NRSP-8 Salmonids Aquaculture Research Progress Report for 2012
Objective 1:
Create shared genomic tools and reagents and sequence information to enhance
the understanding and discovery of genetic mechanisms affecting traits of interest.
CATFISH
Channel catfish genome sequencing: To date
60X genome equivalent of Illumina sequences and mate paired reads of
3Kb, 8Kb, and 36 Kb with sequences equivalent to 3.1X, 0.5X, and 0.15X
(clonal coverage of 47X, 21X and 27X), respectively have been
generated. PacBio sequences equivalent to 9.5X genome coverage with an
average length of 3.5 Kb have been generated. The channel catfish
genome is under assembly.
Blue
catfish genome sequencing: Doubled haploid blue
catfish were produced and used as template for sequencing using
Moleculo’s Long Reads product to generate extremely long and accurate
reads. A preliminary assembly with only the long reads using 99%
sequence overlap identity produced 46,098 contigs with an N50 length of
12.9 kb and N80 length of 8.5 kb. A further 42,141 long reads remained
singlets with an N80 length of 4.6kb and N50 length of 7.0kb.
Transcriptome
and annotation resources: RNA-Seq of the doubled
haploid catfish generated a transcriptome assembly including 25,144
unique protein encoding genes, with over 14,000 full-length
transcripts. This resources has been used for expression profiling of
mucosal surfaces for catfish challenged with the pathogen Flavobacterium
columnare.
Microarray
development and use: An Agilent 8x60K microarray is
publicly available and has been utilized for profiling channel and blue
catfish skin responses to Aeromonas hydrophila infection.
OYSTER
Oyster Genome Sequence: International
efforts to develop BAC physical maps, large volumes of SNPs and
integrated cytogenetic maps culminated in the acquisition of an oyster
genome sequence.
SALMONIDS
Rainbow Trout Reference Genome sequence: A
pooling and tagging scheme was used for sequencing of the ~15,000
clones of the BAC fingerprinting physical map minimal tiling path
(MTP). Sequencing is complete and the assembly is underway. The current
version of the assembly is estimated to cover 70% of the rainbow trout
genome.
Rainbow
Trout SNP discovery from RADs: We employed
restriction-site associated DNA (RAD) technology to generate a large
SNPs data set from deep sequencing of a panel of 11 homozygous lines.
The dataset is composed of 145,168 high-quality putative SNPs that were
genotyped in at least 9 of the 11 lines, of which 71,446 (49%) had
minor allele frequencies (MAF) of at least 18%.
SHRIMP
Genome
sequencing of Pacific White Shrimp, Litopenaeus vannamei:
Due to the high levels of heterozygosity and the complexity of the
shrimp genome, it is very difficult to assemble the short reads
generated by next-generation sequencing technologies. Efforts have been
turned to finding shrimp inbred lines with relatively high homozygosity
or sequencing BAC libraries.
Development
of a high-density SNP genotyping platform: A deep
sequencing of restriction-site associated DNA marker (RAD-Seq) method
was used to find genetic markers involved in disease resistance in
Pacific White Shrimp.
RNA-seq:
A large scale RNA-seq project was initiated to characterize disease
resistance mechanisms in shrimp.
STRIPED
BASS Striped Bass transcriptome: A
database (> 11,000 entries) for gene transcripts expressed by
the striped bass ovary at all maturational stages was developed and
published to provide a foundation for gene expression research on
reproduction and breeding of the striped bass and its relatives.
Striped
Bass Genetic Map: The first genetic map of the
genome of the striped bass was developed and published. This
medium-density linkage map is based on 298 microsatellite markers and
is enabling detection of QTL affecting production traits.
Objective 2:
Facilitate the development and sharing of animal populations and the
collection and analysis of new, unique and interesting phenotypes.
CATFISH Selection
for improved growth and filet yield in Year 1 of the Delta Select
strain F2 Generation was completed. Channel, blue, and hybrid catfish
were raised in intensive raceway environments and phenotyped for
selective breeding.
SALMONIDS Multi-year
pedigreed rainbow trout populations phenotyped for plasma cortisol in
response to stress, resistance to bacterial cold water disease (BCWD),
spleen size, or growth on fish meal free/plant based diets have been
developed and propagated for release to industry and identification of
biological mechanisms underlying these traits.
SHRIMP Most
of the shrimp populations developed for research are from breeding
companies, and mainly support disease resistance studies. Resource
populations exist for public and collaborative research.
STRIPED
BASS
Broodstock populations have
been established in support of genetic improvement programs for Morone
species. An experimental method for accelerating puberty and maturation
of Morone species based on administration of the
neuropeptide kisspeptin was demonstrated, opening the door to
development of practical methods for application to these late-maturing
species and pinpointing the proximal signal for maturation of Morone
species.
Objective 3:
Develop, integrate and implement bioinformatics resources to support
the discovery of genetic mechanisms that underlie traits of interest.
