Seasonal cycle and regulation by temperature of antifreeze protein mRNA in a Long Island population of winter flounder

Abstract

The seasonal cycle and regulation by temperature of antifreeze protein mRNA (AF mRNA) were investigated in a Long Island population of winter flounder (Pseudopleuronectes americanus) by Northern blot hybridization and by in vitro translation of liver RNA. AF mRNA was expressed at high levels in the fall and winter (Nov.-Feb.) and at low or undetectable levels in the summer. The time of accumulation of AF mRNA coincides with the time during which water temperature and photoperiod decrease to 4°C and 9 h of light per day, respectively. A temperature and photoperiod decrease in the laboratory during this time also resulted in high levels of AF mRNA. The levels of other mRNAs, as assayed by in vitro translation, were relatively constant during both seasonal acclimation and laboratory acclimation. The seasonal cycle of AF mRNA in Long Island winter flounder is similar to that of a more northern, Newfoundland population of winter flounder and different from that of an intermediate, New Brunswick population. These similarities and dissimilarities are discussed in light of potentially different exogenous and endogenous regulatory cues in the different populations.