Your search keyword '"IRIDOVIRUSES"' showing total 577 results

551. Regulation of gene expression and transcription mapping of an insect iridescent virus in cell culture

Author

D'Costa, Susan Maria

Subjects

Iridoviruses, Boll weevil -- Control, Viral insecticides -- Genetic aspects, Viral insecticides -- Research, Biological pest control agents

Abstract

Our laboratory has established that Chilo iridescent virus (CIV) replicates productively in the cotton boll weevil, Anthonomus grandis. Given the economic impact of this pest, we have initiated host-virus interaction and molecular studies in both cell culture and larval systems. The objectives of the present study were to investigate transcriptional regulation and construct a map of all detectable transcripts for CIV infections in an existing cell culture model (IPRI-CF-124Tcells derived from Choristoneurafumiferana). Another objective was to establish an improved cell culture model using boll weevil cells, BRL-AG-3A (AG3A). Northern analyses were carried out on total cellular RNA extracted in the presence or absence of metabolic inhibitors, using a complete CIV genomic library as well as gene-specific probes. The data showed that the gene expression cascade in CIV operates primarily at the transcriptional level. Three classes of transcripts and a temporal cascade comprising immediate-early (IE), delayed-early (DE), and late (L) genes were observed. Both positive and negative regulatory patterns were discerned within IE transcripts. Delayed-early transcripts were positi\'ely or negatively regulated, or were not subject to regulation. Late transcripts were categorized into three sub-classes based on time of initiation. Using the experimental design described above, the entire (209 kb) viral genome was mapped, localizing a total of 137 transcripts (38 IE, 34 DE, and 65 L). Four discrete regions were identified for IE and DE transcription, respectively. Late transcription was observed throughout the viral genome. After the above studies had already been initiated, a complete and productive model for replication of CIV in AG3A cells was also established and characterized. This system was utilized to develop the first infectivity assay for CIV based on a cytopathic effect. Virus was serially passaged through AG3A cells and high infectious titers were observed up to at least 24 passages. Dot-blot analyses and electron microscopic examination established production of high levels of progeny DNA and mature virions. Thus, the robust and productive replication of CIV in AG3A cells constitutes an excellent model and should be useful for both basic and applied research on the interaction between Chilo iridescent virus and the cotton boll weevil.

Published

1999

552. Induction of apoptosis by an insect iridescent virus in boll weevil and budworm cell culture

Author

Jayaraman, Rajeswari

Subjects

Iridoviruses, Insects -- Viruses, Spruce budworm, Boll weevil, Apoptosis

Abstract

The cotton boll weevil, Anthonomus grandis, is a major pest of cotton, causing up to $100 million in damage to the American cotton farmer. Our laboratory has found that an insect virus (boll weevil pathogenic virus, BWPV) replicates efficiently in boll weevil larvae and a protein extract from purified virus particles induces apoptosis in cell culture. The phenomenon was confirmed in budworm (CF) and boll weevil (AG) cells by observing characteristic apoptotic cytopathology (blebbing) and DNA fragmentation. In addition, a number of differential sensitivity assays were also carried out to determine the dose required to induce blebbing and DNA fragmentation. The tissue culture toxicity dose assay (an equivalent of the LD50 assay) showed that 6.3 ng/ml is sufficient to induce apoptotic blebbing in CF cells, and 54.1 ng/ml of the virion extract is required for AG cells. Further, the minimum dose required to induce DNA fragmentation was found to be 2ug/ml. The above data will have significance for the mechanism of viral induction of apoptosis and for the use of viral genes in the generation of insect-resistant plants.

Published

1999

553. New Iridoviruses in Portuguese Wild Fauna.

Author

de Matos, A. P. Alves, Caeiro, M. F., Vale, F., Rebelo, M. T., Proença, M. C., Morgado, F., and Marschang, R.

Subjects

IRIDOVIRUSES, ANIMALS, VERTEBRATES, VIRUSES

Abstract

Heterotermic vertebrates are hosts of a variety of iridoviruses, many with recognized economical importance for aquaculture and with a role in the decline of amphibian populations, and others with no known disease associations. These include members of the Lymphocystisvirus, Magalocystisvirus and Ranavirus genera. [ABSTRACT FROM AUTHOR]

Published

2012

554. Iridovirus Infection in Chinese Giant Salamanders, China, 2010.

Author

Dong, Wuzi, Zhang, Xiaoming, Yang, Changming, An, Junhui, Qin, Jinzhou, Song, Fengfeng, and Zeng, Wenxian

Subjects

*CRYPTOBRANCHIDAE, *HYPEREMIA, *IRIDOVIRUSES, *MORTALITY

Abstract

The article focuses on a study of iridovirus infection in Chinese giant salamander or Andreas davidianus in Shanxi, Sichuan and Henan, China from June to October 2010. The affected animals manifested palpebral hyperemia or swelling, mouth pouch erythema and ulceration, among others. A virus in the iridovirus family is blamed for the high mortality rates in Chinese giant salamanders. The role of high water temperatures in the ditch mesocosms in disease prevalence is noted.

