Publisert 2005

Les på engelsk

Publikasjonsdetaljer

Tidsskrift : Aquaculture , vol. 249 , p. 515–524–10 , 2005

Utgiver : Elsevier

Internasjonale standardnummer :
Trykt : 0044-8486
Elektronisk : 1873-5622

Publikasjonstype : Vitenskapelig artikkel

Bidragsytere : Takle, Harald Rune; Bæverfjord, Grete; Lunde, Merete; Kolstad, Kari; Andersen, Øivind

Sak : 01.apr

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Kjetil Aune
Bibliotekleder
kjetil.aune@nofima.no

Sammendrag

Temperature stress is recognized as a teratogenic factor that induces deformities during the embryonic development of teleosts. In order to further elaborate the mechanisms involved, Atlantic salmon (Salmo salar) embryos were heat (16 8C) and cold (1 8C) shocked at eight and four different embryonic stages, respectively, during the period from gastrulation until the completion of somitogenesis. Additionally, embryos were subjected to a long-term heat exposure at 12 8C from the ~1st until the ~20th somite stage. Real-time RT-PCR results showed that the HSP70 mRNA expression was dependent on the stage of development. Whereas temperature shock was found to induce HSP70 mRNA up-regulation at the gastrula stage, the ~9th, the ~15th, the ~20th and the ~45th somite stage, the additional three investigated stages showed no up-regulation. The highest HSP70 expression levels were induced at the ~45th somite stage as shown by a 12- and 4-fold increase after heat and cold shock, respectively. Embryos subjected to the prolonged heat exposure showed a stronger HSP70 expression than embryos that were given a 1-h heat shock. Intriguingly, a high incidence (17%) of situs inversus of abdominal organs was found in fry subjected to the long-term exposure, supporting that early somitogenesis is an important period of left–right determination in teleosts. In general, the 1-h temperature shock was not sufficient to induce high frequencies of deformities. Though, a 14% incidence of vertebral deformities was observed both at the ~45th somite stage and at the completion of somitogenesis after cold shock. The results provide new insight regarding the tolerance of high and low temperature stress in Atlantic salmon embryos. D 2005 Elsevier B.V. All rights reserved.

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