical to doctor fish virus and guppy virus 6 (99.2%) from Southeast Asia, as well as LMBV isolates from China and Thailand (99.1%). In addition, ML phylogenetic analysis based on the MCP gene suggests three genotypes of LMBV separated by region: genotype one from the United States, genotype two from Southeast Asia, and genotype three from China and Thailand. Additional research is needed to understand the prevalence and genetic diversity of LMBV strains circulating in wild and managed fish populations from different regions.

Published

2024

6. Emerging threat of ranavirus: prevalence, genetic diversity, and climatic drivers of Ranavirus (Iridoviridae) in ectothermic vertebrates of Asia

Author

Jayampathi Herath, Dan Sun, Gajaba Ellepola, Kuttichantran Subramaniam, and Madhava Meegaskumbura

Subjects

ranavirus, introduced species, phylogenetic relationships, climatic niche, co-infection, Veterinary medicine, SF600-1100

Abstract

IntroductionRanavirus disease, caused by viruses within the genus Ranavirus (Iridoviridae), is considered a globally emerging infectious disease linked to mass mortality events in both wild and cultured ectothermic vertebrates. Surveillance work is, however, limited in Asia hence prevalence and the dynamics of the disease remain poorly understood. To understand disease burden and the potential biotic and abiotic drivers in southern China region, we conducted a systematic surveillance of the ranavirus across Guangxi Zhuang Autonomous region (GAR).MethodsFor this, we used a multifaceted approach involving screening of amphibians and other potential hosts, diagnostic tests, phylogenetic analyses, prevalence estimation, co-infection assessments, and climatic niche analyses. Over one thousand individuals were sampled across 25 sampling sites.ResultsWe found ninety-two individuals from 18 species of ectothermic vertebrates to be infected with ranavirus. Two lineages were responsible – Rana nigromaculata ranavirus and tiger frog virus were identified using phylogenetic analysis based on the major capsid protein (MCP) gene fragment. Out of these two lineages, the presence of tiger frog virus is rare as we came across only one case. We also found evidence of a co-infection with ranavirus and Batrachochytrium dendrobatidis that can be highly detrimental to host populations; possibly the first such documentation in Asia. Our niche modelling analysis suggests that precipitation seasonality plays an important role in ranavirus prevalence in GAR – southwestern, southeastern, central and northeastern regions of GAR can be considered to be optimum habitats for ranaviruses. Infection rates in wild frog species have reached 100% in some areas, even in nature reserves.DiscussionOur research also indicates that culture facilities and pet markets are frequently infected, serving as likely vectors for the regional and global spread of ranaviruses. The knowledge generated suggests the need for systematic surveillance, stringent biosecurity measures, and control of international animal trade to prevent further transmission and protection of biodiversity and aquaculture industries across Asia.

Published

2023

7. Partial validation of a TaqMan quantitative polymerase chain reaction for the detection of the three genotypes of Infectious spleen and kidney necrosis virus.

Author

Samantha A Koda, Kuttichantran Subramaniam, Paul M Hick, Evelyn Hall, Thomas B Waltzek, and Joy A Becker

Subjects

Medicine, Science

Abstract

Megalocytiviruses (MCVs) are double-stranded DNA viruses known to infect important freshwater and marine fish species in the aquaculture, food, and ornamental fish industries worldwide. Infectious spleen and kidney necrosis virus (ISKNV) is the type species within the genus Megalocytivirus that causes red seabream iridoviral disease (RSIVD) which is a reportable disease to the World Animal Health Organization (WOAH). To better control the transboundary spread of this virus and support WOAH reporting requirements, we developed and partially validated a TaqMan real-time qPCR assay (ISKNV104R) to detect all three genotypes of ISKNV, including the two genotypes that cause RSIVD. Parameters averaged across 48 experiments used a 10-fold dilution series of linearized plasmid DNA (107-101 copies), carrying a fragment of the three-spot gourami iridovirus (TSGIV) hypothetical protein revealed that the assay was linear over 7 orders of magnitude (107-101), a mean efficiency of 99.97 ± 2.92%, a mean correlation coefficient of 1.000 ± 0.001, and a limit of detection (analytical sensitivity) of ≤10 copies of TSGIV DNA. The diagnostic sensitivity and specificity for the ISKNV104R qPCR assay was evaluated and compared to other published assays using a panel of 397 samples from 21 source populations with different prevalence of ISKNV infection (0-100%). The diagnostic sensitivity and specificity for the ISKNV104R qPCR assay was 91.99% (87.28-95.6; 95% CI) and 89.8% (83.53-94.84). The latent class analysis showed that the ISKNV104R qPCR assay had similar diagnostic sensitivities and specificities with overlapping confidence limits compared to a second TaqMan qPCR assay and a SYBR green assay. This newly developed TaqMan assay represents a partially validated qPCR assay for the detection of the three genotypes of the species ISKNV. The ISKNV104R qPCR assay once fully validated, will serve as an improved diagnostic tool that can be used for ISKNV surveillance efforts and diagnosis in subclinical fish to prevent further spread of MCVs throughout the aquaculture and ornamental fish industries.

Published

2023

8. Novel cetacean morbillivirus in a rare Fraser’s dolphin (Lagenodelphis hosei) stranding from Maui, Hawai‘i

Author

Kristi L. West, Ilse Silva-Krott, Nelmarie Landrau-Giovannetti, Dave Rotstein, Jeremiah Saliki, Stephen Raverty, Ole Nielsen, Vsevolod L. Popov, Nicole Davis, William A. Walker, Kuttichantran Subramaniam, and Thomas B. Waltzek

Subjects

Medicine, Science

Abstract

Abstract Cetacean morbillivirus (CeMV) is a global threat to cetaceans. We report a novel morbillivirus from a Fraser’s dolphin (Lagenodelphis hosei) that stranded in Maui, Hawaii in 2018 that is dissimilar to the beaked whale morbillivirus previously identified from Hawaii and to other CeMV strains. Histopathological findings included intranuclear inclusions in bile duct epithelium, lymphoid depletion, rare syncytial cells and non-suppurative meningitis. Cerebellum and lung tissue homogenates were inoculated onto Vero.DogSLAMtag cells for virus isolation and cytopathic effects were observed, resulting in the formation of multinucleated giant cells (i.e., syncytia). Transmission electron microscopy of infected cell cultures also revealed syncytial cells with intracytoplasmic and intranuclear inclusions of viral nucleocapsids, consistent with the ultrastructure of a morbillivirus. Samples of the cerebellum, lung, liver, spleen and lymph nodes were positive for morbillivirus using a reverse transcription-polymerase chain reaction. The resulting 559 bp L gene sequence had the highest nucleotide identity (77.3%) to porpoise morbillivirus from Northern Ireland and the Netherlands. The resulting 248 bp P gene had the highest nucleotide identity to porpoise morbillivirus in Northern Ireland and the Netherlands and to a stranded Guiana dolphin (Sotalia guianensis) in Brazil (66.9%). As Fraser’s dolphins are a pelagic species that infrequently strand, a novel strain of CeMV may be circulating in the central Pacific that could have additional population impacts through transmission to other small island-associated cetacean species.

Published

2021

9. Phylogenomic characterization of ranaviruses isolated from cultured fish and amphibians in Thailand

Author

Preeyanan Sriwanayos, Kuttichantran Subramaniam, Natalie K. Stilwell, Kamonchai Imnoi, Vsevolod L. Popov, Somkiat Kanchanakhan, Jaree Polchana, and Thomas B. Waltzek

Subjects

iridovirus, phylogenomics, ranavirus, thailand, tiger frog virus, Education, Science

Abstract

Ranaviruses are emerging pathogens associated with worldwide epizootics in farmed and wild ectothermic vertebrates. In this study, we determined the full genomes of eight ranaviruses isolated from marbled sleeper goby (Oxyeleotris marmorata), goldfish (Carassius auratus), guppy (Poecilia reticulata), tiger frog (Hoplobatrachus tigerinus), Asian grass frog (Fejervarya limnocharis), and East Asian bullfrog (H. rugulosus) cultured or imported into Thailand. These ranaviral isolates induced the same cytopathic effects (i.e., progression of coalescing round plaques) in epithelioma papulosum cyprini (EPC) cell cultures. Transmission electron microscopy of infected EPC cells revealed cytoplasmic viral particles with ultrastructural features typical for ranaviruses. Pairwise genetic comparisons of the complete major capsid protein coding sequences from the Thai ranaviruses displayed the highest identity (99.8%–100%) to a ranavirus (tiger frog virus; TFV) isolated from diseased tiger frogs cultured in China, a slightly lower identity (99.3%–99.4%) to a ranavirus (Wamena virus; WV) isolated from diseased green tree pythons (Morelia viridis) illegally exported from Papua New Guinea, and a lower identity to 35 other ranaviruses (93.7%–98.6%). Phylogenomic analyses supported the eight Thai ranaviruses, Chinese TFV, and WV as a subclade within a larger frog virus 3 clade. Our findings confirm the spread of TFV among cultured fish and amphibians in Asia and likely in reptiles in Oceania. Biosecurity measures are needed to ensure TFV does not continue to spread throughout Southeast Asia and to other parts of the world via international trade.

Published

2020

10. Novel Lethal Clostridial Infection in Florida Manatees (Trichechus manatus latirostris): Cause of the 2013 Unusual Mortality Event in the Indian River Lagoon

Author

Jan H. Landsberg, Maki Tabuchi, David S. Rotstein, Kuttichantran Subramaniam, Thais C. S. Rodrigues, Thomas B. Waltzek, Nicole I. Stacy, Patrick W. Wilson, Yasunari Kiryu, Francisco A. Uzal, and Martine de Wit

Subjects

manatee, mortality, dietary shift, dysbiosis, Paeniclostridium sordellii, Clostridioides difficile, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The Indian River Lagoon (IRL) on Florida’s east coast is a biologically diverse estuary and an important habitat to the threatened Florida manatee (Trichechus manatus latirostris). An unusual mortality event (UME) was declared by the Working Group on Marine Mammal Unusual Mortality Events in 2013 after a marked increase in manatee deaths in the IRL of an unknown cause. This UME followed a dramatic reduction of seagrass coverage in the IRL due to chronic non-toxic phytoplankton blooms, with a resultant ecosystem shift to mixed macroalgal dominance. At least 199 manatee deaths fitting the UME case definition were documented in and adjacent to the IRL during 2012–2019; mortality was highest in 2013, when 111 of these deaths were documented. The case definition included carcasses in good nutritional condition, with multiorgan congestion or wet lungs consistent with drowning without trauma. The gastrointestinal compartments of manatee carcasses were filled with diverse macroalga species, and the contents were notably more fluid than usual. Gross intestinal findings included blebbing to segmental thickening of the wall. Microscopic lesions were primarily intestinal, including necrosis, edema, hemorrhage, mucosa-associated lymphoid changes, and inflammation, sometimes associated with Gram-positive bacterial rods. A multidisciplinary approach of environmental and carcass sampling found no causative evidence through tests for micro- and macroalgal biotoxins, trace metals, general toxin screening, or vitreum biochemistry. Microbiological, cytological, immunohistochemical, and molecular analyses of Clostridiales from intestinal samples identified Clostridioides difficile toxin A, toxins A/B and toxin A gene; Paeniclostridium sordellii lethal gene (and other potential virulence factors from a sequenced strain); and Clostridium perfringens alpha and epsilon toxin genes. The results from this 8 year-long investigation are indicative that the cause of death in this manatee UME was associated with clostridial infection, initiated by a shift to a predominantly macroalgal diet.