Published

2011

555. Entry of Tiger Frog Virus (an Iridovirus) into HepG2 Cells via a pH-Dependent, Atypical, Caveola-Mediated Endocytosis Pathway.

Author

Chang-Jun Guo, Dong Liu, Yan-Yan Wu, Xiao-Bo Yang, Li-Shi Yang, Shu Mi, Yu-Xin Huang, Yong-Wen Luo, Kun-Tong Jia, Zhao-Yu Liu, Wei-Jian Chen, Shao-Ping Weng, Xiao-Qiang Yu, and Jian-Guo He

Subjects

*IRIDOVIRUSES, *ENDOCYTOSIS, *CELLULAR mechanics, *VIBRIO infections, *SEROTONIN antagonists, *CLATHRIN

Abstract

Tiger frog virus (TFV), in the genus Ranavirus of the family Iridoviridae, causes high mortality of cultured tiger frog tadpoles in China. To explore the cellular entry mechanism of TFV, HepG2 cells were treated with drugs that inhibit the main endocytic pathways. We observed that TFV entry was inhibited by NH4Cl, chloroquine, and bafilomycin, which can all elevate the pH of acidic organelles. In contrast, TFV entry was not influenced by chlorpromazine or overexpression of a dominant-negative form of Esp15, which inhibit the assembly of clathrin-coated pits. These results suggested that TFV entry was not associated with clathrin-mediated endocytosis, but was related to the pH of acidic organelles. Subsequently, we found that endocytosis of TFV was dependent on membrane cholesterol and was inhibited by the caveolin-1 scaffolding domain peptide. Dynamin and actin were also required for TFV entry. In addition, TFV virions colocalized with the cholera toxin subunit B, indicating that TFV enters as caveola-internalized cargo into the Golgi complex. Taken together, our results demonstrated that TFV entry occurs by caveola-mediated endocytosis with a pH-dependent step. This atypical caveola-mediated endocytosis is different from the clathrin-mediated endocytosis of frog virus 3 (FV3) by BHK cells, which has been recognized as a model for iridoviruses. Thus, our work may help further the understanding of the initial steps of iridovirus infection in lower vertebrates. [ABSTRACT FROM AUTHOR]

Published

2011

556. 2011 International Ranavirus Symposium.

Author

Marschang, Rachel E. and Miller, Debra

Subjects

*ICHTHYOLOGISTS, *IRIDOVIRUSES, *HOST-parasite relationships, *CONFERENCES & conventions

Abstract

Information on several issues discussed at the First International Symposium on Ranavirus in conjunction with the 2011 Joint Meeting of Ichthyologists and Herpetologists held on July 8, 2011 in Minneapolis, Minnesota is presented. Topics include the research on the ranaviral disease, the host-pathogen interaction of ranaviruses, and the establishment of the Global Ranavirus Consortium. The symposium featured various researchers including Matt Gray, David Earl Green, and Jacques Robert.

Published

2011

557. Development of immersion subunit vaccine against grouper iridovirus (GIV).

Author

Liang, Hong-Jen, Peng, Ren-Hong, and Chiou, Pinwen P.

Subjects

*VIRUS diseases, *GROUPERS, *IRIDOVIRUSES, *AQUACULTURE industry, *VETERINARY vaccines, *DISEASES

Published

2016

558. Analysis of immune gene expression in rock bream spleen after rock bream iridovirus infection by transcriptome sequencing.