CATFISH The
catfish RNASeq, ESTs, and related SNP information has been disseminated
through the Catfish Genome Database, cBARBEL, http://www.catfishgenome.org/cbarbel/
, that
has generated tens of thousands of hits from over 30 countries.
SALMONIDS
QTL Database: A rainbow trout QTL database is now available through the
Animal Genome website of the NRSP-8 bioinformatics group
(http://www.animalgenome.org/cgibin/QTLdb/index) and is being
continually updated.
SHRIMP
A website for the shrimp genomics community will be
established, and various kinds of genomics resources for shrimp
research will be assembled in the database.
CATFISH
Li C, Wang R, Su B, Luo Y, Terhune J, Beck B, Peatman E.
Evasion of Mucosal Defenses During Aeromonas hydrophila
Infection of Channel Catfish (Ictalurus punctatus)
Skin. Dev Comp Immunol (in press; http://dx.doi.org/10.1016/j.dci.2012.11.009)
Beck
BH,
Farmer BD, Straus D, Li C, Peatman E (2012) Putative roles for a
rhamnose binding lectin in Flavobacterium columnare
pathogenesis in channel catfish Ictalurus punctatus.
Fish Shellfish Immunology 33:1008-1015
Arias
CR,
Cai W, Peatman E, Bullard SA (2012) Channel Catfish x Blue Catfish
Hybrid Exhibits Higher Resistance to Columnaris Disease as Compared to
Its Parental Species. Diseases of Aquatic Organisms
100(1):77-81.
Li
C,
Zhang Y, Wang R, Lu J, Nandi S, Mohanty S, Terhune S, Liu Z, and
Peatman E (2012) RNA-seq analysis of mucosal immune responses reveals
signatures of intestinal barrier disruption and pathogen entry
following Edwardsiella ictaluri infection in
channel catfish, Ictalurus punctatus. Fish
Shellfish Immunology 32(5):816-27
Sun*
F,
Peatman* E, Li C, Liu S, Jiang Y, Zhou Z, Kucuktas H, Liu Z (2012) Host
Signatures of Attachment, NF-κB Suppression and IFN Stimulation in the
Channel Catfish (Ictalurus punctatus) Gill
Transcriptome Following Flavobacterium Columnare
Challenge. Dev Comp Immunol 38(1):169-80
Ninwichian,
Peatman E, Perrera D, Liu S, Dunham R, Liu Z (2012) Identification of a
sex-linked marker in channel catfish. Animal Genetics
43(4):476
Rajendran
KV, Zhang J, Liu S, Peatman E, Kucuktas H, Wang X, Liu H, Wood T,
Terhune J, Liu Z (2012) Pathogen recognition receptors in channel
catfish: II. Identification, phylogeny and expression of retinoic
acid-inducible gene I (RIG-I)-like receptors. Dev Comp Immunol
37(34):381-9
Zhang
H, Peatman E, Liu H, Feng T, Chen L,
Liu Z (2012) Molecular characterization of three L-type lectin genes
from channel catfish, Ictalurus punctatus and their
responses to Edwardsiella ictaluri challenge. Fish
Shellfish Immunology 32(4):598-608.
Rajendran
KV, Zhang J, Liu S, Kucuktas H,
Wang X, Liu H, Sha Z, Terhune J, Peatman E, Liu Z (2012) Pathogen
recognition receptors in channel catfish: I. Identification, phylogeny
and expression of NOD-like receptors. Dev Comp Immunol
37(1):77-86
Zhou
Z, Liu H, Liu S, Sun F, Peatman E,
Kucuktas H, Kaltenboeck L, Feng T, Zhang H, Niu D, Lu J, Waldbieser G,
Liu Z (2012) Alternative complement pathway of channel catfish (Ictalurus
punctatus): Molecular characterization, mapping and
expression analysis of factors Bf/C2 and Df. Fish Shellfish
Immunol 32:186-95.
Zhang
H, Peatman E, Liu H, Niu D, Feng T,
Kucuktas H, Waldbieser G, Chen L, Liu Z (2012) Characterization of a
mannose-binding lectin from channel catfish (Ictalurus punctatus). Research
in Veterinary Medicine 92(3):408-13
Lu
J, Peatman E, Tang H, Lewis J, and Liu Z
(2012) Genome expansion in zebrafish is mediated by recent tandem
duplications. BMC Genomics 13:246
Lu
J, Peatman E, Tang H, Lewis J, Liu ZJ.
2012. Profiling of gene duplication patterns of teleost genomes:
Evidence for rapid lineage-specific genome expansion mediated by recent
tandem duplications. BMC Genomics 13:246.
Ninwichian*
P, Peatman* E, Liu H, Kucuktas
H, Somridhivej B, Liu S, Li P, Jiang Y, Sha Z, Kaltenboeck M, Abernathy
JA, Wang W, Chen F, Lee Y, Wong L, Wang S, Lu J, Liu Z (2012) Second
Generation Genetic Linkage Map of Catfish and Its Integration with the
BAC-based Physical Map. G3: Genes, Genomes, Genetics
2(10):1233-41.
