Your search keyword '"Blaine Schoolfield"' showing total 11 results

1. Genome-wide allele frequency studies in Pacific oyster families identify candidate genes for tolerance to ostreid herpesvirus 1 (OsHV-1)

Author

Konstantin Divilov, Noah Merz, Blaine Schoolfield, Timothy J. Green, and Chris Langdon

Subjects

QTL, GWAFS, Disease, Mortality, Virus, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Host genetics influences the development of infectious diseases in many agricultural animal species. Identifying genes associated with disease development has the potential to make selective breeding for disease tolerance more likely to succeed through the selection of different genes in diverse signaling pathways. In this study, four families of Pacific oysters (Crassostrea gigas) were identified to be segregating for a quantitative trait locus (QTL) on chromosome 8. This QTL was previously found to be associated with basal antiviral gene expression and survival to ostreid herpesvirus 1 (OsHV-1) mortality events in Tomales Bay, California. Individuals from these four families were phenotyped and genotyped in an attempt to find candidate genes associated with the QTL on chromosome 8. Results Genome-wide allele frequencies of oysters from each family prior to being planting in Tomales Bay were compared with the allele frequencies of oysters from respective families that survived an OsHV-1 mortality event. Six significant unique QTL were identified in two families in these genome-wide allele frequency studies, all of which were located on chromosome 8. Three QTL were assigned to candidate genes (ABCA1, PIK3R1, and WBP2) that have been previously associated with antiviral innate immunity in vertebrates. Conclusion The identification of vertebrate antiviral innate immunity genes as candidate genes involved in molluscan antiviral innate immunity reinforces the similarities between the innate immune systems of these two groups. Causal variant identification in these candidate genes will enable future functional studies of these genes in an effort to better understand their antiviral modes of action.

Published

2023

2. Ostreid herpesvirus 1 latent infection and reactivation in adult Pacific oysters, Crassostrea gigas

Author

Konstantin Divilov, Xisheng Wang, Alexandra E. Swisher, Peyton C Yeoman, Maxwell Rintoul, Gary B. Fleener, Blaine Schoolfield, Chris Langdon, and Ling Jin

Subjects

Pacific oysters, OsHV-1, Latent, Reactivation, qPCR, Nested PCR, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Ostreid herpesvirus 1 (OsHV-1) is one of the most economically important pathogens of Pacific oysters. Understanding the pathogenesis of this virus is critical to developing tools to control outbreaks on shellfish farms. OsHV-1 is genetically related to vertebrate herpesviruses, which have a lytic and a latent stage, with the latent stage capable of being reactivated to the lytic stage. Here, OsHV-1 latency in Pacific oysters was investigated in experimentally and naturally infected oysters. Lytic infection in one-year-old oysters injected with the Tomales Bay strain of OsHV-1 was detectable between 1 and 4 days post-injection (dpi) but was not detectable after 5 dpi. The injected oysters shed 1 × 102 to 1 × 104 DNA copies/ml into the water during the 4-day acute phase. Lytic shedding was not detectable in two-year-old oysters injected similarly with the same strain of OsHV-1; however, the OsHV-1 genome was detectable by qPCR in the adductor muscle, gill, mantle, and hemocytes within the first 3 dpi, after which it became undetectable. No OsHV-1 was detectable in the adductor muscle, gill, or mantle from experimentally infected oysters on days 15 and 21 post-injection or from oysters sampled 9 months after surviving an OsHV-1 mortality event; however, OsHV-1 DNA could be detected in hemocytes of both experimentally infected oysters at 21 dpi and naturally infected oysters using nested PCR. In addition, lytic viral gene transcription was detectable in hemocytes of experimentally infected oysters between 1 and 21 dpi and in hemocytes of naturally infected oysters. Furthermore, OsHV-1 reactivation from latency was induced in experimentally infected oysters at 21 dpi and in naturally infected oysters 12 months after an OsHV-1 outbreak.