Published

2022

11. A novel group of negative-sense RNA viruses associated with epizootics in managed and free-ranging freshwater turtles in Florida, USA

Author

Thomas B. Waltzek, Brian A. Stacy, Robert J. Ossiboff, Nicole I. Stacy, William A. Fraser, Annie Yan, Shipra Mohan, Eugene V. Koonin, Yuri I. Wolf, Thais C. S. Rodrigues, Pedro H. O. Viadanna, Kuttichantran Subramaniam, Vsevolod L. Popov, Veronica Guzman-Vargas, and Lisa A. Shender

Subjects

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

Abstract

Few aquatic animal negative-sense RNA viruses have been characterized, and their role in disease is poorly understood. Here, we describe a virus isolated from diseased freshwater turtles from a Florida farm in 2007 and from an ongoing epizootic among free-ranging populations of Florida softshell turtles (Apalone ferox), Florida red-bellied cooters (Pseudemys nelsoni), and peninsula cooters (Pseudemys peninsularis). Affected turtles presented with similar neurological signs, oral and genital ulceration, and secondary microbial infections. Microscopic lesions were most severe in the softshell turtles and included heterophilic/histiocytic meningoencephalitis, multi-organ vasculitis, and cytologic observation of leukocytic intracytoplasmic inclusions. The virus was isolated using Terrapene heart (TH-1) cells. Ultrastructurally, viral particles were round to pleomorphic and acquired an envelope with prominent surface projections by budding from the cell membrane. Viral genomes were sequenced from cDNA libraries of two nearly identical isolates and determined to be bi-segmented, with an ambisense coding arrangement. The larger segment encodes a predicted RNA-directed RNA polymerase (RdRP) and a putative zinc-binding matrix protein. The smaller segment encodes a putative nucleoprotein and an envelope glycoprotein precursor (GPC). Thus, the genome organization of this turtle virus resembles that of arenaviruses. Phylogenetic analysis shows that the RdRP of the turtle virus is highly diverged from the RdRPs of all known negative-sense RNA viruses and forms a deep branch within the phylum Negarnaviricota, that is not affiliated with any known group of viruses, even at the class level. In contrast, the GPC protein of the turtle virus is confidently affiliated with homologs from a distinct group of fish hantaviruses. Thus, the turtle virus is expected to become the founder of a new taxon of negative-sense RNA viruses, at least with a family rank, but likely, an order or even a class. These viruses probably evolved either by reassortment or by intrasegment recombination between a virus from a distinct branch of negarnaviruses distant from all known groups and a hanta-like aquatic virus. We suggest the provisional name Tosoviridae for the putative new family, with Turtle fraservirus 1 (TFV1) as the type species within the genus Fraservirus. A conventional RT-PCR assay, targeting the TFV1 RdRP, confirmed the presence of viral RNA in multiple tissues and exudates from diseased turtles. The systemic nature of the TFV1 infection was further supported by labeling of cells within lesions using in situ hybridization targeting the RNA of the TFV1 RdRP. Author summary Freshwater turtles are an important part of aquatic ecosystems, but relatively little is known about diseases that affect them. We discovered a new virus associated with die-offs involving multiple turtle species in Florida. Affected turtles had inflammation involving the nervous system and other organs indicative of viral infection. We isolated a virus from diseased turtles and characterized its morphology using electron microscopy. We also sequenced its entire genome to explore its relatedness to other viruses and developed a PCR-based detection assay. The morphology of the virus particle and genome characteristics were reminiscent of an arenavirus. However, phylogenetic analyses of two viral proteins indicate that the turtle virus most likely evolved through genetic mixing between a distinct branch of RNA viruses distant from all known groups and an aquatic hantavirus. Thus, the turtle virus is expected to become a founding member of a new RNA virus family. We provide evidence linking this novel virus with disease in both wild and captive turtles.

Published

2022

12. The complete mitochondrial genome of the Jaguar Loach (Yasuhikotakia splendida)

Author

Thomas B. Waltzek, Kuttichantran Subramaniam, Pedro H. O. Viadanna, Zachary S. Randall, and Lawrence M. Page

Subjects

yasuhikotakia splendida, botiidae, loach, mitogenome, Genetics, QH426-470

Abstract

Herein, we present the complete mitochondrial genome of the Jaguar Loach, Yasuhikotakia splendida. The sequence was determined from an aquarium specimen using a next-generation sequencing approach. The annotated Y. splendida mitogenome was 16,695 bp in length and contained 13 protein-coding genes (PCGs), 2 ribosomal RNA genes, 22 transfer RNA genes, and 1 non-coding control region. The Y. splendida mitogenome displayed an A + T bias with an overall base composition of 32.0% A, 24.7% T, 27.6% C, and 15.7% G. Maximum Likelihood and Bayesian phylogenetic analyses, based on the aligned mitogenome sequences of 22 botiid loach species from each of the 8 genera and 3 outgroups, generated nearly identical trees that supported the Jaguar Loach as the sister species to the Skunk Loach, Y. morleti.

Published

2021

13. Viable SARS-CoV-2 in the air of a hospital room with COVID-19 patients

Author

John A. Lednicky, Michael Lauzard, Z. Hugh Fan, Antarpreet Jutla, Trevor B. Tilly, Mayank Gangwar, Moiz Usmani, Sripriya Nannu Shankar, Karim Mohamed, Arantza Eiguren-Fernandez, Caroline J. Stephenson, Md. Mahbubul Alam, Maha A. Elbadry, Julia C. Loeb, Kuttichantran Subramaniam, Thomas B. Waltzek, Kartikeya Cherabuddi, J. Glenn Morris, Jr., and Chang-Yu Wu

Subjects

Infectious and parasitic diseases, RC109-216

Abstract

Objectives: Because the detection of SARS-CoV-2 RNA in aerosols but failure to isolate viable (infectious) virus are commonly reported, there is substantial controversy whether severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) can be transmitted through aerosols. This conundrum occurs because common air samplers can inactivate virions through their harsh collection processes. We sought to resolve the question whether viable SARS-CoV-2 can occur in aerosols using VIVAS air samplers that operate on a gentle water vapor condensation principle. Methods: Air samples collected in the hospital room of two coronavirus disease-2019 (COVID-19) patients, one ready for discharge and the other newly admitted, were subjected to RT-qPCR and virus culture. The genomes of the SARS-CoV-2 collected from the air and isolated in cell culture were sequenced. Results: Viable SARS-CoV-2 was isolated from air samples collected 2 to 4.8 m away from the patients. The genome sequence of the SARS-CoV-2 strain isolated from the material collected by the air samplers was identical to that isolated from the newly admitted patient. Estimates of viable viral concentrations ranged from 6 to 74 TCID50 units/L of air. Conclusions: Patients with respiratory manifestations of COVID-19 produce aerosols in the absence of aerosol-generating procedures that contain viable SARS-CoV-2, and these aerosols may serve as a source of transmission of the virus.

Published

2020

14. Molecular Confirmation of Ranavirus Infection in Amphibians From Chad, Africa

Author

Erin K. Box, Christopher A. Cleveland, Kuttichantran Subramaniam, Thomas B. Waltzek, and Michael J. Yabsley

Subjects

ranavirus, amphibian, reptile, phylogeography, Africa, Veterinary medicine, SF600-1100

Abstract

Ranaviruses are DNA viruses (Family Iridoviridae; Subfamily Alphairidovirinae) and ranaviral disease is considered an emerging infectious disease of ectothermic vertebrates. Ranavirus infection can have varying pathological effects on infected amphibians, reptiles, and fish, most notably causing significant mortality events and population declines. Despite having a broad global range with reports from six continents, only a single incidental finding in Xenopus longipes from mainland Africa (Cameroon) is known and lacks molecular confirmation. Thus, there is a considerable knowledge gap concerning ranaviruses in Africa. We opportunistically obtained tissue samples from 160 amphibians representing five genera (Hoplobatrachus, Hylarana, Ptychadena, Pyxicephalus, and Xenopus) and two turtles (Pelomedusa sp.) from Chad, Africa. Samples were tested for ranavirus infection using a conventional PCR assay targeting the major capsid protein (MCP). A total of 25/160 (16%) frogs tested positive including 15/87 (17%) Hoplobatrachus occipitalis, 10/58 (17%) Ptychadena spp., 0/3 Pyxicephalus spp., 0/9 Xenopus spp., and 0/3 Hylarana spp. One of two turtles tested positive. Partial MCP gene sequences indicated all samples were >98% similar to several frog virus 3 (FV3)-like sequences. Additional gene targets (DNA polymerase [DNApol], ribonucleotide reductase alpha [RNR- α], ribonucleotide reductase beta subunit [RNR- β]) were sequenced to provide further detailed classification of the virus. Sequences of individual gene targets indicate that the ranavirus detected in frogs in Chad is most similar to tiger frog virus (TFV), a FV3-like virus previously isolated from diseased amphibians cultured in China and Thailand. Full genome sequencing of one sample indicates that the Chad frog virus (CFV) is a well-supported sister group to the TFVs previously determined from Asia. This work represents the first molecular confirmation of ranaviruses from Africa and is a first step in comparing ranavirus phylogeography on a local and global scale.

