none / 吳郭魚腦部神經星狀細胞Stress-activatedproteinkinasepathways因應滲透壓改變之調節

碩士 / 國立東華大學 / 生物技術研究所 / 94 / When a euryhaline (broad salinity) teleost including tilapia (Oreochromis mossambicus) goes from hypoosmotic (freshwater; FW) to hyperosmotic (seawater; SW) environment, tilapia face the hyperosmotic stress because of the increase in osmolarity and salinity during SW adaptation. In the brain as well as gill, the response to this stress is a crucial step via the regulations of the signal pathways for ionic homeostasis. Whether the stress activated signal pathways in the brain of tilapia contribute to the acute osmotic remain to be explored. Our previous studies have demonstrated that the MAPK pathway, PI3K pathway and NF-

Identiferoai:union.ndltd.org:TW/094NDHU5108016
Date January 2006
CreatorsYen-Ling Huang, 黃彥寧
ContributorsChing-Feng Weng, 翁慶豐
Source SetsNational Digital Library of Theses and Dissertations in Taiwan
Languagezh-TW
Detected LanguageEnglish
Type學位論文 ; thesis
Format91

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