Author

Park, Jae-Heon, Jeong, Hyun Do, and Hong, Suhee

Subjects

*SEBASTES marinus, *GENE expression in fishes, *FISH immunology, *IRIDOVIRUSES, *VIRUS diseases in fishes, *RNA sequencing

Published

2016

559. Cloning and expressional analysis of STAT1 and 3 genes in rock bream, Oplegnathus fasciatus.

Author

Park, Jae-Heon, Jeong, Hyun Do, and Hong, Suhee

Subjects

*GENE expression in fishes, *STAT proteins, *MOLECULAR cloning, *SPARIDAE, *IRIDOVIRUSES, *VIRUS diseases in fishes

Published

2016

560. Infectious spleen and kidney necrosis virus (ISKNV) used a novel strategy to modulate the mitochondria/ caspases -mediated cell death pathway via ROS signaling in a fish cell line.

Author

Chen, Pin-Han, Hsueh, Tsai-Ching, and Hong, Jiann-Ruey

Subjects

*MEMBRANE potential, *IRIDOVIRUSES, *REACTIVE oxygen species, *MITOCHONDRIAL physiology, *CELL death, *THERAPEUTIC use of antioxidants, *CELL lines, *FISHES

Published

2016

561. Fish TRIM39 regulates cel cycle progression and exerts its antiviral function against iridovirus and nodavirus.

Author

Wang, Wei, Huang, Youhua, Yu, Yepin, Yang, Ying, Xu, Meng, Chen, Xiuli, Ni, Songwei, Qin, Qiwei, and Huang, Xiaohong

Subjects

*FISH immunology, *TRIM proteins, *CELL cycle regulation, *IRIDOVIRUSES, *NODAVIRUSES, *VIRAL replication, *NATURAL immunity, *ANTIVIRAL agents

Published

2016

562. The Beat.

Author

Dooley, Erin E.

Subjects

*ENVIRONMENTAL health, *IRIDOVIRUSES, *AIR quality, *MINERAL industries

Abstract

Reports developments on environmental health as of January 2001. Discovery of iridovirus disease as cause of a large die-off of western tiger salamanders in North Dakota; Decline of air quality in United States national parks; Confirmation of illegal extraction of gold from mines in the Manado area of Indonesia.

Published

2001

563. The Love Bug.

Author

Akst, Jef

Subjects

CRICKETS (Insect), INSECT diseases, ANIMAL sexual behavior, IRIDOVIRUSES, ANIMAL courtship, BLOOD cells

Abstract

The article focuses on the viral infection caused by cricket iridovirus (CrIV) at researcher Shelley Adamo's cricket colony in Dalhousie University in Halifax, Nova Scotia in 2013, which led to the increased sexual activity and premature death of crickets in the colony. Topics include increased sexual motivation among infected male crickets, transmission of the virus to the sex partner during courtship of the insects, and virus attacking the immune system and hemocytes in crickets.

Published

2014

564. Singapore Grouper Iridovirus ORF75R is a Scaffold Protein Essential for Viral Assembly.

Author

Wang, Fan, Liu, Yang, Zhu, Yi, Ngoc Tran, Bich, Wu, Jinlu, and Leong Hew, Choy

Subjects

*IRIDOVIRUSES, *CYTOPLASM, *IMMUNOFLUORESCENCE, *GEL electrophoresis, *SCAFFOLD proteins

Abstract

Singapore Grouper Iridovirus (SGIV) is a member of nucleo cytoplasmic large DNA viruses (NCLDV). This paper reports the functional analysis of ORF75R, a major structural protein of SGIV. Immuno fluorescence studies showed that the protein was accumulated in the viral assembly site. Immunogold-labelling indicated that it was localized between the viral capsid shell and DNA core. Knockdown of ORF75R by morpholinos resulted in the reduction of coreshell thickness, the failure of DNA encapsidation, and the low yield of infectious particles. Comparative proteomics further identified the structural proteins affected by ORF75R knockdown. Two-dimensional gel electrophoresis combined with proteomics demonstrated that ORF75R was phosphorylated at multiple sites in SGIV-infected cell lysate and virions, but the vast majority of ORF75R in virions was the dephosphorylated isoform. A kinase assay showed that ORF75R could be phosphorylated in vitro by the SGIV structural protein ORF39L. Addition of ATP and Mg2+ into purified virions prompted extensive phosphorylation of structural proteins and release of ORF75R from virions. These data suggest that ORF75R is a novel scaffold protein important for viral assembly and DNA encapsidation, but its phosphorylation facilitates virion disassembly. Compared to proteins from other viruses, we found that ORF75R shares common features with herpes simplex virus VP22. [ABSTRACT FROM AUTHOR]

Published

2015

565. The Global Ranavirus Consortium and Third International Symposium on Ranaviruses.

Author

Duffus, Amanda L. J., Marschang, Rachel E., Waltzek, Thomas B., Miller, Debra L., and Gray, Matthew J.