Published

2021

15. A Novel Orthoreovirus Isolated From Dead Stranded Harbor Seals From Puget Sound, Washington State, United States

Author

Ole Nielsen, Thaís C. S. Rodrigues, Vsevolod L. Popov, Kuttichantran Subramaniam, Thomas B. Waltzek, Dyanna M. Lambourn, and Stephen Raverty

Subjects

genome sequencing, marine mammal, mortality event investigation, pinniped, Reoviridae, transmission electron microscopy, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

As part of an ongoing investigation of harbor seal (Phoca vitulina) mortalities within Puget Sound, Washington State, United States, between October 2007 and July 2008, 25 seal cases were submitted for histopathology and ancillary diagnostic testing, including additional attempted virus isolation. In vitro granular and refractile cytopathic effects (CPE) were consistently observed in Vero.DogSLAMtag cells inoculated with tissue homogenates from three seals. Transmission electron microscopy of infected Vero.DogSLAMtag cells revealed cytoplasmic clusters of icosahedral viral particles morphologically consistent with members of the family Reoviridae. The complete genome of a novel species within the genus Orthoreovirus, tentatively named phocid orthoreovirus 1 (PhRV1), was determined by next-generation sequencing and confirmed by rt-PCR in isolates from the three harbor seals. This is the first report of an orthoreovirus infection associated with dead stranded harbor seals. Aside from the CPE and ultrastructural findings, no consistent signalment, gross pathology, histopathology, or ancillary diagnostic findings were identified with PhRV1 infection. Further research is needed to determine the prevalence, tissue tropism, transmission, pathogenicity, zoonotic potential, and host range of orthoreoviruses in pinnipeds. This study demonstrates the value of thorough necropsy investigations and a multidisciplinary team approach to advance our understanding of marine mammal health.

Published

2021

16. Author Correction: Novel cetacean morbillivirus in a rare Fraser’s dolphin (Lagenodelphis hosei) stranding from Maui, Hawai‘i

Author

Kristi L. West, Ilse Silva‑Krott, Nelmarie Landrau‑Giovannetti, Dave Rotstein, Jeremiah Saliki, Stephen Raverty, Ole Nielsen, Vsevolod L. Popov, Nicole Davis, William A. Walker, Kuttichantran Subramaniam, and Thomas B. Waltzek

Subjects

Medicine, Science

Published

2021

17. Earliest detection to date of SARS-CoV-2 in Florida: Identification together with influenza virus on the main entry door of a university building, February 2020.

Author

John Lednicky, Marco Salemi, Kuttichantran Subramaniam, Thomas B Waltzek, Tara Sabo-Attwood, Julia C Loeb, Shannon Hentschel, Massimiliano S Tagliamonte, Simone Marini, Md Mahbubul Alam, Caroline J Stephenson, Maha Elbadry, and J Glenn Morris

Subjects

Medicine, Science

Abstract

In February and March, 2020, environmental surface swab samples were collected from the handle of the main entry door of a major university building in Florida, as part of a pilot surveillance project screening for influenza. Samples were taken at the end of regular classroom hours, between the dates of February 1-5 and February 19-March 4, 2020. Influenza A(H1N1)pdm09 virus was isolated from the door handle on four of the 19 days sampled. Both SARS-CoV-2 and A(H1N1)pdm09 virus were detected in a sample collected on February 21, 2020. Based on sequence analysis, the Florida SARS-CoV-2 strain (designated UF-11) was identical to strains being identified in Washington state during the same time period, while the earliest similar sequences were sampled in China/Hubei between Dec 30th 2019 and Jan 5th 2020. The first human case of COVID-19 was not officially reported in Florida until March 1st. In an analysis of sequences from COVID-19 patients in this region of Florida, there was only limited evidence of subsequent dissemination of the UF-11 strain. Identical or highly similar strains, possibly related through a common transmission chain, were detected with increasing frequency in Washington state between end of February and beginning of March. Our data provide further documentation of the rapid early spread of SARS-CoV-2 and underscore the likelihood that closely related strains were cryptically circulating in multiple U.S. communities before the first "official" cases were recognized.

Published

2021

18. Characterization of a Novel Reassortant Epizootic Hemorrhagic Disease Virus Serotype 6 Strain Isolated from Diseased White-Tailed Deer (Odocoileus virginianus) on a Florida Farm

Author

Thaís C. S. Rodrigues, Pedro H. O. Viadanna, Kuttichantran Subramaniam, Ian K. Hawkins, Albert B. Jeon, Julia C. Loeb, Juan M. C. Krauer, John A. Lednicky, Samantha M. Wisely, and Thomas B. Waltzek

Subjects

Cervidae, epizootic hemorrhagic disease virus, white-tailed deer, disease, phylogeny, orbivirus, Microbiology, QR1-502

Abstract

We report an outbreak of a novel reassortant epizootic hemorrhagic disease virus serotype 6 (EHDV-6) in white-tailed deer (WTD) on a Florida farm in 2019. At necropsy, most animals exhibited hemorrhagic lesions in the lung and heart, and congestion in the lung, liver, and spleen. Histopathology revealed multi-organ hemorrhage and congestion, and renal tubular necrosis. Tissues were screened by RT-qPCR and all animals tested positive for EHDV. Tissues were processed for virus isolation and next-generation sequencing was performed on cDNA libraries generated from the RNA extracts of cultures displaying cytopathic effects. Six isolates yielded nearly identical complete genome sequences of a novel U.S. EHDV-6 strain. Genetic and phylogenetic analyses revealed the novel strain to be most closely related to a reassortant EHDV-6 strain isolated from cattle in Trinidad and both strains received segment 4 from an Australian EHDV-2 strain. The novel U.S. EHDV-6 strain is unique in that it acquired segment 8 from an Australian EHDV-8 strain. An RNAscope® in situ hybridization assay was developed against the novel U.S. EHDV-6 strain and labeling was detected within lesions of the heart, kidney, liver, and lung. These data support the novel U.S. reassortant EHDV-6 strain as the cause of disease in the farmed WTD.

Published

2022

19. Genomic Characterization of Picornaviruses Isolated From Ribbon (Histriophoca fasciata) and Harbor (Phoca vitulina) Seals

Author

Thais C. S. Rodrigues, Ole Nielsen, Kathy A. Burek-Huntington, Vsevolod L. Popov, Stephen Raverty, Dyanna M. Lambourn, Kuttichantran Subramaniam, and Thomas B. Waltzek

Subjects

aquamavirus, harbor seal, marine mammal, pathogen discovery, picornaviridae, pinniped, Veterinary medicine, SF600-1100

Abstract

The seal picornavirus 1, species Aquamavirus A, is currently the only recognized member of the genus Aquamavirus within the family Picornaviridae. The bear picornavirus 1 was recently proposed as the second species in the genus under the name aquamavirus B. Herein, we determined the complete genomes of two novel pinniped picornaviruses, the harbor seal picornavirus (HsPV) and the ribbon seal picornavirus (RsPV). The HsPV and the RsPV were isolated in Vero.DogSLAMtag cells from samples collected from stranded harbor (Phoca vitulina) and ribbon (Histriophoca fasciata) seals. RsPV-infected Vero.DogSLAMtag cells displaying extensive cytopathic effects were processed for transmission electron microscopy and revealed non-enveloped viral particles aggregated into paracrystalline arrays in the cytoplasm. A next-generation sequencing approach was used to recover the complete genomes of the HsPV and the RsPV (6,709 and 6,683 bp, respectively). Phylogenetic and genetic analyses supported the HsPV and the RsPV as members of the Aquamavirus genus. Based on these results, RsPV represents a novel strain of Aquamavirus A, while the HsPV is a novel strain of the proposed species aquamavirus B. These discoveries provide information on the evolutionary relationships and ultrastructure of aquamaviruses and expands the known host range of those viruses. Our results underscore the importance of the application of classical virology and pathology techniques coupled with high-throughput sequencing technologies for the discovery and characterization of pathogens in wild marine mammals.

Published

2020

20. A New Family of DNA Viruses Causing Disease in Crustaceans from Diverse Aquatic Biomes

Author

Kuttichantran Subramaniam, Donald C. Behringer, Jamie Bojko, Natalya Yutin, Abigail S. Clark, Kelly S. Bateman, Ronny van Aerle, David Bass, Rose C. Kerr, Eugene V. Koonin, Grant D. Stentiford, and Thomas B. Waltzek

Subjects

Crustacea, genome degradation, large nucleocytoplasmic DNA viruses, low-complexity sequences, virus evolution, Microbiology, QR1-502

Abstract

ABSTRACT Panulirus argus virus 1 (PaV1) is the only known virus infecting the Caribbean spiny lobster (Panulirus argus) from the Caribbean Sea. Recently, related viruses, Dikerogammarus haemobaphes virus 1 (DhV1) and Carcinus maenas virus 1 (CmV1), have been detected in the demon shrimp (Dikerogammarus haemobaphes) and the European shore crab (Carcinus maenas), respectively, from sites in the United Kingdom. The virion morphology of these crustacean viruses is similar to that of iridoviruses. However, unlike iridoviruses and other nucleocytoplasmic large DNA viruses (NCLDVs), these viruses complete their morphogenesis in the host cell nucleus rather than in the cytoplasm. To date, these crustacean viruses have remained unclassified due to a lack of genomic data. Using an Illumina MiSeq sequencer, we sequenced the complete genomes of PaV1, CmV1, and DhV1. Comparative genome analysis shows that these crustacean virus genomes encode the 10 hallmark proteins previously described for the NCLDVs of eukaryotes, strongly suggesting that they are members of this group. With a size range of 70 to 74 kb, these are the smallest NCLDV genomes identified to date. Extensive gene loss, divergence of gene sequences, and the accumulation of low-complexity sequences reflect the extreme degradation of the genomes of these “minimal” NCLDVs rather than any direct relationship with the NCLDV ancestor. Phylogenomic analysis supports the classification of these crustacean viruses as a distinct family, “Mininucleoviridae,” within the pitho-irido-Marseille branch of the NCLDVs. IMPORTANCE Recent genomic and metagenomic studies have led to a dramatic expansion of the known diversity of nucleocytoplasmic large DNA viruses (NCLDVs) of eukaryotes, which include giant viruses of protists and important pathogens of vertebrates, such as poxviruses. However, the characterization of viruses from nonmodel hosts still lags behind. We sequenced the complete genomes of three viruses infecting crustaceans, the Caribbean spiny lobster, demon shrimp, and European shore crab. These viruses have the smallest genomes among the known NCLDVs, with losses of many core genes, some of which are shared with iridoviruses. The deterioration of the transcription apparatus is compatible with microscopic and ultrastructural observations indicating that these viruses replicate in the nucleus of infected cells rather than in the cytoplasm. Phylogenomic analysis indicates that these viruses are sufficiently distinct from all other NCLDVs to justify the creation of a separate family, for which we propose the name “Mininucleoviridae” (i.e., small viruses reproducing in the cell nucleus).

