2021
DOI: 10.3390/ijms222111625
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Proteome Analysis of Whole-Body Responses in Medaka Experimentally Exposed to Fish-Killing Dinoflagellate Karenia mikimotoi

Abstract: Karenia mikimotoi is a well-known harmful algal bloom species. Blooms of this dinoflagellate have become a serious threat to marine life, including fish, shellfish, and zooplanktons and are usually associated with massive fish death. Despite the discovery of several toxins such as gymnocins and gymnodimines in K. mikimotoi, the mechanisms underlying the ichthyotoxicity of this species remain unclear, and molecular studies on this topic have never been reported. The present study investigates the fish-killing m… Show more

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Cited by 3 publications
(3 citation statements)
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“…Large-scale fish kills have been documented along the coastal seas of Europe and Asia, resulting in significant economic losses [50,52]. Three main mechanisms by which K. mikimotoi may cause fish deaths include [53]: (1) the production of reactive oxygen species (ROS) that damage fish respiratory systems and destabilize their antioxidant defenses; (2) fish suffocation due to lack of dissolved oxygen; and (3) the release of cytotoxic toxins like gymnocins, hemolysins, and specific polyunsaturated fatty acids. Another evolving neurotoxin known as gymnodimines has also been reported in fish kills and is produced by Karenia selliformis [54].…”
Section: Karenia Mikimotoimentioning
confidence: 99%
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“…Large-scale fish kills have been documented along the coastal seas of Europe and Asia, resulting in significant economic losses [50,52]. Three main mechanisms by which K. mikimotoi may cause fish deaths include [53]: (1) the production of reactive oxygen species (ROS) that damage fish respiratory systems and destabilize their antioxidant defenses; (2) fish suffocation due to lack of dissolved oxygen; and (3) the release of cytotoxic toxins like gymnocins, hemolysins, and specific polyunsaturated fatty acids. Another evolving neurotoxin known as gymnodimines has also been reported in fish kills and is produced by Karenia selliformis [54].…”
Section: Karenia Mikimotoimentioning
confidence: 99%
“…To identify differentially expressed proteins, entire proteomes of medaka (the Japanese rice fish) were studied using 2-DE (two-dimensional electrophoresis) by varying the toxin dosage of K. mikimotoi (LT25, LT50, and LT90) [53]. A total of 35 differential protein locations with at least two-fold variations were confirmed with mass spectrometric analysis.…”
Section: Karenia Mikimotoimentioning
confidence: 99%
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