2018
DOI: 10.3389/fgene.2018.00028
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Gene and Blood Analysis Reveal That Transfer from Brackish Water to Freshwater Is More Stressful to the Silverside Odontesthes humensis

Abstract: Silversides are fish that inhabit marine coastal waters, coastal lagoons, and estuarine regions in southern South America. The freshwater (FW) silversides have the ability to tolerate salinity variations. Odontesthes humensis have similar habitats and biological characteristics of congeneric O. bonariensis, the most studied silverside species and with great economic importance. Studies revealed that O. bonariensis is not fully adapted to FW, despite inhabiting hyposmotic environments in nature. However, there … Show more

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Cited by 6 publications
(7 citation statements)
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References 61 publications
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“…Except for atp1a gene, which was previously known (Silveira et al, 2018 ), all the other seven silverside O. humensis candidate RGs analyzed in this study were cloned and partially sequenced for the first time. Furthermore, the new sequences were deposited in the GenBank® (Table 1 ).…”
Section: Resultsmentioning
confidence: 99%
“…Except for atp1a gene, which was previously known (Silveira et al, 2018 ), all the other seven silverside O. humensis candidate RGs analyzed in this study were cloned and partially sequenced for the first time. Furthermore, the new sequences were deposited in the GenBank® (Table 1 ).…”
Section: Resultsmentioning
confidence: 99%
“…Indeed, salinity is a frequent abiotic stressor that restrains fish growth and development by triggering osmotic stress responses. Thus, when fishes are subjected to salinity stress, related genes are activated to induce tolerance to the salinity-mediated stress ( Silveira et al, 2018b ). Although miRNAs provide fish with elaborate strategies for gene regulation at the post-transcriptional level, the precise mechanisms by which miRNAs employ their regulatory function facing osmotic stress are not fully understood.…”
Section: Discussionmentioning
confidence: 99%
“…Salinity is a frequent abiotic stressor that restricts fish growth and development, and favors the impairment of the existing macromolecules, such as proteins, mRNAs, DNA, and lipids ( Bartel, 2009 ). Thus, when faced with salinity variations, fishes employ many physiological acclimations to rapidly respond to osmotic stress, such as the induction of molecular chaperones, rapid clearance of damaged macromolecules, growth arrest, and the alteration of gene expression of multiple genes that mediates osmotic stress tolerance ( Fiol and Kültz, 2007 ; Richter and Haslbeck, 2010 ; Silveira et al, 2018b ). This gene expression modulation to maintain the osmotic balance may be directly influenced by miRNAs ( Yan et al, 2012a ).…”
Section: Introductionmentioning
confidence: 99%
“…New World silversides (family Atherinopsidae) have repeatedly transitioned between marine and freshwater habitats, but precise knowledge of their phylogenetic history, and therefore the chronology and frequency of inferred habitat transitions, remains contentious (Bloom, Weir, Piller, & Lovejoy, ; Campanella et al, ; Dyer, ). Some freshwater silverside species can osmoregulate in brackish water (Hughes, Somoza, & Nguyen, ; Silveira, Martins, & Domingues, ; Tsuzuki, Aikawá, Strüssmann, & Takashima, ), suggesting that reversals from freshwater to marine habitats may be possible, despite this being a relatively rare phenomenon among ray‐finned fishes (Betancur‐R, Ortí, & Pyron, ). With seven marine and 12 freshwater recognized species (Fricke, Eschmeyer, & van der Laan, ) distributed across coastal marine habitats and in rivers and lakes exclusively in temperate South America (Figure a,b), the atherinopsid genus Odontesthes (locally known as pejerrey in Spanish or peixe‐rei in Portuguese) provides a unique system to study the history and evolutionary consequences of habitat transitions.…”
Section: Introductionmentioning
confidence: 99%
“…New World silversides (family Atherinopsidae) have repeatedly transitioned between marine and freshwater habitats, but precise knowledge of their phylogenetic history, and therefore the chronology and frequency of inferred habitat transitions, remains contentious (Bloom, Weir, Piller, & Lovejoy, 2013;Campanella et al, 2015;Dyer, 2006). Some freshwater silverside species can osmoregulate in brackish water (Hughes, Somoza, & Nguyen, 2017;Silveira, Martins, & Domingues, 2018;Tsuzuki, Aikawá, Strüssmann, & Takashima, 2000), suggesting that reversals from freshwater to marine habitats may be possible, despite this being a relatively rare phenomenon among ray-finned fishes (Betancur-R, Ortí, & Pyron, 2015).…”
Section: Introductionmentioning
confidence: 99%