Published

2020

21. Isolation, Identification and Characterization of a Novel Megalocytivirus from Cultured Tilapia (Oreochromis spp.) from Southern California, USA

Author

Khalid Shahin, Kuttichantran Subramaniam, Alvin C. Camus, Zeinab Yazdi, Susan Yun, Samantha A. Koda, Thomas B. Waltzek, Felipe Pierezan, Ruixue Hu, and Esteban Soto

Subjects

Megalocytivirus, co-infection, Francisella, tilapia, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

In spring 2019, diseased four-month-old tilapia (Oreochromis spp.) from an aquaculture farm in Southern California, USA were received for diagnostic evaluation with signs of lethargy, anorexia, abnormal swimming, and low-level mortalities. At necropsy, non-specific external lesions were noted including fin erosion, cutaneous melanosis, gill pallor, and coelomic distension. Internal changes included ascites, hepatomegaly, renomegaly, splenomegaly, and multifocal yellow-white nodules in the spleen and kidney. Cultures of spleen and kidney produced bacterial colonies identified as Francisella orientalis. Homogenized samples of gill, brain, liver, spleen, and kidney inoculated onto Mozambique tilapia brain cells (OmB) developed cytopathic effects, characterized by rounding of cells and detaching from the monolayer 6–10 days post-inoculation at 25 °C. Transmission electron microscopy revealed 115.4 ± 5.8 nm icosahedral virions with dense central cores in the cytoplasm of OmB cells. A consensus PCR, targeting the DNA polymerase gene of large double-stranded DNA viruses, performed on cell culture supernatant yielded a sequence consistent with an iridovirus. Phylogenetic analyses based on the concatenated full length major capsid protein and DNA polymerase gene sequences supported the tilapia virus as a novel species within the genus Megalocytivirus, most closely related to scale drop disease virus and European chub iridovirus. An intracoelomic injection challenge in Nile tilapia (O. niloticus) fingerlings resulted in 39% mortality after 16 days. Histopathology revealed necrosis of head kidney and splenic hematopoietic tissues.

Published

2021

22. Tilapia Lake Virus (TiLV): a Globally Emerging Threat to Tilapia Aquaculture

Author

Lowia Al-Hussinee, Kuttichantran Subramaniam, Win Surachetpong, Vsevolod Popov, Kathleen Hartman, Katharine Starzel, Roy Yanong, Craig Watson, Hugh Ferguson, Salvatore Frasca Jr, and Thomas Waltzek

Subjects

Tilapia, Tilapia Lake Virus TiLV, Agriculture (General), S1-972, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Tilapia lake virus is a globally emerging virus responsible for episodes of mass mortality in cultured and/or feral tilapia (Oreochromis spp. and hybrids) in Asia, Africa, Central America, and South America. Since 2014, there have been global reports of TiLV disease resulting in 10% to 90% mortality in tilapia fry, juveniles, and adults causing significant economic losses. Currently, the disease has been confirmed in Colombia, Ecuador, Egypt, India, Indonesia, Israel, Malaysia, Mexico, Philippines, Peru, Tanzania, and Thailand. TiLV has not yet been found in the USA or Canada, but it has most recently been reported in 20 aquaculture production facilities across six Mexican states (Chiapas, Jalisco, Michoacán, Sinaloa, Tabasco and Veracruz). This 7-page fact sheet written by Lowia Al-Hussinee, Kuttichantran Subramaniam, Win Surachetpong, Vsevolod Popov, Kathleen Hartman, Katharine Starzel, Roy Yanong, Craig Watson, Hugh Ferguson, Salvatore Frasca Jr., and Thomas Waltzek and published by the UF/IFAS School of Forest Resources and Conservation, Program in Fisheries and Aquatic Sciences describes this important emerging disease and explains how to prevent outbreaks and what to do if you suspect TiLV in an aquaculture facility or in the wild. http://edis.ifas.ufl.edu/fa213

Published

2019

23. Characterization of a Novel Megalocytivirus Isolated from European Chub (Squalius cephalus)

Author

Maya A. Halaly, Kuttichantran Subramaniam, Samantha A. Koda, Vsevolod L. Popov, David Stone, Keith Way, and Thomas B. Waltzek

Subjects

megalocytivirus, iridovirus, European chub, Microbiology, QR1-502

Abstract

A novel virus from moribund European chub (Squalius cephalus) was isolated on epithelioma papulosum cyprini (EPC) cells. Transmission electron microscopic examination revealed abundant non-enveloped, hexagonal virus particles in the cytoplasm of infected EPC cells consistent with an iridovirus. Illumina MiSeq sequence data enabled the assembly and annotation of the full genome (128,216 bp encoding 108 open reading frames) of the suspected iridovirus. Maximum Likelihood phylogenetic analyses based on 25 iridovirus core genes supported the European chub iridovirus (ECIV) as being the sister species to the recently-discovered scale drop disease virus (SDDV), which together form the most basal megalocytivirus clade. Genetic analyses of the ECIV major capsid protein and ATPase genes revealed the greatest nucleotide identity to members of the genus Megalocytivirus including SDDV. These data support ECIV as a novel member within the genus Megalocytivirus. Experimental challenge studies are needed to fulfill River’s postulates and determine whether ECIV induces the pathognomonic microscopic lesions (i.e., megalocytes with basophilic cytoplasmic inclusions) observed in megalocytivirus infections.

Published

2019

24. Genotypic Characterization of Infectious Spleen and Kidney Necrosis Virus (ISKNV) in Southeast Asian Aquaculture

Author

Cahya K. Fusianto, Joy A. Becker, Kuttichantran Subramaniam, Richard J. Whittington, Samantha A. Koda, Thomas B. Waltzek, null Murwantoko, and Paul M. Hick

Subjects

General Veterinary, General Immunology and Microbiology, General Medicine

Abstract

Infectious spleen and kidney necrosis virus (ISKNV) is a species within the genus Megalocytivirus (family Iridoviridae), which causes high mortality disease in many freshwater and marine fish species. ISKNV was first reported in Asia and is an emerging threat to aquaculture with increasing global distribution, in part due to its presence in ornamental fish with clinical and subclinical infections. The species ISKNV includes three genotypes: red seabream iridovirus (RSIV), turbot reddish body iridovirus (TRBIV), and ISKNV. There is an increasing overlap in the recognized range of susceptible fish hosts and the geographic distribution of these distinct genotypes. To better understand the disease caused by ISKNV, a nucleic acid hybridization capture enrichment was used prior to sequencing to characterize whole genomes from archived clinical specimens of aquaculture and ornamental fish from Southeast Asia (n = 16). The method was suitable for tissue samples containing 2.50 × 104–4.58 × 109 ISKNV genome copies mg−1. Genome sequences determined using the hybridization capture method were identical to those obtained directly from tissues when there was sufficient viral DNA to sequence without enrichment (n = 2). ISKNV genomes from diverse locations, environments, and hosts had very high similarity and matched established genotype classifications (14 ISKNV genotype Clade 1 genomes with >98.81% nucleotide similarity). Conversely, two different genotypes were obtained at the same time and location (RSIV and ISKNV from grouper, Indonesia with 92.44% nucleotide similarity). Gene-by-gene analysis with representative ISKNV genomes identified 59 core genes within the species (>95% amino acid identity). The 14 Clade 1 ISKNV genomes in this study had 100% aa identity for 92–105 of 122 predicted genes. Despite high overall sequence similarity, phylogenetic analyses using single nucleotide polymorphisms differentiated isolates from different host species, country of origin, and time of collection. Whole genome studies of ISKNV and other megalocytiviruses enable genomic epidemiology and will provide information to enhance disease control in aquaculture.

Published

2023

25. Cutaneous ulcerative lesions of unknown etiology affecting lionfish Pterois spp. in the Gulf of Mexico

Author

Theresa T. Cody, Yasunari Kiryu, Micah D. Bakenhaster, Kuttichantran Subramaniam, Maki Tabuchi, Mohammad Shamim Ahasan, Holden E. Harris, Jan H. Landsberg, Thomas B. Waltzek, Alexander Q. Fogg, Colin Shea, Deborah B. Pouder, William F. Patterson, Meaghan E. Emory, and Roy P. Yanong

Subjects

Aquatic Science

Published

2023

26. Development of a TaqMan quantitative reverse transcription PCR assay to detect tilapia lake virus

Author

Dorothea V, Megarani, Lowia, Al-Hussinee, Kuttichantran, Subramaniam, Preeyanan, Sriwanayos, Kamonchai, Imnoi, Bill, Keleher, Pamela, Nicholson, Win, Surachetpong, Puntanat, Tattiyapong, Paul, Hick, Lori L, Gustafson, and Thomas B, Waltzek

Subjects

Aquatic Science, Ecology, Evolution, Behavior and Systematics

Abstract

Tilapia lake virus disease (TiLVD) is an emerging viral disease associated with high morbidity and mortality in cultured tilapia worldwide. In this study, we have developed and validated a TaqMan quantitative reverse transcription PCR (RT-qPCR) assay for TiLV, targeting a conserved region within segment 10 of the genome. The RT-qPCR assay was efficient (mean ± SD: 96.71 ± 3.20%), sensitive with a limit of detection of 10 RNA viral copies per reaction, and detected TiLV strains from different geographic regions including North America, South America, Africa, and Asia. The intra- and inter-assay variability ranged over 0.18-1.41% and 0.21-2.21%, respectively. The TaqMan RT-qPCR assay did not cross-react with other RNA viruses of fish, including an orthomyxovirus, a betanodavirus, a picornavirus, and a rhabdovirus. Analysis of 91 proven-positive and 185 proven-negative samples yielded a diagnostic sensitivity of 96.7% and a diagnostic specificity of 100%. The TaqMan RT-qPCR assay also detected TiLV RNA in infected Nile tilapia liver tissue extracts following an experimental challenge study, and it successfully detected TiLV RNA in SSN-1 (E-11 clone) cell cultures displaying cytopathic effects following their inoculation with TiLV-infected tissue homogenates. Thus, the validated TaqMan RT-qPCR assay should be useful for both research and diagnostic purposes. Additionally, the TiLV qPCR assay returns the clinically relevant viral load of a sample which can assist health professionals in determining the role of TiLV during disease investigations. This RT-qPCR assay could be integrated into surveillance programs aimed at mitigating the effects of TiLVD on global tilapia production.