Subjects

*IRIDOVIRUSES, *DNA viruses

Abstract

The article offers information on the Global Ranavirus Consortium and Third International Symposium on Ranaviruses to be held from 30 May to 1 June 2015 in Gainsville, Florida.

Published

2014

566. miR-homoHSV of Singapore Grouper Iridovirus (SGIV) Inhibits Expression of the SGIV Pro-apoptotic Factor LITAF and Attenuates Cell Death.

Author

Guo, Chuanyu, Yan, Yang, Cui, Huachun, Huang, Xiaohong, and Qin, Qiwei

Subjects

*APOPTOSIS, *CELL death, *MICRORNA, *IRIDOVIRUSES, *LIPOPOLYSACCHARIDES, *VIRAL replication

Abstract

Growing evidence demonstrates that various large DNA viruses could encode microRNAs (miRNAs) that regulate host and viral genes to achieve immune evasion. In this study, we report that miR-homoHSV, an miRNA encoded by Singapore grouper iridovirus (SGIV), can attenuate SGIV-induced cell death. Mechanistically, SGIV miR-homoHSV targets SGIV ORF136R, a viral gene that encodes the pro-apoptotic lipopolysaccharide-induced TNF-α (LITAF)-like factor. miR-homoHSV suppressed exogenous and endogenous SGIV LITAF expression, and thus inhibited SGIV LITAF-induced apoptosis. Meanwhile, miR-homoHSV expression was able to attenuate cell death induced by viral infection, presumably facilitating viral replication through the down-regulation of the pro-apoptotic gene SGIV LITAF. Together, our data suggest miR-homoHSV may serve as a feedback regulator of cell death during viral infection. The findings of this study provide a better understanding of SGIV replication and pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2013

567. Community Collapse.

Author

Ogden, Lesley Evans

Subjects

*IRIDOVIRUSES, *AMPHIBIAN diseases

Abstract

The article discusses a study led by amphibian disease experts Jaime Bosch and Stephen J. Price and published in the journal "Current Biology" at the Picos de Europa National Park in Spain that implies that three strains of ranaviruses ares responsible for mass deaths there.

Published

2014

568. Complete Genome Sequence of the European Sheatfish Virus.

Author

Mavian, Carla, López-Bueno, Alberto, Fernández Somalo, María Pilar, Alcamí, Antonio, and Alejo, Alí

Subjects

*VIRAL genomes, *NUCLEOTIDE sequence, *SILURUS glanis, *VIRUS diseases in fishes, *AQUACULTURE industry, *IRIDOVIRUSES, *VIRUS isolation

Abstract

Viral diseases are an increasing threat to the thriving aquaculture industry worldwide. An emerging group of fish pathogens is formed by several ranaviruses, which have been isolated at different locations from freshwater and seawater fish species since 1985. We report the complete genome sequence of European sheatfish ranavirus (ESV), the first ranavirus isolated in Europe, which causes high mortality rates in infected sheatfish (Silurus glanis) and in other species. Analysis of the genome sequence shows that ESV belongs to the amphibian-like ranaviruses and is closely related to the epizootic hematopoietic necrosis virus (EHNV), a disease agent geographically confined to the Australian continent and notifiable to the World Organization for Animal Health [ABSTRACT FROM AUTHOR]

Published

2012

569. Infectious Spleen and Kidney Necrosis Virus (a Fish Iridovirus) Enters Mandarin Fish Fry Cells via Caveola-Dependent Endocytosis.

Author

Guo, Chang-Jun, Wu, Yan-Yan, Yang, Li-Shi, Yang, Xiao-Bo, Jian He, Shu Mi, Jia, Kun-Tong, Weng, Shao-Ping, Yu, Xiao-Qiang, and He, Jian-Guo

Subjects

*SPLEEN diseases, *CHLORPROMAZINE, *IRIDOVIRUSES, *ANIMAL species, *CYTOSKELETON, *DISEASE progression, *CAVEOLAE, *VIRAL endocytosis, KIDNEY necrosis