Published

2024

3. First evaluation of resistance to both a California OsHV-1 variant and a French OsHV-1 microvariant in Pacific oysters

Author

Konstantin Divilov, Blaine Schoolfield, Benjamin Morga, Lionel Dégremont, Colleen A. Burge, Daniel Mancilla Cortez, Carolyn S. Friedman, Gary B. Fleener, Brett R. Dumbauld, and Chris Langdon

Subjects

Ostreid herpesvirus 1, Crassostrea gigas, Heritability, Breeding, Genetics, QH426-470

Abstract

Abstract Background Variants of the Ostreid herpesvirus 1 (OsHV-1) cause high losses of Pacific oysters globally, including in Tomales Bay, California, USA. A suite of new variants, the OsHV-1 microvariants (μvars), cause very high mortalities of Pacific oysters in major oyster-growing regions outside of the United States. There are currently no known Pacific oysters in the United States that are resistant to OsHV-1 as resistance has yet to be evaluated in these oysters. As part of an effort to begin genetic selection for resistance to OsHV-1, 71 families from the Molluscan Broodstock Program, a US West Coast Pacific oyster breeding program, were screened for survival after exposure to OsHV-1 in Tomales Bay. They were also tested in a quarantine laboratory in France where they were exposed to a French OsHV-1 microvariant using a plate assay, with survival recorded from three to seven days post-infection. Results Significant heritability for survival were found for all time points in the plate assay and in the survival phenotype from a single mortality count in Tomales Bay. Genetic correlations between survival against the French OsHV-1 μvar in the plate assay and the Tomales Bay variant in the field trait were weak or non-significant. Conclusions Future breeding efforts will seek to validate the potential of genetic improvement for survival to OsHV-1 through selection using the Molluscan Broodstock Program oysters. The lack of a strong correlation in survival between OsHV-1 variants under this study’s exposure conditions may require independent selection pressure for survival to each variant in order to make simultaneous genetic gains in resistance.

Published

2019

4. Differential Mortality and High Viral Load in Naive Pacific Oyster Families Exposed to OsHV-1 Suggests Tolerance Rather than Resistance to Infection

Author

M. Victoria Agnew, Carolyn S. Friedman, Christopher Langdon, Konstantin Divilov, Blaine Schoolfield, Benjamin Morga, Lionel Degremont, Arun K. Dhar, Peter Kirkland, Brett Dumbauld, and Colleen A. Burge

Subjects

OsHV-1, µvars, oyster, virus, tolerance, virulence, Medicine

Abstract

Pacific oysters, Crassostrea gigas, are one of the most productive aquaculture species in the world. However, they are threatened by the spread of Ostreid herpesvirus-1 (OsHV-1) and its microvariants (collectively “µvars”), which cause mass mortalities in all life stages of Pacific oysters globally. Breeding programs have been successful in reducing mortality due to OsHV-1 variants following viral outbreaks; however, an OsHV-1-resistant oyster line does not yet exist in the United States (US), and it is unknown how OsHV-1 µvars will affect US oyster populations compared to the current variant, which is similar to the OsHV-1 reference, found in Tomales Bay, CA. The goals of this study were to investigate the resistance of C. gigas juveniles produced by the Molluscan Broodstock Program (MBP) to three variants of OsHV-1: a California reference OsHV-1, an Australian µvar, and a French µvar. This is the first study to directly compare OsHV-1 µvars to a non-µvar. The survival probability of oysters exposed to the French (FRA) or Australian (AUS) µvar was significantly lower (43% and 71%, respectively) than to the reference variant and controls (96%). No oyster family demonstrated resistance to all three OsHV-1 variants, and many surviving oysters contained high copy numbers of viral DNA (mean ~3.53 × 108). These results indicate that the introduction of OsHV-1 µvars could have substantial effects on US Pacific oyster aquaculture if truly resistant lines are not achieved, and highlight the need to consider resistance to infection in addition to survival as traits in breeding programs to reduce the risk of the spread of OsHV-1 variants.

Published

2020

5. Marker-assisted selection in a Pacific oyster population for an antiviral QTL conferring increased survival to OsHV-1 mortality events in Tomales Bay

Author

Konstantin Divilov, Noah Merz, Blaine Schoolfield, Timothy J. Green, and Chris Langdon

Subjects

Aquatic Science

Published

2023

6. Heritability estimates of disease resistance to Vibrio coralliiyticus in Pacific oyster (Crassostrea gigas) larvae from a selective broodstock program

Author

Joseph P. Dietrich, Mary Beth Rew Hicks, Jeffrey J. Hard, Krista M. Nichols, Christopher J. Langdon, Konstantin Divilov, Blaine Schoolfield, and Mary R. Arkoosh

Subjects

Aquatic Science

Published

2022

7. Differential Mortality and High Viral Load in Naive Pacific Oyster Families Exposed to OsHV-1 Suggests Tolerance Rather than Resistance to Infection