Published

2022

27. Novel cetacean morbillivirus in a rare Fraser’s dolphin (Lagenodelphis hosei) stranding from Maui, Hawai‘i

Author

Kuttichantran Subramaniam, Nelmarie Landrau-Giovannetti, Nicole Davis, Dave Rotstein, Kristi L. West, Ilse Silva-Krott, Jeremiah T. Saliki, Stephen Raverty, William A. Walker, Ole Nielsen, Thomas B. Waltzek, and Vsevolod L. Popov

Subjects

education.field_of_study, Multidisciplinary, biology, Sotalia guianensis, animal diseases, Science, Population, Diseases, biology.organism_classification, Virology, Article, Cetacean morbillivirus, Beaked whale, Lagenodelphis hosei, Morbillivirus, Giant cell, biology.animal, Infectious diseases, Medicine, Pathogens, education, Zoology, Porpoise

Abstract

Cetacean morbillivirus (CeMV) is a global threat to cetaceans. We report a novel morbillivirus from a Fraser’s dolphin (Lagenodelphis hosei) that stranded in Maui, Hawaii in 2018 that is dissimilar to the beaked whale morbillivirus previously identified from Hawaii and to other CeMV strains. Histopathological findings included intranuclear inclusions in bile duct epithelium, lymphoid depletion, rare syncytial cells and non-suppurative meningitis. Cerebellum and lung tissue homogenates were inoculated onto Vero.DogSLAMtag cells for virus isolation and cytopathic effects were observed, resulting in the formation of multinucleated giant cells (i.e., syncytia). Transmission electron microscopy of infected cell cultures also revealed syncytial cells with intracytoplasmic and intranuclear inclusions of viral nucleocapsids, consistent with the ultrastructure of a morbillivirus. Samples of the cerebellum, lung, liver, spleen and lymph nodes were positive for morbillivirus using a reverse transcription-polymerase chain reaction. The resulting 559 bp L gene sequence had the highest nucleotide identity (77.3%) to porpoise morbillivirus from Northern Ireland and the Netherlands. The resulting 248 bp P gene had the highest nucleotide identity to porpoise morbillivirus in Northern Ireland and the Netherlands and to a stranded Guiana dolphin (Sotalia guianensis) in Brazil (66.9%). As Fraser’s dolphins are a pelagic species that infrequently strand, a novel strain of CeMV may be circulating in the central Pacific that could have additional population impacts through transmission to other small island-associated cetacean species.

Published

2021

28. Genomic sequencing of a frog virus 3 strain from cultured American bullfrogs (Lithobates catesbeianus) in Brazil

Author

Kuttichantran Subramaniam, Cláudia Maris Ferreira, Ricardo Luiz Moro de Sousa, Loiane Sampaio Tavares, Thomas B. Waltzek, and Thaís Camilo Corrêa

Subjects

medicine.medical_specialty, Ranavirus, Genome, Viral, Virus, law.invention, 03 medical and health sciences, Medical microbiology, law, Virology, parasitic diseases, medicine, Animals, 030304 developmental biology, 0303 health sciences, Rana catesbeiana, biology, 030306 microbiology, Lithobates, Genomic sequencing, Strain (biology), Genomics, Sequence Analysis, DNA, General Medicine, biology.organism_classification, DNA Virus Infections, North America, Recombinant DNA, sense organs, Brazil, RÃ

Abstract

Frog virus 3 (FV3) was detected in cultured bullfrogs in Southeast Brazil. Phylodynamic analysis revealed recombination events in this strain that were nearly identical to those detected in North American and Brazilian FV3 strains. These data suggest that international trade of live bullfrogs has spread recombinant strains of FV3.

Published

2021

29. Genome Sequence of Rotavirus A from a Florida Racing Pigeon ( Columba livia domestica )

Author

Rowan A. Basham, Jennifer Dill-Okubo, Kuttichantran Subramaniam, Thomas B. Waltzek, and Pedro H. O. Viadanna

Subjects

Immunology and Microbiology (miscellaneous), Genetics, virus diseases, food and beverages, chemical and pharmacologic phenomena, behavioral disciplines and activities, Molecular Biology, psychological phenomena and processes

Abstract

The complete coding sequence of a rotavirus A strain was determined from a dead racing pigeon in Florida. It was found to be most closely related to a rotavirus A strain isolated from a dead racing pigeon in California.

Published

2022

30. The complete mitochondrial genome of the Jaguar Loach (Yasuhikotakia splendida)

Author

Lawrence M. Page, Zachary S. Randall, Kuttichantran Subramaniam, Thomas B. Waltzek, and Pedro H O Viadanna

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, Botiidae, Jaguar, Phylogenetic tree, biology, mitogenome, Ribosomal rna gene, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, loach, 03 medical and health sciences, 030104 developmental biology, Yasuhikotakia, Evolutionary biology, Transfer RNA, Yasuhikotakia splendida, Genetics, Molecular Biology, Gene, Mitogenome Announcement, Research Article

Abstract

Herein, we present the complete mitochondrial genome of the Jaguar Loach, Yasuhikotakia splendida. The sequence was determined from an aquarium specimen using a next-generation sequencing approach. The annotated Y. splendida mitogenome was 16,695 bp in length and contained 13 protein-coding genes (PCGs), 2 ribosomal RNA genes, 22 transfer RNA genes, and 1 non-coding control region. The Y. splendida mitogenome displayed an A + T bias with an overall base composition of 32.0% A, 24.7% T, 27.6% C, and 15.7% G. Maximum Likelihood and Bayesian phylogenetic analyses, based on the aligned mitogenome sequences of 22 botiid loach species from each of the 8 genera and 3 outgroups, generated nearly identical trees that supported the Jaguar Loach as the sister species to the Skunk Loach, Y. morleti.

Published

2021

31. Genomic Sequencing of Ranavirus Isolates from a Three-Spined Stickleback ( Gasterosteus aculeatus ) and a Red-Legged Frog ( Rana aurora )

Author

Thomas B. Waltzek, V. Gregory Chinchar, Cody R. K. Conrad, and Kuttichantran Subramaniam

Subjects

biology, Phylogenetic tree, Three-spined stickleback, Genome Sequences, Zoology, Gasterosteus, Rana aurora, Wildlife disease, biology.organism_classification, Genome, Immunology and Microbiology (miscellaneous), Genetics, Ranavirus, Sample collection, Molecular Biology

Abstract

Two ranavirus isolates were recovered during a wildlife disease investigation in California in 1996. Preliminary testing at the time of sample collection indicated that the two isolates were identical. Phylogenetic analysis of the full genomes of these two isolates revealed that they are a single strain of frog virus 3.

Published

2021

32. Author Correction: Novel cetacean morbillivirus in a rare Fraser’s dolphin (Lagenodelphis hosei) stranding from Maui, Hawai‘i

Author

Vsevolod L. Popov, Nicole Davis, Thomas B. Waltzek, Kuttichantran Subramaniam, William A. Walker, Jeremiah T. Saliki, Nelmarie Landrau‑Giovannetti, Kristi L. West, Ilse Silva‑Krott, Stephen Raverty, Ole Nielsen, and Dave Rotstein

Subjects

Multidisciplinary, biology, Science, Dolphins, Whales, Northern Ireland, biology.organism_classification, Hawaii, Cetacean morbillivirus, Fishery, Geography, Lagenodelphis hosei, Morbillivirus, Medicine, Animals, Author Correction, Brazil, Morbillivirus Infections, Netherlands

Abstract

Cetacean morbillivirus (CeMV) is a global threat to cetaceans. We report a novel morbillivirus from a Fraser's dolphin (Lagenodelphis hosei) that stranded in Maui, Hawaii in 2018 that is dissimilar to the beaked whale morbillivirus previously identified from Hawaii and to other CeMV strains. Histopathological findings included intranuclear inclusions in bile duct epithelium, lymphoid depletion, rare syncytial cells and non-suppurative meningitis. Cerebellum and lung tissue homogenates were inoculated onto Vero.DogSLAMtag cells for virus isolation and cytopathic effects were observed, resulting in the formation of multinucleated giant cells (i.e., syncytia). Transmission electron microscopy of infected cell cultures also revealed syncytial cells with intracytoplasmic and intranuclear inclusions of viral nucleocapsids, consistent with the ultrastructure of a morbillivirus. Samples of the cerebellum, lung, liver, spleen and lymph nodes were positive for morbillivirus using a reverse transcription-polymerase chain reaction. The resulting 559 bp L gene sequence had the highest nucleotide identity (77.3%) to porpoise morbillivirus from Northern Ireland and the Netherlands. The resulting 248 bp P gene had the highest nucleotide identity to porpoise morbillivirus in Northern Ireland and the Netherlands and to a stranded Guiana dolphin (Sotalia guianensis) in Brazil (66.9%). As Fraser's dolphins are a pelagic species that infrequently strand, a novel strain of CeMV may be circulating in the central Pacific that could have additional population impacts through transmission to other small island-associated cetacean species.

Published

2021

33. A Novel Orthoreovirus Isolated From Dead Stranded Harbor Seals From Puget Sound, Washington State, United States

Author

Stephen Raverty, Kuttichantran Subramaniam, Thomas B. Waltzek, Ole Nielsen, Thaís C.S. Rodrigues, Vsevolod L. Popov, and Dyanna M. Lambourn

Subjects

0301 basic medicine, Science, 030106 microbiology, Reoviridae, Ocean Engineering, Aquatic Science, marine mammal, QH1-199.5, Oceanography, Phoca, 03 medical and health sciences, Marine mammal, transmission electron microscopy, Pathogen, Orthoreovirus, Sound (geography), Water Science and Technology, pinniped, geography, Global and Planetary Change, geography.geographical_feature_category, biology, mortality event investigation, General. Including nature conservation, geographical distribution, biology.organism_classification, Virology, genome sequencing, 030104 developmental biology, Tissue tropism, Harbor seal

Abstract

As part of an ongoing investigation of harbor seal (Phoca vitulina) mortalities within Puget Sound, Washington State, United States, between October 2007 and July 2008, 25 seal cases were submitted for histopathology and ancillary diagnostic testing, including additional attempted virus isolation. In vitro granular and refractile cytopathic effects (CPE) were consistently observed in Vero.DogSLAMtag cells inoculated with tissue homogenates from three seals. Transmission electron microscopy of infected Vero.DogSLAMtag cells revealed cytoplasmic clusters of icosahedral viral particles morphologically consistent with members of the family Reoviridae. The complete genome of a novel species within the genus Orthoreovirus, tentatively named phocid orthoreovirus 1 (PhRV1), was determined by next-generation sequencing and confirmed by rt-PCR in isolates from the three harbor seals. This is the first report of an orthoreovirus infection associated with dead stranded harbor seals. Aside from the CPE and ultrastructural findings, no consistent signalment, gross pathology, histopathology, or ancillary diagnostic findings were identified with PhRV1 infection. Further research is needed to determine the prevalence, tissue tropism, transmission, pathogenicity, zoonotic potential, and host range of orthoreoviruses in pinnipeds. This study demonstrates the value of thorough necropsy investigations and a multidisciplinary team approach to advance our understanding of marine mammal health.