Liu S, Zhang S, Zhou Z, Waldbieser G, Sun
F, Lu J, Zhang J, Jiang Y, Zhang H, Wang X, Rajendran KV, Khoo L,
Kucuktas H, Peatman E, Liu Z (2012) Efficient assembly and annotation
of the transcriptome of catfish by RNA-Seq analysis of a doubled
haploid homozygote. BMC Genomics 13 (1), 595
Liu,
S, Zhang Y, Sun F, Jiang Y, Wang R, Li
C, Zhang J, Liu ZJ. 2012. Approaches for Functional Genomics in
aquaculture. pp. 1-40. In: Functional Genomics in Aquaculture, Wiley
and Blackwell Publishing, Ames, IA.
Zhang
J, Jiang Y, Wang R, Li C, Zhang Y, Sun
F, Liu, S, Liu ZJ. 2012. Chapter 2, Genomic resources for aquaculture
functional genomics. pp. 41-77. In: Functional Genomics in Aquaculture,
Wiley and Blackwell Publishing, Ames, IA.
Browdy,
C.L., Hulata, G., Liu, Z., Allan,
G.L., Sommerville, C., Passos de Andrade, T., Pereira, R., Yarish, C.,
Shpigel, M., Chopin, T., Robinson, S., Avnimelech, Y. &
Lovatelli, A. 2012. Novel and emerging technologies: can they
contribute to improving aquaculture sustainability? In R.P. Subasinghe,
J.R. Arthur, D.M. Bartley, S.S. De Silva, M. Halwart, N. Hishamunda,
C.V. Mohan & P. Sorgeloos, eds. Farming the Waters for People
and Food. Proceedings of the Global Conference on Aquaculture 2010,
Phuket, Thailand. 22–25 September 2010. pp. 149-191. FAO, Rome and
NACA, Bangkok.
OYSTER
Zhang, G., Fang,
X., Guo, X., Li, L., Luo, R., Xu, F., Yang, P., Zhang, L., Wang, X.,
Qi, H., Xiong, Z., Que, H., Xie, Y., Holland, P.W.H., Paps, J., Zhu,
Y., Wu, F., Chen, Y., Wang, J., Peng, C., Meng, J., Yang, L., Liu, J.,
Wen, B., Zhang, N., Huang, Z., Zhu, Q., Feng, Y., Mount, A., Hedgecock,
D., Xu, Z., Liu, Y., Domazet-Loso, T., Du, Y., Sun, X., Zhang, S., Liu,
B., Cheng, P., Jiang, X., Li, J., Fan, D., Wang, W., Fu, W., Wang, T.,
Wang, B., Zhang, J., Peng, Z., Li, Y., Li, N., Wang, J., Chen, M., He,
Y., Tan, F., Song, X., Zheng, Q., Huang, R., Yang, H., Du, X., Chen,
L., Yang, M., Gaffney, P.M., Wang, S., Luo, L., She, Z., Ming, Y.,
Huang, W., Zhang, S., Huang, B., Zhang, Y., Qu, T., Ni, P., Miao, G.,
Wang, J., Wang, Q., Steinberg, C.E.W., Wang, H., Li, N., Qian, L.,
Zhang, G., Li, Y., Yang, H., Liu, X., Wang, J., Yin, Y. & Wang,
J. (2012). The oyster genome reveals stress adaptation and complexity
of shell formation. Nature, 490: 49-54.
SALMONIDS
Burki, R.,
Krasnov, A., Bettge, K., Rexroad, C.E., 3rd, Afanasyev, S., Antikainen,
M., Burkhardt-Holm, P., Wahli, T. & Segner, H. (2012).
Pathogenic infection confounds induction of the estrogenic biomarker
vitellogenin in rainbow trout. Environ Toxicol Chem,
31: 2318-2323.
Aussanasuwannakul
A, Weber GM, Salem M, Yao
J, Slider S, Manor ML, Kenney PB. 2012. Effect of sexual maturation on
thermal stability, viscoelastic properties, and texture of female
rainbow trout, Oncorhynchus mykiss, fillets. J
Food Sci 77: S77-83.
Bernardi, G., Wiley, E.O., Mansour, H., Miller, M.R., Orti, G.,
Haussler, D., O'brien, S.J., Ryder, O.A.
& Venkatesh, B. (2012). The fishes of Genome 10K. Marine
Genomics, 7: 3-6.
Braden,
L.M., Barker, D.E., Koop, B.F. & Jones, S.R.M. (2012).
Comparative defense-associated responses in salmon skin elicited by the
ectoparasite Lepeophtheirus salmonis. Comparative
Biochemistry and Physiology Part D: Genomics and Proteomics,
7: 100-109.
