Euryhaline teleosts exhibit major changes in renal function as they move between
freshwater (FW) and seawater (SW) environments, thus tolerating large fluctuations in …

Teleost fishes are able to acclimatize to seawater by secreting excess NaCl by means of
specialized “ionocytes” in the gill epithelium. Antibodies against Na+/K+-ATPase (NKA) …

Unprecedented shifts in temperature and precipitation patterns in recent decades place
multiple abiotic stressors on the fish. In teleosts, metabolic, osmoregulatory, and molecular …

Fishes are the first vertebrates, descendents of the early chordates* that evolved from
marine, deuterostome invertebrates. The extant lancelets and tunicates both marine and …

This study combines a cellular and molecular analysis of the Na+/K+/2Cl-cotransporter
(NKCC) to determine the osmoregulatory role of this protein in different tissues during the …

Temperature and salinity are abiotic factors that affect physiological responses in
aquaculture species. The European sea bass (Dicentrarchus labrax) is a temperate species …

Euryhaline fish possess the ability to compensate for environmental salinity changes
through hydro-mineral regulation. A number of proteins have been studied in order to …

The transition from freshwater to seawater is integral to the life history of many fishes.
Diverse migratory fishes express anadromous, catadromous, and amphidromous life …

Euryhaline teleosts possess the capacity to osmoregulate under various environmental
conditions (freshwater to hypersaline water). This physiological capacity is generally …

European sea bass Dicentrarchus labrax undertake seasonal migrations to estuaries and
lagoons that are characterized by fluctuations in environmental conditions. Their ability to …