Published

2021

34. Genomic and developmental characterisation of a novel bunyavirus infecting the crustacean Carcinus maenas

Author

Thomas B. Waltzek, Donald C. Behringer, Jamie Bojko, Grant D. Stentiford, and Kuttichantran Subramaniam

Subjects

0301 basic medicine, Orthobunyavirus, animal structures, Brachyura, 030106 microbiology, Population, Sequence Homology, lcsh:Medicine, Genome, Viral, Biology, Bunyaviridae Infections, Genome, Article, Virus, Microbial ecology, 03 medical and health sciences, Phylogenetics, Virology, Phylogenomics, Animals, Amino Acid Sequence, Carcinus maenas, education, lcsh:Science, Phylogeny, education.field_of_study, Multidisciplinary, Host (biology), lcsh:R, Genetic Variation, biology.organism_classification, Nucleoprotein, Genetics, Population, 030104 developmental biology, Evolutionary biology, lcsh:Q, Metagenomics

Abstract

Carcinus maenas is in the top 100 globally invasive species and harbours a wide diversity of pathogens, including viruses. We provide a detailed description for a novel bunyavirus (Carcinus maenas Portunibunyavirus 1) infecting C. maenas from its native range in the Faroe Islands. The virus genome is tripartite, including large (L) (6766 bp), medium (M) (3244 bp) and small (S) (1608 bp) negative sense, single-stranded RNA segments. Individual genomic segments are flanked by 4 bp regions of similarity (CCUG). The segments encode an RNA-dependent RNA-polymerase, glycoprotein, non-structural protein with a Zinc-Finger domain and a nucleoprotein. Most show highest identity to the ‘Wenling Crustacean Virus 9’ from an unidentified crustacean host. Phylogenomics of crustacean-infecting bunyaviruses place them across multiple bunyavirus families. We discuss the diversity of crustacean bunyaviruses and provide an overview of how these viruses may affect the health and survival of crustacean hosts, including those inhabiting niches outside of their native range.

Published

2019

35. Genome Sequence of a Yunnan Orbivirus Isolated from a Dead Florida White-Tailed Deer (Odocoileus virginianus)

Author

Thaís C.S. Rodrigues, Samantha M. Wisely, John A. Lednicky, Juan M. Campos Krauer, Julia C. Loeb, Pedro H O Viadanna, Thomas B. Waltzek, and Kuttichantran Subramaniam

Subjects

Whole genome sequencing, 0303 health sciences, biology, 030306 microbiology, animal diseases, Genome Sequences, Zoology, virus diseases, Odocoileus, biology.organism_classification, White (mutation), 03 medical and health sciences, Immunology and Microbiology (miscellaneous), parasitic diseases, Genetics, Molecular Biology, Yunnan orbivirus, geographic locations, 030304 developmental biology

Abstract

We report the complete coding sequences of a Yunnan orbivirus isolated from a dead white-tailed deer (Odocoileus virginianus) in Florida in 2019. The prevalence of Yunnan orbivirus and its role in disease among farmed white-tailed deer remains to be determined., We report the complete coding sequences of a Yunnan orbivirus isolated from a dead white-tailed deer (Odocoileus virginianus) in Florida in 2019. The prevalence of Yunnan orbivirus and its role in disease among farmed white-tailed deer remain to be determined.

Published

2021

36. In-Frame 12-Nucleotide Deletion within Open Reading Frame 3a in a SARS-CoV-2 Strain Isolated from a Patient Hospitalized with COVID-19

Author

Massimiliano S. Tagliamonte, Thomas B. Waltzek, Kartikeya Cherabuddi, John A. Lednicky, J. Glenn Morris, Maha A. Elbadry, and Kuttichantran Subramaniam

Subjects

chemistry.chemical_classification, 2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Strain (chemistry), business.industry, viruses, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Genome Sequences, Frame (networking), virus diseases, Virology, Open reading frame, Immunology and Microbiology (miscellaneous), chemistry, Genetics, Medicine, Nucleotide, business, Molecular Biology

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) strain UF-8, with an in-frame 12-nucleotide deletion within open reading frame 3a (ORF3a), was isolated from a 78-year-old COVID-19 patient in March 2020.

Published

2021

37. Longitudinal analysis of pinnipeds in the northwest Atlantic provides insights on endemic circulation of phocine distemper virus

Author

Wendy B. Puryear, Deborah Fauquier, Thomas B. Waltzek, Iben Stokholm, Alexa D. Foss, Lisa Becker, Kaitlin Sawatzki, Andrea L. Bogomolni, Allison D. Tuttle, Thaís C.S. Rodrigues, Lynda Doughty, Jonathan A. Runstadler, Kuttichantran Subramaniam, Ashley Stokes, Mainity Batista Linhares, Misty Niemeyer, Ole Nielsen, Manjunatha Belaganahalli, Tracey Goldstein, Tracy A. Romano, Nichola J. Hill, and Morten Tange Olsen

Subjects

seal, wildlife disease, Seals, Earless, Wildlife disease, General Biochemistry, Genetics and Molecular Biology, Viral genetics, Morbillivirus, Phocine distemper virus, Animals, viral genetics, Distemper, Research Articles, Distemper Virus, Phocine, Phylogeny, General Environmental Science, Ecology, General Immunology and Microbiology, biology, General Medicine, biology.organism_classification, Virology, Caniformia, virology, morbillivirus, Western europe, unusual mortality event, General Agricultural and Biological Sciences

Abstract

Phocine distemper virus (PDV) is a morbillivirus that circulates within pinnipeds in the North Atlantic. PDV has caused two known unusual mortality events (UMEs) in western Europe (1988, 2002), and two UMEs in the northwest Atlantic (2006, 2018). Infrequent cross-species transmission and waning immunity are believed to contribute to periodic outbreaks with high mortality in western Europe. The viral ecology of PDV in the northwest Atlantic is less well defined and outbreaks have exhibited lower mortality than those in western Europe. This study sought to understand the molecular and ecological processes underlying PDV infection in eastern North America. We provide phylogenetic evidence that PDV was introduced into northwest Atlantic pinnipeds by a single lineage and is now endemic in local populations. Serological and viral screening of pinniped surveillance samples from 2006 onward suggest there is continued circulation of PDV outside of UMEs among multiple species with and without clinical signs. We report six full genome sequences and nine partial sequences derived from harbour and grey seals in the northwest Atlantic from 2011 through 2018, including a possible regional variant. Work presented here provides a framework towards greater understanding of how recovering populations and shifting species may impact disease transmission.

Published

2021

38. Phylogenomic characterization of ranaviruses isolated from cultured fish and amphibians in Thailand

Author

Thomas B. Waltzek, Vsevolod L. Popov, Natalie K. Stilwell, Preeyanan Sriwanayos, Jaree Polchana, Somkiat Kanchanakhan, Kuttichantran Subramaniam, and Kamonchai Imnoi

Subjects

food.ingredient, iridovirus, Iridovirus, Zoology, Genome, ranavirus, 03 medical and health sciences, thailand, food, tiger frog virus, Phylogenomics, parasitic diseases, Ranavirus, lcsh:Science, 030304 developmental biology, 0303 health sciences, Multidisciplinary, biology, phylogenomics, 04 agricultural and veterinary sciences, biology.organism_classification, 040102 fisheries, 0401 agriculture, forestry, and fisheries, %22">Fish , lcsh:Q, lcsh:L, lcsh:Education

Abstract

Ranaviruses are emerging pathogens associated with worldwide epizootics in farmed and wild ectothermic vertebrates. In this study, we determined the full genomes of eight ranaviruses isolated from marbled sleeper goby ( Oxyeleotris marmorata), goldfish ( Carassius auratus), guppy ( Poecilia reticulata), tiger frog ( Hoplobatrachus tigerinus), Asian grass frog ( Fejervarya limnocharis), and East Asian bullfrog ( H. rugulosus) cultured or imported into Thailand. These ranaviral isolates induced the same cytopathic effects (i.e., progression of coalescing round plaques) in epithelioma papulosum cyprini (EPC) cell cultures. Transmission electron microscopy of infected EPC cells revealed cytoplasmic viral particles with ultrastructural features typical for ranaviruses. Pairwise genetic comparisons of the complete major capsid protein coding sequences from the Thai ranaviruses displayed the highest identity (99.8%–100%) to a ranavirus (tiger frog virus; TFV) isolated from diseased tiger frogs cultured in China, a slightly lower identity (99.3%–99.4%) to a ranavirus (Wamena virus; WV) isolated from diseased green tree pythons ( Morelia viridis) illegally exported from Papua New Guinea, and a lower identity to 35 other ranaviruses (93.7%–98.6%). Phylogenomic analyses supported the eight Thai ranaviruses, Chinese TFV, and WV as a subclade within a larger frog virus 3 clade. Our findings confirm the spread of TFV among cultured fish and amphibians in Asia and likely in reptiles in Oceania. Biosecurity measures are needed to ensure TFV does not continue to spread throughout Southeast Asia and to other parts of the world via international trade.

Published

2020

39. Genome Sequence of a Ranavirus Isolated from a Red-Eared Slider (Trachemys scripta elegans) in Poland

Author

Ewa Borzym, Artur Rzeżutka, Kuttichantran Subramaniam, Thomas B. Waltzek, Michal Reichert, Agnieszka Jasik, and M. Stachnik

Subjects

Whole genome sequencing, 0303 health sciences, biology, Phylogenetic tree, 040301 veterinary sciences, Genome Sequences, Zoology, 04 agricultural and veterinary sciences, biology.organism_classification, Virus, law.invention, 0403 veterinary science, 03 medical and health sciences, Red-eared slider, Trachemys scripta, Immunology and Microbiology (miscellaneous), Midwife toad, law, Genetics, Ranavirus, Turtle (robot), Molecular Biology, 030304 developmental biology

Abstract

The red-eared slider (RES) ranavirus (RESRV) was isolated from a free-ranging RES turtle that died with evidence of respiratory disease. The RESRV genome sequence (106,878 bp) was determined, and phylogenetic analysis revealed that it is a common midwife toad virus (CMTV) strain. This study is the first report of CMTV in RES.