Bridle,
A.R., Koop, B.F. & Nowak, B.F. (2012). Identification of
Surrogates of Protection against Yersiniosis in Immersion Vaccinated
Atlantic Salmon. PLoS ONE, 7: e40841.
Everett,
M., Miller, M. & Seeb, J. (2012). Meiotic maps of sockeye
salmon derived from massively parallel DNA sequencing. BMC
Genomics, 13: 521.
Faber-Hammond,
J., Phillips, R.B. & Park, L.K. (2012). The Sockeye Salmon
Neo-Y Chromosome Is a Fusion between Linkage Groups Orthologous to the
Coho Y Chromosome and the Long Arm of Rainbow Trout Chromosome 2. Cytogenetic
and Genome Research, 136: 69-74.
Campbell,
M.R., C.C. Kozfkay, T. Copeland, W.C. Schrader, M.W. Ackerman, and S.R.
Narum. 2012. Estimating abundance and life history characteristics of
threatened wild Snake River steelhead stocks by using genetic stock
identification. Transactions of the American Fisheries Society
141:1310-1327.
Campbell,
N. R., Amish, S. J., Pritchard, V. L., McKelvey, K. S., Young, M. K.,
Schwartz, M. K., Garza, J. C., Luikart, G. and Narum, S. R. 2012.
Development and evaluation of 200 novel SNP assays for population
genetic studies of westslope cutthroat trout and genetic identification
of related taxa. Molecular Ecology Resources, 12: 942–949.
Gomez-Uchida, D., Seeb, James e., Habicht,
C. & Seeb, Lisa w. (2012). Allele frequency stability in large,
wild exploited populations over multiple generations: insights from
Alaska sockeye salmon (Oncorhynchus nerka). Canadian
Journal of Fisheries and Aquatic Sciences, 69: 916-929.
Hecht, B.C., Campbell, N.R., Holecek, D.E.
& Narum, S.R. (2012a). Genome-wide association reveals genetic
basis for the propensity to migrate in wild populations of rainbow and
steelhead trout. Molecular Ecology: n/a-n/a.
Hecht, B.C., Thrower, F.P., Hale, M.C.,
Miller, M.R. & Nichols, K.M. (2012b). Genetic Architecture of
Migration-Related Traits in Rainbow and Steelhead Trout, Oncorhynchus
mykiss. G3: Genes|Genomes|Genetics, 2: 1113-1127.
Hess, M.A., Rabe, C.D., Vogel, J.L.,
Stephenson, J.J., Nelson, D.D. & Narum, S.R. (2012). Supportive
breeding boosts natural population abundance with minimal negative
impacts on fitness of a wild population of Chinook salmon. Molecular
Ecology, 21: 5236-5250.
Johnstone, K.A., Lubieniecki, K.P., Koop,
B.F. & Davidson, W.S. (2012). Identification of olfactory
receptor genes in Atlantic salmon Salmo salar. Journal of
Fish Biology, 81: 559-575.
Lai, Y.Y.Y., Lubieniecki, K.P., Koop, B.F.
& Davidson, W.S. (2012). Characterization of the Atlantic
salmon (Salmo salar) brain-type fatty acid binding protein (fabp7)
genes reveals the fates of teleost fabp7 genes following whole genome
duplications. Gene, 504: 253-261.
Limborg, M.T., Blankenship, S.M., Young,
S.F., Utter, F.M., Seeb, L.W., Hansen, M.H.H. & Seeb, J.E.
(2012). Signatures of natural selection among lineages and habitats in Oncorhynchus
mykiss. Ecology and Evolution, 2: 1-18.
Liu, S., Rexroad, C., Iii, Couch, C.,
Cordes, J., Reece, K. & Sullivan, C. (2012). A Microsatellite
Linkage Map of Striped Bass (Morone saxatilis) Reveals Conserved
Synteny with the Three-Spined Stickleback (Gasterosteus aculeatus). Marine
Biotechnology, 14: 237-244.
Ma, H., Hostuttler, M., Wei, H., Rexroad,
C.E., Iii & Yao, J. (2012). Characterization of the Rainbow
Trout Egg MicroRNA Transcriptome. PLoS ONE, 7:
e39649.
Manor ML,
Weber GM Salem M, Yao J, Aussanasuwannakul, Kenney PB. 2012. Effect of
sexual maturation and triploidy on chemical composition and fatty acid
content of energy stores in female rainbow trout, Oncorhynchus
mykiss. Aquaculture 364–365: 312–321.
Matala,
A.P., W. Young, J.L. Vogel, and S.R. Narum. 2012. Influences of
hatchery supplementation, spawner distribution, and habitat on genetic
structure of Chinook salmon in the South Fork Salmon River, Idaho.
North American Journal of Fisheries Management 32:346-359.