Author

Peter D. Kirkland, Colleen A. Burge, Carolyn S. Friedman, Chris Langdon, Brett R. Dumbauld, Lionel Degremont, Benjamin Morga, M. Victoria Agnew, Arun K. Dhar, Blaine Schoolfield, and Konstantin Divilov

Subjects

Microbiology (medical), Oyster, mu vars, lcsh:Medicine, Zoology, Broodstock, virus, Article, 03 medical and health sciences, Aquaculture, biology.animal, Immunology and Allergy, 14. Life underwater, Molecular Biology, 030304 developmental biology, 0303 health sciences, oyster, tolerance, General Immunology and Microbiology, biology, OsHV-1, µvars, business.industry, lcsh:R, Outbreak, food and beverages, 04 agricultural and veterinary sciences, Pacific oyster, biology.organism_classification, 3. Good health, virulence, qPCR, Infectious Diseases, Threatened species, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Crassostrea, business, Viral load

Abstract

Pacific oysters, Crassostrea gigas, are one of the most productive aquaculture species in the world. However, they are threatened by the spread of Ostreid herpesvirus-1 (OsHV-1) and its microvariants (collectively &ldquo, &micro, vars&rdquo, ), which cause mass mortalities in all life stages of Pacific oysters globally. Breeding programs have been successful in reducing mortality due to OsHV-1 variants following viral outbreaks, however, an OsHV-1-resistant oyster line does not yet exist in the United States (US), and it is unknown how OsHV-1 &micro, vars will affect US oyster populations compared to the current variant, which is similar to the OsHV-1 reference, found in Tomales Bay, CA. The goals of this study were to investigate the resistance of C. gigas juveniles produced by the Molluscan Broodstock Program (MBP) to three variants of OsHV-1: a California reference OsHV-1, an Australian &micro, var, and a French &micro, var. This is the first study to directly compare OsHV-1 &micro, vars to a non-&micro, var. The survival probability of oysters exposed to the French (FRA) or Australian (AUS) &micro, var was significantly lower (43% and 71%, respectively) than to the reference variant and controls (96%). No oyster family demonstrated resistance to all three OsHV-1 variants, and many surviving oysters contained high copy numbers of viral DNA (mean ~3.53 &times, 108). These results indicate that the introduction of OsHV-1 &micro, vars could have substantial effects on US Pacific oyster aquaculture if truly resistant lines are not achieved, and highlight the need to consider resistance to infection in addition to survival as traits in breeding programs to reduce the risk of the spread of OsHV-1 variants.

Published

2020

8. Genetic improvement of survival in Pacific oysters to the Tomales Bay strain of OsHV-1 over two cycles of selection

Author

Konstantin Divilov, Xisheng Wang, Chris Langdon, Brett R. Dumbauld, Ling Jin, Daniel Mancilla Cortez, Blaine Schoolfield, and Gary B. Fleener

Subjects

0303 health sciences, Oyster, geography, geography.geographical_feature_category, biology, Breeding program, business.industry, fungi, food and beverages, Estuary, 04 agricultural and veterinary sciences, Aquatic Science, Heritability, Fishery, 03 medical and health sciences, Aquaculture, biology.animal, 040102 fisheries, 0401 agriculture, forestry, and fisheries, business, Bay, Shellfish, Selection (genetic algorithm), 030304 developmental biology

Abstract

Yearly mass mortalities of Pacific oysters in a major oyster-growing estuary on the West Coast of the United States (Tomales Bay, California) present a constraint to shellfish aquaculture. These mortalities have been associated with the presence of Ostreid herpesvirus 1 (OsHV-1; Tomales Bay strain) and increased seawater temperature in the estuary. In order to develop oyster families that are more tolerant to OsHV-1 than current oyster stocks, one cohort was planted in Tomales Bay per year over a three-year period, two of which were selected based on survival data collected from previous cohorts. Analyzing survival data from 23,590 oysters from 191 biparental families planted in Tomales Bay over three years, we estimated the heritability of survival on the observed and underlying liability scales to be 0.30 and 0.47, respectively. Survival breeding values increased 10.3 and 21.2 percentage points after one and two cycles of selection, respectively, suggesting that genetic selection was highly effective at producing oysters that were more tolerant of OsHV-1. The oyster families developed in this breeding program are the first in the United States specifically bred to be tolerant to OsHV-1 under elevated temperatures and will be valuable to oyster growers as well as researchers studying the genetic basis of OsHV-1 tolerance in Pacific oysters.