Published

2020

40. Genomic Characterization of Picornaviruses Isolated From Ribbon (Histriophoca fasciata) and Harbor (Phoca vitulina) Seals

Author

Kuttichantran Subramaniam, Thaís C.S. Rodrigues, Dyanna M. Lambourn, Thomas B. Waltzek, Kathy A. Burek-Huntington, Stephen Raverty, Ole Nielsen, and Vsevolod L. Popov

Subjects

Histriophoca fasciata, food.ingredient, Picornavirus, 040301 veterinary sciences, viruses, Picornaviridae, ribbon seal, virus, marine mammal, Phoca, Genome, 0403 veterinary science, 03 medical and health sciences, food, aquamavirus, harbor seal, pinniped, 030304 developmental biology, picornaviridae, 0303 health sciences, lcsh:Veterinary medicine, General Veterinary, biology, Phylogenetic tree, pathogen discovery, 04 agricultural and veterinary sciences, Brief Research Report, Aquamavirus, biology.organism_classification, Evolutionary biology, lcsh:SF600-1100, Harbor seal, Veterinary Science

Abstract

The seal picornavirus 1, species Aquamavirus A, is currently the only recognized member of the genus Aquamavirus within the family Picornaviridae. The bear picornavirus 1 was recently proposed as the second species in the genus under the name aquamavirus B. Herein, we determined the complete genomes of two novel pinniped picornaviruses, the harbor seal picornavirus (HsPV) and the ribbon seal picornavirus (RsPV). The HsPV and the RsPV were isolated in Vero.DogSLAMtag cells from samples collected from stranded harbor (Phoca vitulina) and ribbon (Histriophoca fasciata) seals. RsPV-infected Vero.DogSLAMtag cells displaying extensive cytopathic effects were processed for transmission electron microscopy and revealed non-enveloped viral particles aggregated into paracrystalline arrays in the cytoplasm. A next-generation sequencing approach was used to recover the complete genomes of the HsPV and the RsPV (6,709 bp and 6,683 bp, respectively). Phylogenetic and genetic analyses supported the HsPV and the RsPV as members of the Aquamavirus genus. Based on these results, RsPV represents a novel strain of Aquamavirus A, while the HsPV is a novel strain of the proposed species aquamavirus B. These discoveries provide information on the evolutionary relationships and ultrastructure of aquamaviruses and expands the known host range of those viruses. Our results underscore the importance of the application of classical virology and pathology techniques coupled with high-throughput sequencing technologies for the discovery and characterization of pathogens in wild marine mammals.

Published

2020

41. Earliest detection to date of SARS-CoV-2 in Florida: Identification together with influenza virus on the main entry door of a university building, February 2020

Author

Shannon Hentschel, John A. Lednicky, Massimiliano S. Tagliamonte, Tara Sabo-Attwood, Julia C. Loeb, Maha A. Elbadry, J. Glenn Morris, Simone Marini, Thomas B. Waltzek, Kuttichantran Subramaniam, Md. Mahbubul Alam, Marco Salemi, and Caroline J. Stephenson

Subjects

0301 basic medicine, RNA viruses, Surface swab, Influenza Viruses, Viral Diseases, Time Factors, Coronaviruses, Geographical locations, 0302 clinical medicine, Influenza A Virus, H1N1 Subtype, Medical Conditions, 030212 general & internal medicine, Phylogeny, Pathology and laboratory medicine, Data Management, Virus Testing, Multidisciplinary, Phylogenetic Analysis, Genomics, Medical microbiology, Phylogenetics, Geography, Infectious Diseases, Door handle, Viruses, Florida, Medicine, SARS CoV 2, Pathogens, Environmental Monitoring, Research Article, Washington, Computer and Information Sciences, Coronavirus disease 2019 (COVID-19), Universities, SARS coronavirus, Surface Properties, Science, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Regular classroom, Microbiology, Virus, 03 medical and health sciences, Diagnostic Medicine, Genetics, Humans, Evolutionary Systematics, Limited evidence, Taxonomy, Medicine and health sciences, Evolutionary Biology, Biology and life sciences, SARS-CoV-2, Organisms, Viral pathogens, Influenza a, United States, Influenza, Microbial pathogens, 030104 developmental biology, North America, People and places, Demography, Orthomyxoviruses

Abstract

BackgroundQuestions persist about patterns of initial dissemination of SARS-CoV-2 in the United States in early 2020.MethodsIn February and March, 2020, environmental surface swab samples were collected from the handle of the main entry door of a major university building in Florida, as part of a pilot surveillance project screening for influenza. Samples were taken at the end of regular classroom hours, between the dates of February 1-5 and February 19-March 4, 2020. ResultsInfluenza H1N1pdm09 was isolated from the door handle on four of the 19 days sampled. Both SARS-CoV-2 and influenza virus were detected in the sample collected on February 21, 2020. Based on sequence analysis, the Florida SARS-CoV-2 strain (designated UF-11) was identical to strains being identified in Washington state during the same time period, while the earliest similar sequences were sampled in China/Hubei between Dec 30th 2019 and Jan 5th 2020. The first human case of COVID-19 was not officially reported in Florida until March 1st. In an analysis of sequences from COVID-19 patients in this region of Florida, there was only limited evidence of subsequent dissemination of the UF-11 strain. Identical or highly similar strains, possibly related through a common transmission chain, were detected with increasing frequency in Washington state between end of February and beginning of March. ConclusionsOur data provide further documentation of the rapid early spread of SARS-CoV-2, and underscore the likelihood that closely related strains were cryptically circulating in multiple U.S. communities before the first “official” cases were recognized.

Published

2020

42. PSEUDORABIES (AUJESZKY'S DISEASE) IS AN UNDERDIAGNOSED CAUSE OF DEATH IN THE FLORIDA PANTHER (PUMA CONCOLOR CORYI)

Author

Kenneth J. Conley, David P. Onorato, Thomas B. Waltzek, Matti Kiupel, Samantha M. Wisely, Lara M. Cusack, Kuttichantran Subramaniam, David B. Shindle, Felipe A. Hernández, Mark W. Cunningham, Paul Schueller, Deborah Jansen, Annabel G. Wise, Bambi C. Ferree Clemons, Roger K. Maes, Erin H. Leone, Jo A. Crum Bradley, Katherine A. Sayler, and Daniel G. Mead

Subjects

viruses, animal diseases, Population, Pseudorabies, Disease, Biology, Virus, Cause of Death, medicine, Animals, Prospective Studies, education, Ecology, Evolution, Behavior and Systematics, Cause of death, Retrospective Studies, education.field_of_study, Ecology, Florida Panther, Meningoencephalitis, Histology, medicine.disease, biology.organism_classification, Virology, Herpesvirus 1, Suid, Puma

Abstract

Feral swine (Sus scrofa), an important prey species for the endangered Florida panther (Puma concolor coryi), is the natural host for pseudorabies virus (PRV). Prior to this study, PRV had been detected in just three panthers. To determine the effect of PRV on the panther population, we prospectively necropsied 199 panthers and retrospectively reviewed necropsy and laboratory findings, reexamined histology, and tested archived tissues using real-time PCR from 46 undiagnosed panther mortalities. Seven additional infections (two prospective, five retrospective) were detected for a total of 10 confirmed panther mortalities due to PRV. To further evaluate the effect of PRV, we categorized radio-collared (n=168) and uncollared panther mortalities (n=367) sampled from 1981 to 2018 based on the likelihood of PRV infection as confirmed, probable, suspected, possible, or unlikely/negative. Of 168 radio-collared panthers necropsied, PRV was the cause of death for between eight (confirmed; 4.8%) and 32 (combined confirmed, probable, suspected, and possible categories; 19.0%) panthers. The number of radio-collared panther mortalities due to PRV was estimated to be 15 (95% empirical limits: 12-19), representing 8.9% (confidence interval: 4.6-13.2%) of mortalities. Gross necropsy findings in 10 confirmed cases were nonspecific. Microscopic changes included slight to mild perivascular cuffing and gliosis (primarily in the brain stem), lymphoplasmacytic meningoencephalitis (cerebral cortex), and intranuclear inclusion bodies (adrenal medulla). The PRV glycoprotein C gene sequences from three positive panthers grouped with the sequence from a Florida feral swine. Our findings indicate that PRV may be an important and underdiagnosed cause of death in Florida panthers.

Published

2020

43. Genome Sequence of a CHeRI Orbivirus 3 Strain Isolated from a Dead White-Tailed Deer (Odocoileus virginianus) in Florida, USA

Author

John A. Lednicky, Thomas B. Waltzek, Thaís C.S. Rodrigues, Samantha M. Wisely, Julia C. Loeb, Kuttichantran Subramaniam, and Juan M. Campos Krauer

Subjects

Whole genome sequencing, 0303 health sciences, Orbivirus, biology, Phylogenetic tree, 030306 microbiology, Strain (biology), animal diseases, Genome Sequences, Epizootic hemorrhagic disease virus, Odocoileus, biology.organism_classification, Virology, Virus, White (mutation), 03 medical and health sciences, Immunology and Microbiology (miscellaneous), Genetics, Molecular Biology, 030304 developmental biology

Abstract

We report the genome sequence of an orbivirus isolated from a dead farmed white-tailed deer in Florida. The deer was coinfected with epizootic hemorrhagic disease virus type 2. Phylogenetic and genetic analyses supported the virus as the fourth strain of the CHeRI orbivirus 3 species.