Miller,
M.R., Brunelli, J.P., Wheeler, P.A., Liu, S., Rexroad, C.E., Palti, Y.,
Doe, C.Q. & Thorgaard, G.H. (2012). A conserved haplotype
controls parallel adaptation in geographically distant salmonid
populations. Molecular Ecology, 21: 237-249.
Overturf,
K., Vallejo, R., Palti, Y., Barrows, F. & Parsons, J. (2012).
Microarray analysis of differential utilization of plant-based diets by
rainbow trout. Aquaculture International, 20:
213 - 232.
Palti,
Y., Genet, C., Gao, G., Hu, Y., You, F., Boussaha, M., Rexroad, C.
& Luo, M.-C. (2012). A Second Generation Integrated Map of the
Rainbow Trout (Oncorhynchus mykiss) Genome: Analysis of Conserved
Synteny with Model Fish Genomes. Marine Biotechnology,
14: 343-357.
Rexroad,
C., Vallejo, R., Liu, S., Palti, Y. & Weber, G. (2012). QTL
affecting stress response to crowding in a rainbow trout broodstock
population. BMC Genetics, 13: 97.
Salem,
M., Vallejo, R.L., Leeds, T.D., Palti, Y., Liu, S., Sabbagh, A.,
Rexroad, C.E., Iii & Yao,
J.
(2012). RNA-Seq Identifies SNP Markers for Growth Traits in Rainbow
Trout. PLoS ONE, 7: e36264.
Storer,
C.G., Pascal, C.E., Roberts, S.B., Templin, W.D., Seeb, L.W. &
Seeb, J.E. (2012). Rank and Order: Evaluating the Performance of SNPs
for Individual Assignment in a Non-Model Organism. PLoS ONE,
7: e49018.
Sutherland,
B.J.G., Jantzen, S.G., Yasuike, M., Sanderson, D.S., Koop, B.F.
& Jones, S.R.M. (2012). Transcriptomics of coping strategies in
free-swimming Lepeophtheirus salmonis (Copepoda) larvae responding to
abiotic stress. Molecular Ecology, 21: 6000-6014.
Yasuike,
M., Leong, J., Jantzen, S., Schalburg, K., Nilsen, F., Jones, S.M.
& Koop, B. (2012). Genomic Resources for Sea Lice: Analysis of
ESTs and Mitochondrial Genomes. Marine Biotechnology,
14: 155-166.
SHRIMP
Aranguren LF, Salazar M,
Tang K, Caraballo
X, Lightner D. 2013. Characterization of a new strain of Taura syndrome
virus (TSV) from Colombian shrimp farms and the implication in the
selection of TSV resistant lines. J Invertebr Pathol. 112:68-73.
Aranguren
LF, Tang KF, Lightner DV. 2012.
Protection from yellow head virus (YHV) infection in Penaeus vannamei
pre-infected with Taura syndrome virus (TSV). Dis Aquat Organ. 98:185-92.
Bartholomay
LC, Loy DS, Dustin Loy J, Harris
DL. 2012. Nucleic-acid based antivirals: augmenting RNA interference to
'vaccinate'Litopenaeus vannamei. J Invertebr Pathol. 110:261-6.
Gui L,
Wang B, Li FH, Sun YM, Luo Z, Xiang
JH. 2012. Blocking the large extracellular loop (LEL) domain of
FcTetraspanin-3 could inhibit the infection of white spot syndrome
virus (WSSV) in Chinese shrimp, Fenneropenaeus chinensis. Fish
Shellfish Immunol. 32:1008-15.
Li F,
Xiang J. 2013. Recent advances in
researches on the innate immunity of shrimp in China. Dev Comp Immunol.
39:11-26.
Li F,
Xiang J. 2012. Signaling pathways
regulating innate immune responses in shrimp. Fish Shellfish Immunol.
doi: 10.1016/j.fsi.2012.08.023.
Li S, Li
F, Wen R, Xiang J. 2012. Identification and characterization of the
sex-determiner transformer-2 homologue in Chinese shrimp,
Fenneropenaeus chinensis. Sex Dev. 6:267-78.
Li S, Li
F, Sun Z, Xiang J. 2012. Two spliced variants of insulin-like
androgenic gland hormone gene in the Chinese shrimp, Fenneropenaeus
chinensis. Gen Comp Endocrinol. 177(2):246-55.
Lightner
DV, Redman RM, Pantoja CR, Tang KF, Noble BL, Schofield P, Mohney LL,
Nunan LM, Navarro SA. 2012. Historic emergence, impact and current
status of shrimp pathogens in the Americas. J Invertebr Pathol.
110:174-83.
Loy JD,
Mogler MA, Loy DS, Janke B, Kamrud K, Scura ED, Harris DL, Bartholomay
LC. 2012. dsRNA provides sequence-dependent protection against
infectious myonecrosis virus in Litopenaeus vannamei. J Gen Virol.
93:880-8.