Published

2021

9. First evaluation of resistance to both a California OsHV-1 variant and a French OsHV-1 microvariant in Pacific oysters

Author

Lionel Degremont, Chris Langdon, Brett R. Dumbauld, Carolyn S. Friedman, Daniel Mancilla Cortez, Colleen A. Burge, Benjamin Morga, Gary B. Fleener, Blaine Schoolfield, and Konstantin Divilov

Subjects

0301 basic medicine, lcsh:QH426-470, Breeding program, Ostreid herpesvirus 1, Zoology, Broodstock, Breeding, California, law.invention, Heritability, 03 medical and health sciences, law, Quarantine, Genetics, Animals, 14. Life underwater, Crassostrea, Mortality, Selection, Genetic, Genetics (clinical), Disease Resistance, Resistance (ecology), biology, DNA Viruses, food and beverages, Genetic Variation, 04 agricultural and veterinary sciences, Pacific oyster, biology.organism_classification, lcsh:Genetics, 030104 developmental biology, Crassostrea gigas, 040102 fisheries, 0401 agriculture, forestry, and fisheries, France, Bay, Research Article

Abstract

Background Variants of the Ostreid herpesvirus 1 (OsHV-1) cause high losses of Pacific oysters globally, including in Tomales Bay, California, USA. A suite of new variants, the OsHV-1 microvariants (μvars), cause very high mortalities of Pacific oysters in major oyster-growing regions outside of the United States. There are currently no known Pacific oysters in the United States that are resistant to OsHV-1 as resistance has yet to be evaluated in these oysters. As part of an effort to begin genetic selection for resistance to OsHV-1, 71 families from the Molluscan Broodstock Program, a US West Coast Pacific oyster breeding program, were screened for survival after exposure to OsHV-1 in Tomales Bay. They were also tested in a quarantine laboratory in France where they were exposed to a French OsHV-1 microvariant using a plate assay, with survival recorded from three to seven days post-infection. Results Significant heritability for survival were found for all time points in the plate assay and in the survival phenotype from a single mortality count in Tomales Bay. Genetic correlations between survival against the French OsHV-1 μvar in the plate assay and the Tomales Bay variant in the field trait were weak or non-significant. Conclusions Future breeding efforts will seek to validate the potential of genetic improvement for survival to OsHV-1 through selection using the Molluscan Broodstock Program oysters. The lack of a strong correlation in survival between OsHV-1 variants under this study’s exposure conditions may require independent selection pressure for survival to each variant in order to make simultaneous genetic gains in resistance.

Published

2019

10. Introduction and evaluation on the US West Coast of a new strain (Midori) of Pacific oyster (Crassostrea gigas) collected from the Ariake Sea, southern Japan

Author

Konstantin Divilov, Kimberly S. Reece, Joth Davis, Cláudio Melo, Chris Langdon, Blaine Schoolfield, Ryan B. Carnegie, Evan Durland, and Ford Evans

Subjects

0303 health sciences, Veterinary medicine, Larva, Oyster, biology, 04 agricultural and veterinary sciences, Broodstock, Aquatic Science, Pacific oyster, Heritability, biology.organism_classification, 03 medical and health sciences, Genetic gain, biology.animal, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Crassostrea, Bay, 030304 developmental biology

