Gael Kurath, Ph.D.
Viruses and infectious diseases are natural components of every ecosystem. In aquatic ecosystems of the Pacific Northwest infectious hematopoietic necrosis virus (IHNV) is a significant viral pathogen of many salmonid fish populations. Studies of IHNV molecular biology, pathogenesis, field ecology, and evolution contribute to understanding and management of viral disease in salmon and trout.
Research Interests:
Our research involves viral diseases in finfish, with an emphasis on the rhabdovirus IHNV in Pacific salmon and trout of Pacific Northwest ecosystems. We conduct landscape-scale genetic typing of IHNV as it occurs across Western North America and use phylogenetic analyses and molecular epidemiology to identify patterns of virus occurrence, transmission, and disease impacts across large geographic regions, and over many years. This has revealed divergence of IHNV into three major genetic groups (U, M, or L) with distinct host specificities and geographic ranges in North America. There is also clear evidence for viral host jumps, displacement events, and evolution of both specialist and generalist virus lineages. Potential drivers of these evolutionary events are tested in controlled wet laboratory challenge studies in salmonid fish, providing sound scientific data on the biological basis of patterns observed in the field. In a recent project we demonstrated evolution of increasing virulence as a driver of viral genotype displacements in steelhead trout of the Columbia River Basin and worked with collaborators to develop the first landscape-scale transmission model for IHNV. We also explore the biological basis of specialist (adapted to single host species) and generalist (adapted to multiple host species) viruses, using naturally evolved subgroups of IHNV. This has potential to explain changes in virus types and disease impacts observed in the Columbia River Basin, and it also serves as a tractable research model for empirical testing of predictions of basic specialist-generalist theory for pathogens. Finally, we collaborate with other researchers to investigate the evolution of IHNV virulence after a historical host jump from sockeye salmon to farmed rainbow trout using a historical panel of over 60 IHNV isolates collected over the last 50 years. Long-term interests include understanding drivers of viral evolution and ecology, host and virus factors that define virus transmission and transmission models, and how human activities can be modified to avoid unintended disease consequences.
Professional Experience
1992 to Present - Research Microbiologist, U.S. Geological Survey, Western Fisheries Research Center, Seattle, WA
1989 - 1992 - Postdoctoral researcher, Plant Virology, University of California, Riverside, CA
1985 - 1988 - Postdoctoral researcher, Plant Virology, Cornell University, Ithaca, NY
Education and Certifications
Ph.D. 1985. Virology, Oregon State University, Corvallis, OR
M.S. 1980. Marine Microbiology, Oregon State University, Corvallis, OR
B.A. 1978. Microbiology, Miami University, Oxford, OH
Affiliations and Memberships*
University of Washington, affiliate faculty in Pathobiology with graduate faculty status. 1994 to Present (full professor since 2017).
University of Washington, affiliate faculty in the School of Aquatic and Fisheries Sciences with graduate faculty status (2007 to Present).
International Committee on Taxonomy of Viruses, member of study groups Rhabdovirus family (1997 to Present), Paramyxovirus Family (2008 to present), and Mononegavirales Super-family (2008 to Present).
International Committee on Taxonomy of Viruses, member of study groups Rhabdovirus family (1997 to Present), Paramyxovirus Family (2008 to present), and Mononegavirales Super-family (2008 to Present).
Scientific Journal Editorial Board: Virology (1995-1998); Journal of Aquatic Animal Health (2002-2005); Diseases of Aquatic Organisms (2011-2015); Journal of General Virology (2011-2016).
Ad hoc reviewer for numerous journals.
Grant review panel member or panel chair: USDA Biotechnology Risk Assessment (1996, 1997); USDA NRI Virology (1999, 2000); USDA-NIFA AFRI Diseases of Agricultural Animals program (2020).
American Fisheries Society, Fish Health Section, member since 1994, nominating/balloting committee member 2002-2003; chair 2004.
American Fisheries Society, Fish Health Section, elected vice-president 2006, executive committee 2006-2010, president 2008.
American Society for Virology member since 1983.