Moss SM,
Moss DR, Arce SM, Lightner DV, Lotz JM. 2012. The role of selective
breeding and biosecurity in the prevention of disease in penaeid shrimp
aquaculture. J Invertebr Pathol. 110:247-50.
Nunan LM,
Pantoja CR, Gomez-Jimenez S, Lightner DV. 2012. 'Candidatus
Hepatobacter penaei', an intracellular pathogenic bacterium enteric in
the hepatopancreas of the marine shrimp Penaeus vannamei
(Crustacea:Decopoda). Appl Environ Microbiol. PubMed PMID: 23241970.
Qian Z,
Liu X, Wang L, Wang X, Li Y, Xiang J, Wang P. 2012. Gene expression
profiles of four heat shock proteins in response to different acute
stresses in shrimp, Litopenaeus vannamei. Comp Biochem Physiol C
Toxicol Pharmacol. 156):211-20.
Stentiford
GD, Neil DM, Peeler EJ, Shields JD, Small HJ, Flegel TW, Vlak JM, Jones
B, Morado F, Moss S, Lotz J, Bartholomay L, Behringer DC, Hauton C,
Lightner DV. 2012. Disease will limit future food supply from the
global crustacean fishery and aquaculture sectors. J Invertebr Pathol.
110:141-57.
Tang KF,
Navarro SA, Pantoja CR, Aranguren FL, Lightner DV. 2012. New genotypes
of white spot syndrome virus (WSSV) and Taura syndrome virus (TSV) from
the Kingdom of Saudi Arabia. Dis Aquat Organ. 99:179-85
Wang D,
Li F, Chi Y, Xiang J. 2012. Potential relationship among three
antioxidant enzymes in eliminating hydrogen peroxide in penaeid shrimp.
Cell Stress Chaperones. 17:423-33.
Wang D,
Li F, Li S, Chi Y, Wen R, Feng N, Xiang J. 2012. An IκB homologue
(FcCactus) in Chinese shrimp Fenneropenaeus chinensis. Dev Comp
Immunol. doi: 10.1016/j.dci.2012.12.005.
Wang L,
Li F, Wang B, Xiang J. 2012. Structure and partial protein profiles of
the peritrophic membrane (PM) from the gut of the shrimp Litopenaeus
vannamei. Fish Shellfish Immunol. 33:1285-91.
Wen R, Li
F, Sun Z, Li S, Xiang J. 2012.
Shrimp MyD88 responsive to bacteria and white spot syndrome virus. Fish
Shellfish Immunol. doi: 10.1016/j.fsi.2012.11.034.
Wen R, Li
F, Xie Y, Li S, Xiang J. 2012. A
homolog of the cell apoptosis susceptibility gene involved in ovary
development of Chinese shrimp Fenneropenaeus chinensis. Biol Reprod.
86:1-7.
Zhang J,
Wang J, Li F, Sun Y, Yang C, Xiang
J. 2012. A trehalose-6-phosphate synthase gene from Chinese shrimp,
Fenneropenaeus chinensis. Mol Biol Rep. 39:10219-25.
Zhao C,
Zhang X, Li F, Huan P, Xiang J.
2013. Functional analysis of the promoter of the heat shock cognate 70
gene of the Pacific white shrimp, Litopenaeus vannamei. Fish Shellfish
Immunol. 34:397-401.
STRIPED
BASS Beck, B.H.,
Fuller, S.A., Peatman, E., McEntire, M.E., Darwish, A., and Freeman,
D.W. 2012. Chronic exogenous kisspeptin administration accelerates
gonadal development in basses of the genus Morone. Comp.
Biochem. Physiol. A. 162:265-273.
Liu, S.,
Rexroad III, C.E., Couch, C.R.,
Cordes, J., Reece, K., and C.V. Sullivan. 2012. A microsatellite
linkage map of striped bass (Morone saxatilis) reveals conserved
synteny with the threespined stickleback (Gasterosteus
aculeatus). Mar Biotechnology 14(2):237-244. doi:
10.1007/s10126-011-9407-2.
Reading,B.J.,
Chapman, R.W., Schaff, J.E.,
Scholl, E.H., Opperman, C.H., and Sullivan, C.V. 2012. An ovary
transcriptome for all maturational stages of the striped bass (Morone
saxatilis), a highly advanced perciform fish. BMC Research
Notes 5:111 doi:10.1186/1756-0500-5-111.
Workshop Report
Theme
Linking Genomic Variation to Phenotype
Attendees
Number = 83
Countries = 8 (US, Mexico, France, Spain, China, Japan, Canada, Finland)
Invited Presentations (4)
NGS-Enabled
Research Tools for Crops and Livestock Patrick S. Schnable, Iowa State
University
TALEN-mediated
gene editing in terrestrial and aquatic species. Daniel F. Carlson,
Recombinetics, Inc.
Use
of Single Nucleotide Polymorphisms (SNP) to Fine-Map Quantitative Trait
Loci (QTL) in Swine Gary A. Rohrer, USDA, ARS, USMARC; Amanda K.