Abstract

Infectious spleen and kidney necrosis virus (ISKNV) is the type species of the genus Megalocytivirus from the family Iridoviridae. Megalocytiviruses have been implicated in more than 50 fish species infections and currently threaten the aquaculture industry, causing great economic losses in China, Japan, and Southeast Asia. However, the cellular entry mechanisms of megalocytiviruses remain largely uncharacterized. In this study, the main internalization mechanism of ISKNV was investigated by using mandarin fish fry (MFF-1) cells. The progression of ISKNV infection is slow, and infection is not inhibited when the cells are treated with ammonium chloride (NH4Cl), chloroquine, sucrose, and chlorpromazine, which are inhibitors of clathrin-dependent endocytosis. The depletion of cellular cholesterol by methyl-ß-cyclodextrin results in the significant inhibition of ISKNV infection; however, the infection is resumed with cholesterol replenishment. Inhibitors of caveolin-1-involved signaling events, including phorbol 12-myristate 13-acetate (PMA), genistein, and wortmannin, impair ISKNV entry into MFF-1 cells. Moreover, ISKNV entry is dependent on dynamin and the microtubule cytoskeleton. Cofraction analysis of ISKNV and caveolin-1 showed that ISKNV colocates with caveolin-1 during virus infection. These results indicate that ISKNV entry into MFF-1 cells proceeds via classical caveola-mediated endocytosis and is dependent on the microtubules that serve as tracks along which motile cavicles may move via a caveola-caveosome-endoplasmic reticulum (ER) pathway. As a fish iridovirus, ISKNV entry into MFF-1 cells is different from the clathrin-mediated endocytosis of frog virus 3 entry into mammalian cells (BHK-21) at 28°C, which has been recognized as a model for iridoviruses. Thus, our work may help further the understanding of the initial steps of iridovirus infection. [ABSTRACT FROM AUTHOR]

Published

2012

570. Evidence for Multiple Recent Host Species Shifts among the Ranaviruses (Family Iridoviridae).

Author

Jancovich, James K., Bremont, Michel, Touchman, Jeffrey W., and Jacobs, Bertram L.

Subjects

*IRIDOVIRUSES, *COLD-blooded animals, *SALAMANDERS, *INFECTIOUS hematopoietic necrosis virus, *PATHOGENIC microorganisms

Abstract

Members of the genus Ranavirus (family Iridoviridae) have been recognized as major viral pathogens of cold-blooded vertebrates. Ranaviruses have been associated with amphibians, fish, and reptiles. At this time, the relationships between ranavirus species are still unclear. Previous studies suggested that ranaviruses from salamanders are more closely related to ranaviruses from fish than they are to ranaviruses from other amphibians, such as frogs. Therefore, to gain a better understanding of the relationships among ranavirus isolates, the genome of epizootic hematopoietic necrosis virus (EHNV), an Australian fish pathogen, was sequenced. Our findings suggest that the ancestral ranavirus was a fish virus and that several recent host shifts have taken place, with subsequent speciation of viruses in their new hosts. The data suggesting several recent host shifts among ranavirus species increase concern that these pathogens of cold-blooded vertebrates may have the capacity to cross numerous poikilothermic species barriers and the potential to cause devastating disease in their new hosts. [ABSTRACT FROM AUTHOR]

Published

2010

571. Erratum to “Antiviral activity of HPMPC (cidofovir) against orf virus infected lambs” [Antiv. Res. 73 (2007) 169–174]

Author

Scagliarini, A., McInnes, C.J., Gallina, L., Dal Pozzo, F., Scagliarini, L., Snoeck, R., Prosperi, S., Sales, J., Gilray, J.A., and Nettleton, P.F.

Subjects

*DNA viruses, *NUCLEIC acids, *IRIDOVIRUSES, *VIRUSES

Abstract

Abstract: (S)-1-[3-hydroxy-2-(phosphonomethoxy)propyl]cytosine (HPMPC, cidofovir, CDV, Vistide®) is an acyclic nucleoside analogue with a potent and selective activity against a broad spectrum of DNA viruses including the poxviruses. In this study we present the results of different treatment regimens in lambs experimentally infected with orf virus with different cidofovir formulations prepared in Beeler basis and Unguentum M. Our results show that choice of excipient, concentration of codofovir and treatment regimen were all important to the clinical outcome of the therapy. Whilst one particular regimen appeared to exacerbate the lesion, treatment with 1% (w/v) cidofovir cream, prepared in Beeler basis, for 4 consecutive days did result in milder lesions that resolved in milder lesions that resolved more quickly than untreated lesions. Furthermore the scabs of the treated animals contained significantly lower amounts of viable virus meaning there should be less contamination of the environment with virus than would normally occur. [Copyright &y& Elsevier]

Published

2008

572. Genome of Invertebrate Iridescent Virus Type 3 (Mosquito Iridescent Virus).

Author

Delhon, Gustavo, Tulman, Edan R., Afonso, Claudio L., Zhiqiang Lu, Becnel, James J., Moser, Bettina A., Kutish, Gerald F., and Rock, Daniel L.

