Transcriptional response of Atlantic salmon families to Piscirickettsia salmonis infection highlights the relevance of the iron-deprivation defence system

Pulgar, Rodrigo; Hödar, Christian; Travisany, Dante; Zúñiga, Alejandro; Domínguez, Cristina Ruesca; Maass, Alejandro; González, Maurício; Cambiazo, Verónica

doi:10.1186/s12864-015-1716-9

Cited by 73 publications

(114 citation statements)

References 91 publications

(106 reference statements)

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“…Chromosome 18 does not contain any clear candidate genes, but from a literature search alone, the most plausible gene is probably heme binding protein 2 (HEBP2). Reducing iron availability has been suggested as a possible mechanism of resistance to sea lice (Fast et al 2007; Sutherland et al 2014) and Piscirickettsia salmonis (Pulgar et al 2015) in Atlantic salmon.…”

Section: Resultsmentioning

confidence: 99%

Discovery and functional annotation of quantitative trait loci affecting resistance to sea lice in Atlantic salmon

Robledo

Gutiérrez

Barría

et al. 2018

Preprint

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Word count: 323Sea lice (Caligus rogercresseyi) are ectoparasitic copepods which have a large negative economic and welfare impact in Atlantic salmon (Salmo salar) aquaculture, particularly in Chile. A multi-faceted prevention and control strategy is required to tackle lice, and selective breeding contributes via cumulative improvement of host resistance to the parasite. While host resistance has been shown to be heritable, little is yet known about the individual loci that contribute to this resistance, the potential underlying genes, and their mechanisms of action. In this study we took a multifaceted approach to identify and characterise quantitative trait loci (QTL) affecting hose resistance in a population of 2,688 Caligus-challenged Atlantic salmon post-smolts from a commercial breeding programme. We used low and medium density genotyping to collect genome-wide SNP marker data for all animals.Moderate heritablility estimates of 0.28 and 0.24 were obtained for lice density (as a measure of host resistance) and growth during infestation respectively. Three QTL explaining between 7 and 13 % of the genetic variation in resistance to sea lice (as represented by the traits of lice density) were detected on chromosomes 3, 18 and 21. Characterisation of these QTL regions was undertaken using RNA sequencing and pooled whole genome sequencing data. This resulted in the identification of a shortlist of potential underlying causative genes, and candidate functional mutations for further study. For example, candidates within the chromosome 3 QTL include a putative premature stop mutation in TOB1 (an anti-proliferative transcription factor involved in T cell regulation) and an uncharacterized protein which showed significant differential allelic expression (implying the existence of a cis-acting regulatory mutation). While host resistance to sea lice is polygenic in nature, the results of this study highlight significant QTL regions together explaining a moderate proportion of the heritability of the trait. Future investigation of these QTL may enable improved knowledge of the functional mechanisms of host resistance to sea lice, and incorporation of functional variants to improve genomic selection accuracy.

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Section: Resultsmentioning

confidence: 99%

Discovery and functional annotation of quantitative trait loci affecting resistance to sea lice in Atlantic salmon

Robledo

Gutiérrez

Barría

et al. 2018

Preprint

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“…It is known that intracellular pathogens have evolved complex mechanisms of iron acquisition to compete successfully with the host for the metal. In a previous work we predicted a cluster of genes encoding all enzymes necessary for siderophore biosynthesis and transport (Pulgar et al, 2015). Siderophores have the potential to be modified in order to improve the delivery of antibiotics by using them as Trojan horses, a biotechnological approach that have been employed to counter bacterial antibiotic resistance (Gorska et al, 2014).…”

Section: Farmingmentioning

confidence: 99%

Complete genome sequence of Piscirickettsia salmonis LF-89 (ATCC VR-1361) a major pathogen of farmed salmonid fish

Pulgar

Travisany

Zúñiga

et al. 2015

Journal of Biotechnology

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“…The present study did not assess the chemical nature of siderophores (hydroxamate or catecholate type), and consequently, further research is needed to clarify this point. However, homolog genes for the biosynthesis and transport of vibrioferrin, a siderophore, were predicted in P. salmonis through in silico analyses of the previously obtained complete LF‐89 T genome (Pulgar, Hödar, et al., ; Pulgar, Travisany, et al., ) and partial P. salmonis AUSTRAL‐005 genome (Yañez et al., ). These analyses were conducted using a combined approach with the prediction programs Glimmer (Delcher, Bratke, Powers, & Salzberg, ), Artemis (Rutherford et al., ) and CD‐HIT (Fu, Niu, Zhu, Wu, & Li, ).…”

Section: Piscirickettsia Salmonis Growth and Siderophore Production Umentioning

confidence: 99%

Physiological evidence that Piscirickettsia salmonis produces siderophores and uses iron from different sources

Calquín

Ruiz

Oliver

et al. 2017

Journal of Fish Diseases

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Transcriptional response of Atlantic salmon families to Piscirickettsia salmonis infection highlights the relevance of the iron-deprivation defence system

Cited by 73 publications

References 91 publications

Discovery and functional annotation of quantitative trait loci affecting resistance to sea lice in Atlantic salmon

Discovery and functional annotation of quantitative trait loci affecting resistance to sea lice in Atlantic salmon

Complete genome sequence of Piscirickettsia salmonis LF-89 (ATCC VR-1361) a major pathogen of farmed salmonid fish

Physiological evidence that Piscirickettsia salmonis produces siderophores and uses iron from different sources

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