Analysis of the black‐chinned tilapia <i><scp>S</scp>arotherodon melanotheron heudelotii</i> reproducing under a wide range of salinities: from <scp>RNA</scp>‐seq to candidate genes

Avarre, Jean‐Christophe; Dugué, Rémi; Alonso, P. Vega; Diombokho, A.; Joffrois, C.; Faivre, Nicolas; Cochet, Christophe; Durand, Jean‐Dominique

doi:10.1111/1755-0998.12148

Cited by 19 publications

(19 citation statements)

References 31 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Transcriptome or genome sequencing have been conducted for various marine bivalves, such as clam [19], mussels [2], [20], and oysters [15], [21]. In addition to candidate gene discovery from massive sequencing data, many studies have demonstrated that this is an efficient way to discover genetic variations [22]–[24], perform transcriptome profiling [25]–[27], and identify adaptive genes [28], [29] to provide important insights into the process of adaptive evolution.…”

Section: Introductionmentioning

confidence: 99%

Comparative Transcriptome Analysis of Two Oysters, Crassostrea gigas and Crassostrea hongkongensis Provides Insights into Adaptation to Hypo-Osmotic Conditions

Zhao

Kong

et al. 2014

PLoS ONE

View full text Add to dashboard Cite

Environmental salinity creates a key barrier to limit the distribution of most aquatic organisms. Adaptation to osmotic fluctuation is believed to be a factor facilitating species diversification. Adaptive evolution often involves beneficial mutations at more than one locus. Bivalves hold great interest, with numerous species living in waters, as osmoconformers, who maintain the osmotic pressure balance mostly by free amino acids. In this study, 107,076,589 reads from two groups of Crassostrea hongkongensis were produced and the assembled into 130,629 contigs. Transcripts putatively involved in stress-response, innate immunity and cell processes were identified according to Gene ontology and KEGG pathway analyses. Comparing with the transcriptome of C. gigas to characterize the diversity of transcripts between species with osmotic divergence, we identified 182,806 high-quality single nucleotide polymorphisms (SNPs) for C. hongkongensis, and 196,779 SNPs for C. gigas. Comparison of 11,602 pairs of putative orthologs allowed for identification of 14 protein-coding genes that experienced strong positive selection (Ka/Ks>1). In addition, 45 genes that may show signs of moderate positive selection (1≥Ka/Ks>0.5) were also identified. Based on Ks ratios and divergence time between the two species published previously, we estimated a neutral transcriptome-wide substitution mutation rate of 1.39×10−9 per site per year. Several genes were differentially expressed across the control and treated groups of each species. This is the first time to sequence the transcriptome of C. hongkongensis and provide the most comprehensive transcriptomic resource available for it. The increasing amount of transcriptome data on Crassostrea provides an excellent resource for phylogenetic analysis. A large number of SNPs identified in this work are expected to provide valuable resources for future marker and genotyping assay development. The analysis of natural selection provides an innovative view on the adaptation within species and sets the basis for future genetic and evolutionary studies.

show abstract

Section: Introductionmentioning

confidence: 99%

Comparative Transcriptome Analysis of Two Oysters, Crassostrea gigas and Crassostrea hongkongensis Provides Insights into Adaptation to Hypo-Osmotic Conditions

Zhao

Kong

et al. 2014

PLoS ONE

View full text Add to dashboard Cite

show abstract

“…In tilapia, some osmoregulation associated genes have been identified, such as transferrin gene, β ‐Hemoglobin , Ca2+transporting plasma membrane ATPase , pro‐opiomelanocortin, beta‐actin (Rengmark & Lingaas, ), prolactin (Streelman & Kocher, ). The transcriptome profiles under different salinity challenges detected many osmoregulation related genes (Avarre et al., ; Xu et al., ). These data suggest that the osmoregulation in fish is under control by many genes and is very complicated.…”

Section: Discussionmentioning

confidence: 99%

Significant association of SNP polymorphism in the tilapiaenhancer of polycomb homolog 1gene with salt tolerance

Lin

Xia

2018

Aquac Res

View full text Add to dashboard Cite

Identifying candidate genes involved into osmoregulation provides a basis for developing molecular markers for breeding of saline tilapia. In this study, we characterized and conducted a functional analysis of the Enhancer of Polycomb Homolog 1 (EPC1) gene in Nile tilapia. The length of the EPC1CDS sequence was 1161 bp, including 14 exons encoding 386 amino acid residues. The expression for EPC1 was investigated in the gill, brain and intestine tissues of Nile tilapia that challenged by 0 ppt, 10 ppt, 15 ppt and 20 ppt of salinity content by qRT‐PCR. We found that the gene was significantly down‐regulated at 20 ppt of high salinity stress. We also detected significant evidence of 5 SNP association in the EPC1 gene with salt tolerance trait by genotyping 192 extreme individuals from a full‐sib tilapia family (N = ~500). The individuals with heterozygous SNP genotypes in the population (with an average survival time of 3,064 s) were significantly less tolerant than the other individuals with the homozygote genotypes (with an average survival time of 5,986 s). Further functional analysis on the EPC1 protein sequences from 31 fish species inhabiting different salinity environments identified seven amino acid sites as significantly associated sites (α < 0.01) with salinity content. These data suggested that the EPC1 gene may be a candidate gene related to osmoregulation process in tilapia. Our findings could contribute to selection of the saline tilapia by using marker‐assisted selection technique.