Lindholm-Perry, USDA-ARS, U.S. Meat Animal Research Center; Steven D.
Shackelford, USDA, ARS, USMARC; D.A. King, USDA-ARS, U.S. Meat Animal
Research Center; T.L. Wheeler, USDA-ARS, U.S. Meat Animal Research
Center; Dan Nonneman, USDA, ARS, USMARC
Ruminations
On Lessons To Be Hatched From Genomics Research In Cattle and Goats Tad
Sonstegard and Curtis P. Van Tassell, USDA-ARS-BFGL
Contributed
Presentations (20)
Association
Mapping Of Disease Resistance Traits In Rainbow Trout Using RAD
Sequencing Nathan Campbell, Columbia River Inter-Tribal Fish
Commission; Ken Overturf, USDAARS; Scott LaPatra, Clear Springs Foods;
Richard Towner, Gentec Consulting; Shawn Narum, Columbia River
Inter-Tribal Fish Commission
Epigentic
Landscapes In A Marine Mollusc: What DNA Methylation Patterns Tell Us
About Gene Regulation In The Pacific Oyster (Crassostrea gigas)
Mackenzie Gavery, University of Washington; Steven Roberts, University
of Washington
RNA-Seq
Analysis Of Stress Response In Rainbow Trout Sixin Liu, USDA - ARS -
NCCCWA; Guangtu Gao, USDA/ARS/NCCCWA; Yniv Palti, USDA-ARS-NCCCWA;
Gregory Weber, National Center for Cool and Cold Water Aquaculture;
Caird E. Rexroad III, USDA-ARS-NAA-NCCCWA
Characterization
Of Specific miRNAs Involved In Maternal-Zygotic Transition In Rainbow
Trout Embryos (Oncorhynchus mykiss) Hao Ma, West Virginia University;
Mark Hostuttler, National Center for Cool and Cold Water Aquaculture;
Hairong Wei, Michigan Technological University; Caird E. Rexroad
III,
USDA-ARS-NAA-NCCCWA; Jianbo Yao, West Virgina University
Whole
Genome SNP Discovery and Analysis Of Catfish Genetic Diversity Luyang
Sun, Auburn University; Shikai Liu, Auburn University; Yu Zhang, Auburn
University; Jiaren Zhang, Auburn University; Jianbin Feng, Auburn
University; Geoff Waldbieser, USDA-ARS; John Liu, Auburn University;
Huseyin Kucuktas, Auburn University; Ludmilla Kaltenboeck, Auburn
University
Pathgenomics
of the Oyster and Transcriptomic Infection Responses Reveals a Highly
Evolved Innate Immune System Linlin Zhang, Institute of Oceanology,
Chinese Academy of Sciences; Ximing Guo, Rutgers University; Li Li,
Institute of Oceanology, Chinese Academy of Sciences; Guofan Zhang,
Institute of Oceanology, Chinese Academy of Sciences
Development
Of The Catfish 250K SNP Array Shikai Liu, Auburn University; Luyang
Sun, Auburn University; Fanyue Sun, Auburn University; Yanliang Jiang,
Auburn University; Yu Zhang, Auburn University; Jiaren Zhang, Auburn
University; Jianbin Feng, Auburn University; Ludmilla Kaltenboeck,
Auburn University; Huseyin Kucuktas, Auburn University; John Liu,
Auburn University
Genome
and Sex Determination Mechanism In Half-Smooth Tongue Sole (Cynoglossus
semilaevis) Songlin Chen, Yellow Sea Fisheries Research Institute,
CAFS; Guojie Zhang, Shenzhen Laboratory of Transomics Biotechnologies,
BGI; Changwei Shao, Yellow Sea Fisheries Research Institute, CAFS; Jun
Wang, BGI-Shenzen; Manfred Schartl, University of Wuerzburg; Qisheng
Tang, Yellow Sea Fisheries Research Institute, CAFS; Wentao Song,
Yellow Sea Fisheries Resarch Institute,
Production
Of Long (1.5kb – 15.0kb), Accurate, DNA Sequencing Reads Using An
Illumina HiSeq2000 To Support De Novo Assembly Of The Blue Catfish
Genome Geoff Waldbieser, USDA-ARS; Michael Kertesz, Moleculo, Inc.;
Dmitry Pushkarev, Moleculo, Inc.; Tim Blauwkamp, Moleculo, Inc.; John
Liu, Auburn University
Chromosomal
Rearrangements In The Genus Of Salmo Song Lin, Simon Fraser University;
Jieying Li, Simon Fraser University; William S. Davidson, Simon Fraser
University
RNA-Seq
Approaches to the Study of Early Interactions Between Catfish and
Flavobacterium columnare Eric Peatman, Auburn University
Three
Sex Loci and An sdY In Tasmanian Atlantic Salmon William D. Eisbrenner,
Simon Fraser University; Natasha Botwright, CSIRO; Mathew Cook, CSIRO;
Evelyn A. Davidson, Simon Fraser University; Sonja Dominik, CSIRO; John
Henshall, CSIRO; Stacy L Jones, Simon Fraser University; Peter D. Kube,
CSIRO; Krzysztof P. Lubieniecki, Simon Fraser University; Nick G.