Published

2020

44. Characterization of a novel picornavirus isolated from moribund aquacultured clownfish

Author

Kuttichantran Subramaniam, Elizabeth C. Scherbatskoy, Lowia Al-Hussinee, Roy P. E. Yanong, Vsevolod L. Popov, Deborah B. Pouder, Karen Kelley, Thomas B. Waltzek, Rodolfo Alvarado, Jeffrey C. Wolf, Patrick M. Thompson, Terry Fei Fan Ng, and Kamonchai Imnoi

Subjects

0301 basic medicine, Picornavirus, Biopsy, 030106 microbiology, Genome, Viral, Picornaviridae, Peripheral blood mononuclear cell, Virus, Snakehead, Cell Line, 03 medical and health sciences, Fish Diseases, Virology, medicine, Animals, Phylogeny, Picornaviridae Infections, biology, Coinfection, Pharynx, Outbreak, High-Throughput Nucleotide Sequencing, biology.organism_classification, Basophilic, 030104 developmental biology, medicine.anatomical_structure, Ultrastructure

Abstract

Over the last decade, a number of USA aquaculture facilities have experienced periodic mortality events of unknown aetiology in their clownfish (Amphiprion ocellaris). Clinical signs of affected individuals included lethargy, altered body coloration, reduced body condition, tachypnea, and abnormal positioning in the water column. Samples from outbreaks were processed for routine parasitological, bacteriological, and virological diagnostic testing, but no consistent parasitic or bacterial infections were observed. Histopathological evaluation revealed individual cell necrosis and mononuclear cell inflammation in the branchial cavity, pharynx, oesophagus and/or stomach of four examined clownfish, and large basophilic inclusions within the pharyngeal mucosal epithelium of one fish. Homogenates from pooled external and internal tissues from these outbreaks were inoculated onto striped snakehead (SSN-1) cells for virus isolation and cytopathic effects were observed, resulting in monolayer lysis in the initial inoculation and upon repassage. Transmission electron microscopy of infected SSN-1 cells revealed small round particles (mean diameter=20.0–21.7 nm) within the cytoplasm, consistent with the ultrastructure of a picornavirus. Full-genome sequencing of the purified virus revealed a novel picornavirus most closely related to the bluegill picornavirus and other members of the genus Limnipivirus. Additionally, pairwise protein alignments between the clownfish picornavirus (CFPV) and other known members of the genus Limnipivirus yielded results in accordance with the current International Committee on Taxonomy of Viruses criteria for members of the same genus. Thus, CFPV represents a proposed new limnipivirus species. Future experimental challenge studies are needed to determine the role of CFPV in disease.

Published

2020

45. Genomic Characterization of Tilapia Lake Virus Isolates Recovered from Moribund Nile Tilapia (

Author

Mohammad Shamim, Ahasan, William, Keleher, Cem, Giray, Brenda, Perry, Win, Surachetpong, Pamela, Nicholson, Lowia, Al-Hussinee, Kuttichantran, Subramaniam, and Thomas B, Waltzek

Subjects

parasitic diseases, Genome Sequences, human activities

Abstract

Here, we present the complete coding sequences of two tilapia lake virus (TiLV) isolates recovered during an investigation of a mortality event in farmed Nile tilapia in the United States. Phylogenetic analysis supported the isolates as each other’s closest relatives and members of a clade of Thai TiLV strains.

Published

2020

46. Genomic Characterization of Tilapia Lake Virus Isolates Recovered from Moribund Nile Tilapia ( Oreochromis niloticus ) on a Farm in the United States

Author

William Keleher, Mohammad Shamim Ahasan, Win Surachetpong, Pamela Nicholson, Brenda Perry, Lowia Al-Hussinee, Cem Giray, Kuttichantran Subramaniam, and Thomas B. Waltzek

Subjects

Veterinary medicine, biology, Phylogenetic tree, Tilapia lake virus, biology.organism_classification, medicine.disease_cause, Closest relatives, Oreochromis, Nile tilapia, Immunology and Microbiology (miscellaneous), Genetics, medicine, Clade, human activities, Molecular Biology

Abstract

Here, we present the complete coding sequences of two tilapia lake virus (TiLV) isolates recovered during an investigation of a mortality event in farmed Nile tilapia in the United States. Phylogenetic analysis supported the isolates as each other’s closest relatives and members of a clade of Thai TiLV strains.

Published

2020

47. Detection and Preliminary Characterization of Phocine Distemper Virus in a Stranded Harp Seal (

Author

Pierre-Yves, Daoust, Thaís C S, Rodrigues, Liam B, Shea, Kuttichantran, Subramaniam, Thomas B, Waltzek, and Ole, Nielsen

Subjects

Male, Prince Edward Island, Seals, Earless, Animals, Distemper, Distemper Virus, Phocine

Abstract

A lethargic juvenile male harp seal (

Published

2020

48. Characterization of ranaviruses isolated from lumpfish

Author

Hannah E B, Stagg, Sigríður, Guðmundsdóttir, Niccolò, Vendramin, Neil M, Ruane, Heiða, Sigurðardóttir, Debes H, Christiansen, Argelia, Cuenca, Petra E, Petersen, Eann S, Munro, Vsevolod L, Popov, Kuttichantran, Subramaniam, Kamonchai, Imnoi, Thomas B, Waltzek, and Niels Jørgen, Olesen

Subjects

Genes, Viral, Denmark, Ranavirus, Fishes, Aquaculture, Genome, Viral, Classification, Europe, Fish Diseases, Viral Proteins, Gadus morhua, Flatfishes, Animals, Capsid Proteins, Ireland, Phylogeny

Abstract

The commercial production of lumpfish

Published

2020

49. A New Family of DNA Viruses Causing Disease in Crustaceans from Diverse Aquatic Biomes

Author

Rose Kerr, Jamie Bojko, Grant D. Stentiford, Kuttichantran Subramaniam, David Bass, Thomas B. Waltzek, Kelly S. Bateman, Natalya Yutin, Abigail S. Clark, Donald C. Behringer, Eugene V. Koonin, and Ronny van Aerle

Subjects

low-complexity sequences, large nucleocytoplasmic DNA viruses, Brachyura, viruses, genome degradation, Oceans and Seas, Ecological and Evolutionary Science, Genome, Viral, 030312 virology, Biology, Nucleocytoplasmic large DNA viruses, Genome, Microbiology, Virus, Evolution, Molecular, 03 medical and health sciences, Penaeidae, Virology, Crustacea, Animals, Giant Virus, Palinuridae, Gene, Host cell nucleus, Ecosystem, Phylogeny, 030304 developmental biology, virus evolution, 0303 health sciences, fungi, DNA Viruses, Genomics, biology.organism_classification, QR1-502, United Kingdom, Metagenomics, Evolutionary biology, Viral evolution, Research Article

Abstract

Recent genomic and metagenomic studies have led to a dramatic expansion of the known diversity of nucleocytoplasmic large DNA viruses (NCLDVs) of eukaryotes, which include giant viruses of protists and important pathogens of vertebrates, such as poxviruses. However, the characterization of viruses from nonmodel hosts still lags behind. We sequenced the complete genomes of three viruses infecting crustaceans, the Caribbean spiny lobster, demon shrimp, and European shore crab. These viruses have the smallest genomes among the known NCLDVs, with losses of many core genes, some of which are shared with iridoviruses. The deterioration of the transcription apparatus is compatible with microscopic and ultrastructural observations indicating that these viruses replicate in the nucleus of infected cells rather than in the cytoplasm. Phylogenomic analysis indicates that these viruses are sufficiently distinct from all other NCLDVs to justify the creation of a separate family, for which we propose the name “Mininucleoviridae” (i.e., small viruses reproducing in the cell nucleus)., Panulirus argus virus 1 (PaV1) is the only known virus infecting the Caribbean spiny lobster (Panulirus argus) from the Caribbean Sea. Recently, related viruses, Dikerogammarus haemobaphes virus 1 (DhV1) and Carcinus maenas virus 1 (CmV1), have been detected in the demon shrimp (Dikerogammarus haemobaphes) and the European shore crab (Carcinus maenas), respectively, from sites in the United Kingdom. The virion morphology of these crustacean viruses is similar to that of iridoviruses. However, unlike iridoviruses and other nucleocytoplasmic large DNA viruses (NCLDVs), these viruses complete their morphogenesis in the host cell nucleus rather than in the cytoplasm. To date, these crustacean viruses have remained unclassified due to a lack of genomic data. Using an Illumina MiSeq sequencer, we sequenced the complete genomes of PaV1, CmV1, and DhV1. Comparative genome analysis shows that these crustacean virus genomes encode the 10 hallmark proteins previously described for the NCLDVs of eukaryotes, strongly suggesting that they are members of this group. With a size range of 70 to 74 kb, these are the smallest NCLDV genomes identified to date. Extensive gene loss, divergence of gene sequences, and the accumulation of low-complexity sequences reflect the extreme degradation of the genomes of these “minimal” NCLDVs rather than any direct relationship with the NCLDV ancestor. Phylogenomic analysis supports the classification of these crustacean viruses as a distinct family, “Mininucleoviridae,” within the pitho-irido-Marseille branch of the NCLDVs.

Published

2020

50. Three New Orbivirus Species Isolated from Farmed White-Tailed Deer (Odocoileus virginianus) in the United States

Author

Hannah M. Barber, Vsevolod L. Popov, Mohammad Shamim Ahasan, Samantha M. Wisely, Julia C. Loeb, Thomas B. Waltzek, Olivia Goodfriend, Caroline J. Stephenson, John A. Lednicky, Rémi N. Charrel, Katherine A. Sayler, Kuttichantran Subramaniam, and Juan M. Campos Krauer

Subjects

0301 basic medicine, 030106 microbiology, deer farming, Zoology, Genome, Viral, Odocoileus, reovirus, Virus, Article, orbivirus, Animal Diseases, 03 medical and health sciences, Virology, parasitic diseases, Animals, Epizootic hemorrhagic disease, Public Health Surveillance, Geography, Medical, Pathogen, Phylogeny, Orbivirus, Phylogenetic tree, biology, Deer, Computational Biology, Genomics, biology.organism_classification, Culicoides, United States, Reoviridae Infections, white-tailed deer, 030104 developmental biology, Infectious Diseases, Odocoileus virginianus, Vector (epidemiology), Animals, Domestic

Abstract

We report the detection and gene coding sequences of three novel Orbivirus species found in six dead farmed white-tailed deer in the United States. Phylogenetic analyses indicate that the new orbiviruses are genetically closely related to the Guangxi, Mobuck, Peruvian horse sickness, and Yunnan orbiviruses, which are thought to be solely borne by mosquitos. However, four of the six viruses analyzed in this work were found as co-infecting agents along with a known cervid pathogen, epizootic hemorrhagic disease virus-2 (EHDV-2), raising questions as to whether the new viruses are primary pathogens or secondary pathogens that exacerbate EHDV-2 infections. Moreover, EHDV-2 is known to be a Culicoides-borne virus, raising additional questions as to whether Culicoides species can also serve as vectors for the novel orbiviruses, if mosquitoes can vector EHDV-2, or whether the deer were infected through separate bites by the insects. Our findings expand knowledge of the possible viral pathogens of deer in the United States. Moreover, due to the close genetic relatedness of the three new orbiviruses to viruses that are primary pathogens of cattle and horses, our findings also underscore a crucial need for additional research on the potential role of the three new orbiviruses as pathogens of other animals.

Published

2019