show abstract

“…The genomic resources now available for sea bass Magnanou et al 2014) and dedicated molecular techniques such as microarrays (Ferraresso et al 2010) and RNA sequencing (Wang et al 2009) may help to achieve this goal at scales far above the levels of expression of a few genes (e.g. Norman et al 2011, Avarre et al 2014). This should especially motivate future studies (i) in cultured fish for which selective breeding programmes have been initiated (Chatain and Chavanne 2009) and which may need to control for cryptic phenotypes, and (ii) in wild juvenile sea bass distributed naturally over a large range of salinity conditions, but also trophic or temperature conditions that also greatly vary between habitats, to investigate molecular mechanisms involved in the lagoon/estuarine life compared with the coastal/pelagic life in this species.…”

Section: Discussionmentioning

confidence: 99%

“…Tine et al 2008). In order to retain a reference gene, we adopted a criterion developed in Avarre et al (2014). Briefly, we randomly sampled a set of 15 fish (five fish per condition: SSW, SFW and UFW) and measured their cycle of quantification value (Cq, i.e.…”

Section: Reverse Transcription and Quantitative Real-time Polymerase mentioning

confidence: 99%

“…stability of gene expression) of their Cq values by measuring the standard deviations of Cq (SD Cq ) over the 15 individuals (EF1a: SD Cq =0.337; b-actin: SD Cq =0.646). Avarre et al (2014) set up a criterion of SD Cq <0.5 to qualify genes as 'good' reference genes. We did not use other reference genes in this study as there is no rationale to increase the number reference genes when investigating for gene expression variation at only two target genes.…”

Section: Reverse Transcription and Quantitative Real-time Polymerase mentioning

confidence: 99%

See 1 more Smart Citation

Fitness difference between cryptic salinity-related phenotypes of sea bass (<em>Dicentrarchus labrax</em>)

et al. 2014

View full text Add to dashboard Cite

Summary:The existence of cryptic salinity-related phenotypes has been hypothesized in the "euryhaline" sea bass (Dicentrarchus labrax). How differential osmoregulation costs between freshwater and saltwater environments affect fitness and phenotypic variation is misunderstood in this species. During an experiment lasting around five months, we investigated changes in the whole body mass and in the expression of growth-related genes (insulin-like growth factor 1 [IGF-1]; growth hormone receptor [GHR]) in the intestine and the liver of sea bass thriving in sea water (SSW), successfully acclimated to freshwater (SFW), and unsuccessfully acclimated to freshwater (UFW). Albeit non-significant, a trend toward change in body mass was demonstrated among SSW, UFW and SFW fish, suggesting that SSW fish were a mixture of the other phenotypes. Several mortality peaks were observed during the experiment, with batches of UFW fish showing higher expression in the osmoregulatory intestine due to down-regulation of genes in the liver and significant up-regulation of GHR in the intestine compared with SFW fish. Energy investment toward growth or ion homeostasis hence partly mediates the fitness difference between cryptic SFW and UFW phenotypes. The use of a genetic marker located within the IGF-1 gene showed no genotype-phenotype relationship with levels of gene expression.Keywords: phenotype; gene expression; growth hormone receptor; insulin-like growth factor 1; sea bass. Diferencia de eficacia biológica entre fenotipos crípticos relacionados con salinidad en la lubina (Dicentrarchus labrax)Resumen: En la especie "eurihalina" de la lubina (Dicentrarchus labrax) se ha planteado la existencia de fenotipos crípticos relacionados con la salinidad. En esta especie los costes diferenciales de osmoregulación a la adaptación en de agua dulce y salada son aún desconocidos. Durante un experimento de aproximadamente 5 meses, se investigó los cambios en la masa corporal y en la expresión de genes relacionados con el crecimiento (factor de crecimiento similar a la insulina 1 [IGF-1]; receptor de la hormona del crecimiento [GHR]) en el intestino y el hígado de lubina en individuos que prosperan en agua de mar (SSW), individuos aclimatados con éxito con el agua dulce (SFW), e individuos no aclimatados al agua dulce (UFW). Aunque no es significativa, se observa una tendencia de cambio en la masa corporal entre individuos SSW, UFW y SFW. Estos resultados sugieren que los individuos SSW son una mezcla de los otros fenotipos. Se observaron varios picos de mortalidad durante el experimento, con lotes de peces UFW que presentan una expresión génica más elevada en el intestino osmoregulador, debido a la regulación a la baja de genes en el hígado y regulación hacia arriba en la GHR del intestino cunado se compara con los peces SFW. Por lo tanto, la inversión de energía hacia el crecimiento o la homeostasis iónica explica en parte la diferencia de adaptación entre los crípticos fenotipos SFW y UFW. El uso de un marcador genético localizado dentro del ...

show abstract

Analysis of the black‐chinned tilapia Sarotherodon melanotheron heudelotii reproducing under a wide range of salinities: from RNA‐seq to candidate genes

Cited by 19 publications

References 31 publications

Comparative Transcriptome Analysis of Two Oysters, Crassostrea gigas and Crassostrea hongkongensis Provides Insights into Adaptation to Hypo-Osmotic Conditions

Comparative Transcriptome Analysis of Two Oysters, Crassostrea gigas and Crassostrea hongkongensis Provides Insights into Adaptation to Hypo-Osmotic Conditions

Significant association of SNP polymorphism in the tilapiaenhancer of polycomb homolog 1gene with salt tolerance

Fitness difference between cryptic salinity-related phenotypes of sea bass (<em>Dicentrarchus labrax</em>)

Contact Info

Product

Resources

About