Pamela Veloso scite author profile

Vaccination is a widely used control strategy to prevent Piscirickettsia salmonis causing disease in salmon farming. However, it is not known why all the currently available commercial vaccines generally fail to protect against this pathogenic bacteria. Here, we report, from two different populations, that between-family variation is a strong intrinsic factor that determines vaccine protection for this disease. While in some full-sib families, the protection added by vaccination increased the survival time in 13 days in comparison with their unvaccinated siblings; in other families, there was no added protection by vaccination or even it was slightly negative. Resistance to P. salmonis, measured as days to death, was higher in vaccinated than unvaccinated fish, but only a moderate positive genetic correlation was obtained between these traits. This disputes a previous hypothesis, that stated that both traits were fully controlled by the same genes, and challenges the use of unvaccinated fish as gold standard for evaluating and selecting fish resistant to P. salmonis, particularly if the offspring will be vaccinated. More studies are necessary to evaluate if variation in the host immune response to vaccination could explain the between-family differences in resistance observed in vaccinated fish.

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RNA-seq analysis and transcriptome assembly of Salicornia neei reveals a powerful system for ammonium detoxification

Díaz-Silva

Maldonado

Veloso

et al. 2022

Electronic Journal of Biotechnology

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RNA-Seq analysis and transcriptome assembly of Salicornia neei reveals a powerful system for ammonium detoxification

Díaz-Silva

Maldonado

Delgado

et al. 2021

Preprint

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Background: Salicornia neei is a halophyte plant that has been proposed for phytoremediation of saline wastewater generated by land based aquaculture, which usually contains elevated concentrations of ammonium resulting from protein metabolism. To identify the molecular mechanisms related to ammonium response through of analysis results in silico and the Michaelis Menten ammonium removal biokinetics and the transcriptome of S. neei in response to growth in saline water containing 3 mM ammonium. Results: The parameters for ammonium uptake by S. neei root cuttings were estimated: 1) maximum uptake rate Imax = 6.91+/-0.32 mM N g−1 fresh weight h−1; and 2) half-saturation constant Km= 0.807+/-0.142 mM N L−1. Further, a total of 45,327 genes were annotated, which represents 51.2% of the contig predicted from de novo assembly. A total of 9,140 genes were differentially expressed in response to ammonium in saline water, but only 7,396 could be annotated against functional databases. According to the GO enrichment and as well as KEGG pathway analyses showed these upregulated genes were involved in pr cellular anatomical entity, cellular process, and metabolic process, including biological KEGG pathways linked to biosynthesis amino acid biosynthesis, nitrogen metabolism and autophagy and other. In addiction, a set of 72 genes were directly involved in ammonium metabolism, including glutamine synthetase 1 (GLN1), glutamate synthase 1 (GLT1), and ferredoxin-dependent glutamate synthase chloroplastic (FdGOGAT). Conclusion: Our results support the hypothesis that an ammonium detoxification system mediated by glutamine and glutamate synthase was activated in S. neei when exposed to ammonium and saline water. These results provide novel insight into understanding the molecular mechanisms of ammonium nutrition and aid for investigating the response of halophyte plants to saline wastewater from land-based aquaculture

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Pamela Veloso

Host genetic variation explains reduced protection of commercial vaccines against Piscirickettsia salmonis in Atlantic salmon

RNA-seq analysis and transcriptome assembly of Salicornia neei reveals a powerful system for ammonium detoxification

RNA-Seq analysis and transcriptome assembly of Salicornia neei reveals a powerful system for ammonium detoxification

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