Subjects

*IRIDOVIRUSES, *INVERTEBRATES, *DNA viruses, *VIRUSES, *VERTEBRATES

Abstract

Iridoviruses (IVs) are classified into five genera: Iridovirus and Chloriridovirus, whose members infect invertebrates, and Ranavirus, Lymphocystivirus, and Megalocytivirus, whose members infect vertebrates. Until now, Chloriridovirus was the only IV genus for which a representative and complete genomic sequence was not available. Here, we report the genome sequence and comparative analysis of a field isolate of Invertebrate iridescent virus type 3 (IIV-3), also known as mosquito iridescent virus, currently the sole member of the genus Chloriridovirus. Approximately 20% of the 190-kbp IIV-3 genome was repetitive DNA, with DNA repeats localized in 15 apparently noncoding regions. Of the 126 predicted IIV-3 genes, 27 had homologues in all currently sequenced IVs, suggesting a genetic core for the family Iridoviridae. Fifty-two IIV-3 genes, including those encoding DNA topoisomerase II, NAD-dependent DNA ligase, SF1 helicase, IAP, and BRO protein, are present in IIV-6 (Chilo iridescent virus, prototype species of the genus Iridovirus) but not in vertebrate IVs, likely reflecting distinct evolutionary histories for vertebrate and invertebrate IVs and potentially indicative of genes that function in aspects of virus-invertebrate host interactions. Thirty-three IIV-3 genes lack homologues in other IVs. Most of these encode proteins of unknown function but also encode IIV3-053L, a protein with similarity to DNA-dependent RNA polymerase subunit 7; IIV3-044L, a putative serine/threonine protein kinase; and IIV3-080R, a protein with similarity to poxvirus MutT-like proteins. The absence of genes present in other IVs, including IIV-6; the lack of obvious colinearity with any sequenced IV; the low levels of amino acid identity of predicted proteins to IV homologues; and phylogenetic analyses of conserved proteins indicate that IIV-3 is distantly related to other IV genera. [ABSTRACT FROM AUTHOR]

Published

2006

573. Is that salamander virus flying?

Author

Milius, Susan

Subjects

*SALAMANDERS, *IRIDOVIRUSES, *VIRUSES

Abstract

Looks at the study of the speculative causes of a viral outbreak among salamander colonies in the western United States and Canada. Speculation that outbreaks are along a migratory pathway of birds; Findings reported by Elizabeth Davidson of Arizona State University in Tempe, Arizona; Previous study of salamander deaths; Effects of Iridoviruses.

Published

2000

574. Frogs dogged by virus.

Author

J.S.

Subjects

*FROG diseases, *IRIDOVIRUSES

Abstract

Reports that the worldwide decline in frog populations may be caused by the iridovirus. Introduction of the virus from overseas by ornamental fish.

Published

1995

575. New viruses described in finfish from 1988-1992.

Author

Hetrick FM and Hedrick RP

Abstract

A number of new virus isolates from finfish have been reported in the scientific literature during the past five years. These include nine aquareoviruses, eight picornaviruses, six iridoviruses, five herpesviruses, three rhabdoviruses, three retroviruses, a paramyxovirus, and a coronavirus. Not all of these agents have been isolated in cell culture or established as etiologic agents of disease by controlled transmission studies. The burgeoning number of fish viruses is a reflection of the increased interest in fish diseases, particularly those occurring in aquaculture facilities, and the number will surely grow as fish farming intensifies on a global scale. This review chronicles the new virus isolates and lists them with other members of their virus family where appropriate., (Copyright © 1993 Published by Elsevier Ltd.)

Published

1993

576. Molecular Biology of Iridoviruses

Author

Gholamreza Darai and Gholamreza Darai

Subjects

Molecular virology, Iridoviruses

Published

1990

577. FIRST IDENTIFICATION OF A RANAVIRUS FROM GREEN PYTHONS (CHONDROPYTHON VIRIDIS)

Author

Hyatt, A. D., Williamson, M., Coupar, B. E. H., Middleton, D., Hengstberger, S. G., Gould, A. R., Selleck, P., Wise, T. G., Kattenbelt, J., Cunningham, A. A., and Lee, J.

Published

2002