Honors and Awards
Special Achievement Award, American Fisheries, Society Fish Health Section, 1999
U.S. Department of the Interior Star Awards, 2000, 2003, 2004, 2008
Snieszko Distinguished Service Award, Fish Health Section, American Fisheries Society, 2020
Science and Products
In vivo virus growth competition assays demonstrate equal fitness of fish rhabdovirus strains that co-circulate in aquaculture
Biotechnology and DNA vaccines for aquatic animals
Detection of viral hemorrhagic septicemia virus
Fish rhabdovirus models for understanding the host response to DNA vaccines
Genotyping of Korean isolates of infectious hematopoietic necrosis virus (IHNV) based on the glycoprotein gene
Genotypes and phylogeographical relationships of infectious hematopoietic necrosis virus in California, USA
Genetic diversity of infectious hematopoietic necrosis virus from Feather River and Lake Oroville, California, and virulence of selected isolates for Chinook salmon and rainbow trout
Occurrence and genetic typing of infectious hematopoietic necrosis virus in Kamchatka, Russia
Introduction of translation stop condons into the viral glycoprotein gene in a fish DNA vaccine eliminates induction of protective immunity
Strand-specific, real-time RT-PCR assays for quantification of genomic and positive-sense RNAs of the fish rhabdovirus, Infectious hematopoietic necrosis virus
Sequence motifs and prokaryotic expression of the reptilian paramyxovirus fusion protein
Virulence comparisons of infectious hematopoietic necrosis virus U and M genogroups in sockeye salmon and rainbow trout
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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Filter Total Items: 146
In vivo virus growth competition assays demonstrate equal fitness of fish rhabdovirus strains that co-circulate in aquaculture
A novel virus growth competition assay for determining relative fitness of RNA virus variants in vivo has been developed using the fish rhabdovirus, Infectious hematopoietic necrosis virus (IHNV), in juvenile rainbow trout (Oncorhynchus mykiss). We have conducted assays with IHNV isolates designated B, C, and D, representing the three most common genetic subtypes that co-circulate in Idaho trout fAuthorsR.M. Troyer, K.A. Garver, J. C. Ranson, A. R. Wargo, Gael KurathBiotechnology and DNA vaccines for aquatic animals
Biotechnology has been used extensively in the development of vaccines for aquaculture. Modern molecular methods such as polymerase chain reaction (PCR), cloning and microarray analysis have facilitated antigen discovery, construction of novel candidate vaccines, and assessments of vaccine efficacy, mode of action, and host response. This review focuses on DNA vaccines for finfish to illustrate biAuthorsGael KurathDetection of viral hemorrhagic septicemia virus
Viral hemorrhagic septicemia virus (VHSV) is considered to be one of the most important viral pathogens of finfish and is listed as reportable by many nations and international organizations (Office International des Epizooties 2006). Prior to 1988, VHSV was thought to be limited to Europe (Wolf 1988; Smail 1999). Subsequently, it was shown that the virus is endemic among many marine and anadromouAuthorsJames Winton, Gael Kurath, William BattsFish rhabdovirus models for understanding the host response to DNA vaccines
n/aAuthorsGael Kurath, Maureen K. Purcell, Kyle A. GarverGenotyping of Korean isolates of infectious hematopoietic necrosis virus (IHNV) based on the glycoprotein gene
Glycoprotein (G) gene nucleotide sequences of four Korean isolates of infectious hematopoietic necrosis virus (IHNV) were analyzed to evaluate their genetic relatedness to worldwide isolates. All Korean isolates were closely related to Japanese isolates of genogroup JRt rather than to those of North American and European genogroups. It is believed that Korean IHNV has been most likely introduced fAuthorsW.-S. Kim, M.-J. Oh, T. Nishizawa, J. W. Park, Gael Kurath, M. YoshimizuGenotypes and phylogeographical relationships of infectious hematopoietic necrosis virus in California, USA
Infectious hematopoietic necrosis virus (IHNV) contains 3 major genogroups in North America with discreet geographic ranges designated as upper (U), middle (M), and lower (L). A comprehensive genotyping of 237 IHNV isolates from hatchery and wild salmonids in California revealed 25 different sequence types (a to y) all in the L genogroup; specifically, the genogroup contained 14 sequence types thaAuthorsG.O. Kelley, C.M. Bendorf, S.C. Yun, Gael Kurath, R.P. HedrickGenetic diversity of infectious hematopoietic necrosis virus from Feather River and Lake Oroville, California, and virulence of selected isolates for Chinook salmon and rainbow trout
Infectious hematopoietic necrosis virus (IHNV) is a significant pathogen of young salmonid fishes worldwide but particularly within the historical range of the Pacific Northwest and California. In the Sacramento and San Joaquin River drainages of California, IHNV outbreaks in juvenile Chinook salmon Oncorhynchus tshawytscha have been observed regularly at large production hatcheries, including ColAuthorsC.M. Bendorf, G.O. Kelley, S.C. Yun, Gael Kurath, K.B. Andree, R.P. HedrickOccurrence and genetic typing of infectious hematopoietic necrosis virus in Kamchatka, Russia