Elliott, CSIRO; Sophia Peng, Simon
Fraser University; William S. Davidson, Simon Fraser University
Cyberinfrastructure
Initiatives for Biology and Opportunities to Involve Aquaculture
Jeffrey T. Silverstein, USDA-Agricultural Research Service
The
Organization Of The Atlantic Salmon (Salmo salar) sdY Gene and Its
Potential Genomic Environments Emily I. Palibroda, Simon Fraser
University; Krzysztof P. Lubieniecki, Simon Fraser University; Yvonne
Y. Y. Lai, Simon Fraser University; William D. Eisbrenner, Simon Fraser
University; William S. Davidson, Simon Fraser University
Genome-wide
Genic SNPs Development and Association Analysis with Abiotic Stress in
the Pacific Oyster Crassostrea gigas Li Li, Institute of Oceanology,
Chinese Academy of Sciences; Haigang Qi, Institute of Oceanology,
Chinese Academy of Sciences; Jiafeng Wang, Institute of Oceanology,
Chinese Academy of Sciences; Zhicai She, Institute of Oceanology,
Chinese Academy of Sciences; Fei Xu, Institute of Oceanology, Chinese
Academy of Sciences; Linlin Zhang, Institute of Oceanology, Chinese
Academy of Sciences; Jinpeng Wang, Institute of Oceanology, Chinese
Academy of Sciences; Guofan Zhang, Institute of Oceanology, Chinese
Academy of Sciences
Genome-Wide
SNP Association Analysis of Body Weight in Atlantic Salmon (Salmo
salar) Alejandro P. Gutierrez, Simon Fraser University; Krzysztof P.
Lubieniecki, Simon Fraser University; Evelyn A. Davidson, Simon Fraser
University; Steve Fukui, Mainstream Canada; Ruth E. Withler, Pacific
Biological Station; Bruce Swift, TRI-GEN Fish Improvement Ltd.;
Sigbjørn Lien, CIGENE, Norwegian University of Life Sciences; Matthew
P. Kent, CIGENE, Norwegian University of Life Sciences; William S.
Davidson, Simon Fraser University
Transcriptome
and Expression Profiling Of Response To Acute Hypoxia In The Gill Of
Adult Catfish Jianbin Feng, Auburn University; Shikai Liu, Auburn
University; Yu Zhang, Auburn University; Jiaren Zhang, Auburn
University; Ludmilla Kaltenboeck, Auburn University; Huseyin Kucuktas,
Auburn University; John Liu, Auburn University
The
Transcriptome Of The Eastern Oyster Crassostrae virginica In Response
To Bacterial Challenge Marta Gomez-Chiarri, University of Rhode Island;
Ian McDowell, University of Rhode Island; Chamilani Nikapitiya,
University of Rhode Island; Saebom Sohn, University of Rhode Island
Diploid
and Triploid Hybrids Derived from Female Megalobrama amblycephala Yih ×
Male Xenocypris davidi Bleeker Jie Hu, DFO West Vancouver Lab Gene
Expression in Early Development of Rainbow Trout with Divergent Life
Histories Garrett McKinney, Purdue University; Frank Thrower, NOAA;
Krista Nichols, NOAA
Poster
Session Participants (30)
Business Meeting Minutes
Call
to order (Liu)
Bioinformatics
Update (Reecy) - Stated system open to help all systems. The AnGenMap
subscription list is seeing growth. NRSP-8 community file sharing is
available, this can be private and public. Animal Genome Tracks can be
stored on the site. AnimalQTLdb also highlighted, 100 new papers last
year. Future Developments: Helping the community deal will
re-sequencing projects. Now available for fish community- correlation
database (CorrDB). NRSP-8 Bioinformatics can host services. New effort
to get information for aquaculture species gene ontology. Last year
spending time with iPlant to develop pipelines for genome resequencing.
iRODS overcomes large data transfer issues. iPlant collaborative is
open to working with aquaculture community on pipelines.
Recognized
and commended Peatman for organizing this year's workshop. Announced
that persons should contact Roberts (sr320@uw.edu) with suggestions for
next year's workshop speakers and themes.
Recognition of Travel Award Winners (10)
William Eisbrenner Song Lin Mackenzie
Gavery Emily Palibroda Alejandro Gutierrez Luyang Sun Jianbin Feng
Shikai Liu Garrett J McKinney Jie Hu
Nomination and election for chair-elect
Nomination: Roger Vallejo Voted unamiously as new chair-elect
Request for community to contribute content to newsletter.
Meeting adjourned 4:55
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