Abstract

We describe the introduction, taxonomic identification and genetic parameters for farm traits of the Midori strain of the Pacific oyster Crassostrea gigas - a possible alternative to the widely farmed Miyagi strain on the US West Coast. Broodstock (G0) oysters collected from the mouth of the Midori river and near Iwajima Island, Ariake Bay, Japan were identified as C. gigas based on the nuclear internal transcribed spacer (ITS) region and 28S gene as well as a mitochondrial (COI) marker. G0 and G1 generations and G2 larvae and spat were maintained in quarantine conditions and subjected to numerous histological exams and PCR tests for detection of pathogens of concern. After the G1 generation and G2 early life stages were found to be free of detectable diseases, G2 spat were planted at farm test sites and adults were used to produce a G3 generation. This G3 generation was cultured under non-quarantine conditions and families were planted at sub-tidal and inter-tidal test sites, in Oregon and California, respectively. Field performance traits were measured to determine the potential for improvement through selection. Overall, Midori oysters showed significantly lower values for harvest yield, survival, individual average weight and dry meat weight compared with oysters from a selected stock of the Miyagi strain of Pacific oyster; however, shell shape index (a measure of shell depth) was significantly greater in Midori oysters. Heritability estimates for group traits at harvest (survival, yield and individual average harvest weight) were high, whereas heritability estimates for individual traits (individual weight, wet meat weight and dry meat weight) and for shell dimension measurements (shell length, shell width and shell depth) were moderate-to-high. Family-by-site (GxE) correlations were low-to-moderate for all measured traits. Genetic correlations were positive and moderate-to-high among group traits and shell dimensions. In contrast, correlations between shell shape and other traits had small-to-moderate negative values but these were not statistically significant. Estimated potential genetic gain for dry meat weight was high (46%) whereas estimated gains for yield, individual average weight, individual weight were high-to-moderate (approximately 10%). In contrast, shell shape showed very little potential for genetic gain through selection. Overall, the Midori strain of the Pacific oyster shows promise as a deep-cupped oyster for the half-shell trade. Statement of relevance We describe the introduction of a new strain of Pacific oyster (Midori) collected from southern Japan to the US West Coast. Rigorous quarantine protocols and disease tests were applied to ensure that the risks of introducing diseases were minimized. The Midori strain was found to have a deeper cup than the commonly farmed Miyagi strain but the potential estimated gain for improving this trait through selection was small.

Published

2021

11. Selection of group and individual traits of Pacific oysters (Crassostrea gigas) on the West Coast, US

Author

Cláudio Melo, Konstantin Divilov, Blaine Schoolfield, and Chris Langdon

Subjects

0303 health sciences, Oyster, biology, 04 agricultural and veterinary sciences, Broodstock, Aquatic Science, Heritability, Pacific oyster, biology.organism_classification, Genetic correlation, 03 medical and health sciences, Animal science, biology.animal, 040102 fisheries, Trait, 0401 agriculture, forestry, and fisheries, Crassostrea, Selection (genetic algorithm), 030304 developmental biology

Abstract

Several Pacific oysters breeding programs selecting for improved aquaculture traits have been described in the literature; however, there are differences in the approaches and traits under selection. Here we discuss the approach and results of the Molluscan Broodstock Program (MBP) to improve traits of interest for US West Coast oyster farmers. In particular, we compare selection methods based on individual versus group traits measured per grow-out container. A total of 442 group records (per container) and 2197 individual records for field traits of up to 55 families were used for statistical analyses. Heritability estimates for group traits at harvest for survival, yield and individual average harvest weight were moderate-to-high and the latter estimate was not statistically significantly different from harvest weight based on individual measurements. Family-by-site (G × E) correlations were moderately negative between shell length and shell shape and strongly positive between yield and individual average weight. Genetic correlations were all positive among group traits, ranging from moderately positive between individual average weight and survival to highly positive between individual average weight and yield. Genetic correlations between individual average weight (a group trait) and individual weight (an individual trait) ranged from 0.95 to 0.99. In contrast, genetic correlations between shell shape and group traits (yield, individual average weight and survival) ranged from −0.63 to −0.22. The potential genetic gains were higher for group traits (12.1%, 8.4% and 6.9% for yield, individual average weight and survival, respectively) than for individual weight (5.6%). The BLUP accuracies were similar between group traits and individual weight. High genetic correlations between individual average weight and individual weight at harvest suggest that gains in individual weight can be achieved by selection for either individual average weight or individual weight; however, our results indicated that selecting families for shell shape will cause an unfavorable decrease of other commercially important traits. Statement of relevance The Pacific oyster, Crassostrea gigas, is a globally cultivated species that is grown under a wide range of environmental and husbandry conditions. In this study, we describe genetic parameters for desirable traits of selected Pacific oysters planted at commercial farms on the West Coast, US, as well as a comparison of selection methods based on individual versus group traits measured per grow-out container. Our results indicate that group traits and individual traits are genetically associated and have moderate-to-high heritabilities. Furthermore, we found a very high genetic correlation between individual average weight per container (a group trait) and weights of individual oysters sampled per container (an individual trait) at harvest, suggesting that individual average weight is a valid and less costly alternative to measurements of sampled individual oysters in breeding programs designed to improve oyster harvest weight. The results will be of interest to other breeding programs for Pacific oysters.

Published

2019