Infectious hematopoietic necrosis virus (IHNV) is a well known rhabdoviral pathogen of salmonid fish in North America that has become established in Asia and Europe. On the Pacific coast of Russia, IHNV was first detected in hatchery sockeye from the Kamchatka Peninsula in 2001. Results of virological examinations of over 10 000 wild and cultured salmonid fish from Kamchatka during 1996 to 2005 reAuthorsS.L. Rudakova, Gael Kurath, E.V. BochkovaIntroduction of translation stop condons into the viral glycoprotein gene in a fish DNA vaccine eliminates induction of protective immunity
A highly efficacious DNA vaccine against a fish rhabdovirus, infectious hematopoietic necrosis virus (IHNV), was mutated to introduce two stop codons to prevent glycoprotein translation while maintaining the plasmid DNA integrity and RNA transcription ability. The mutated plasmid vaccine, denoted pIHNw-G2stop, when injected intramuscularly into fish at high doses, lacked detectable glycoprotein exAuthorsKyle A. Garver, Carla M. Conway, Gael KurathStrand-specific, real-time RT-PCR assays for quantification of genomic and positive-sense RNAs of the fish rhabdovirus, Infectious hematopoietic necrosis virus
The fish rhabdovirus, Infectious hematopoietic necrosis virus (IHNV), is an important pathogen of salmonids. Cell culture assays have traditionally been used to quantify levels of IHNV in samples; however, real-time or quantitative RT-PCR assays have been proposed as a rapid alternative. For viruses having a single-stranded, negative-sense RNA genome, standard qRT-PCR assays do not distinguish betAuthorsMaureen K. Purcell, S. Alexandra Hart, Gael Kurath, James R. WintonSequence motifs and prokaryotic expression of the reptilian paramyxovirus fusion protein
Fourteen reptilian paramyxovirus isolates were chosen to represent the known extent of genetic diversity among this novel group of viruses. Selected regions of the fusion (F) gene were sequenced, analyzed and compared. The F gene of all isolates contained conserved motifs homologous to those described for other members of the family Paramyxoviridae including: signal peptide, transmembrane domain,AuthorsJ. Franke, W.N. Batts, W. Ahne, Gael Kurath, J. R. WintonVirulence comparisons of infectious hematopoietic necrosis virus U and M genogroups in sockeye salmon and rainbow trout
Infectious hematopoietic necrosis virus (IHNV) is an aquatic rhabdovirus that infects salmonids in the Pacific Northwest of the United States, Europe, and Asia. Isolates of IHNV have been phylogenetically classified into three major viral genogroups, designated U, M, and L. To characterize virulence of IHNV in the context of these three viral genogroups, seven strains of IHNV (three U genogroup stAuthorsK.A. Garver, W.N. Batts, Gael KurathNon-USGS Publications**
Kurath, G., and C. Robaglia. 1995. Genetic variation and evolution of satellite viruses and satellite RNAs. Pages 385-403 in A. Gibbs, C. Calisher, and F. Garcia-Arenal (eds.), Molecular Basis of Virus Evolution. Cambridge Press, Cambridge, U.K.Kurath, G., and J.A. Dodds. 1995. Mutation analyses of molecularly cloned satellite tobacco mosaic virus during serial passage in plants: evidence for hotspots of genetic change. RNA 1: 491-500.Kurath, G., and J.A. Dodds. 1994. Satellite tobacco mosaic virus sequence variants with only five nucleotide differences can interfere with each other in a cross protection-like phenomenon in plants. Virology 202(2): 1065-1069. DOI: https://doi.org/10.1006/viro.1994.1441.Rodriguez-Alvarado, G., G. Kurath, and J.A. Dodds. 1994. Symptom modification by satellite tobacco mosaic virus in pepper types and cultivars infected with helper tobamoviruses. Phytopathology 84(6): 617-621. DOI: 10.1094/Phyto-84-617.Kurath, G., M.E. C. Rey, and J.A. Dodds. 1993. Tobamovirus helper specificity of satellite tobacco mosaic virus involves a domain near the 5' end of the satellite genome. Journal of General Virology 74(7): 1233-1243. DOI: 10.1099/0022-1317-74-7-1233.Kurath, G., M.E. C. Rey, and J.A. Dodds. 1992. Analysis of genetic heterogeneity within the type strain of satellite tobacco mosaic virus reveals several variants and a strong bias for G to A substitution mutations. Virology 189(1): 233-244. DOI: https://doi.org/10.1016/0042-6822(92)90699-P.Kurath, G., and P. Palukaitis. 1990. Serial passage of infectious transcripts of a cucumber mosaic virus satellite RNA clone results in sequence heterogeneity. Virology 176(1): 8-15. DOI: https://doi.org/10.1016/0042-6822(90)90224-F.Kurath, G., and P. Palukaitis. 1989. RNA sequence heterogeneity in natural populations of three satellite RNAs of cucumber mosaic virus. Virology 173(1): 231-240. DOI: https://doi.org/10.1016/0042-6822(89)90239-0.Kurath, G., and P. Palukaitis. 1987. Biological activity of T7 transcripts of a prototype clone and a sequence variant clone of a satellite RNA of cucumber mosaic virus. Virology 159(2):199-208. DOI: https://doi.org/10.1016/0042-6822(87)90456-9.Kurath, G., and J.C. Leong. 1985. Characterization of IHN virus mRNA species reveals a non-virion rhabdovirus protein. Journal of Virology 53(2):462-468.Kurath, G., K.G. Ahern, G.D. Pearson, and J.C. Leong. 1985. Molecular cloning of six mRNA species of IHNV, a fish rhabdovirus: Gene order determined by R-loop mapping. Journal of Virology 53(2): 469-476.Kurath, G., and R.Y. Morita. 1983. Some physiological studies on starvation survival of a marine Pseudomonas sp. Applied and Environmental Microbiology 45(4):1206-1211.**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government