@article{wang_edens_1994, title={HSP70 MESSENGER-RNA EXPRESSION IN HEAT-STRESSED CHICKENS}, volume={107}, ISSN={["0305-0491"]}, DOI={10.1016/0305-0491(94)90221-6}, abstractNote={Broiler chicken exposed to 41°C and 50% relative humidity for 60 min induced hsp70 mRNA in blood leukocytes, testes, and bursa of Fabricius. Daily heat conditioning for 3 weeks maximized expressed of testicular hsp70 mRNA. Greater amounts of hsp70 mRNA transcripts were observed in testes and bursa of Fabricius of large-comb cockerels than in small-comb cockerels. Expression of hsp70 mRNA appeared to be associated with acquired thermoresistance in chickens.}, number={1}, journal={COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY B-BIOCHEMISTRY & MOLECULAR BIOLOGY}, author={WANG, SY and EDENS, FW}, year={1994}, month={Jan}, pages={33–37} }
 @article{wang_edens_1993, title={HEAT-STRESS RESPONSE OF BROILER COCKERELS TO MANIPULATION OF THE GONADAL-STEROIDS, TESTOSTERONE AND ESTRADIOL}, volume={106}, ISSN={["0305-0491"]}, DOI={10.1016/0305-0491(93)90140-Z}, abstractNote={1. Estradiol supplementation resulted in heat-stress mortality in both intact and caponized cockerels accompanied by depressed plasma corticosterone. 2. Phenotype-selection for large comb and high plasma testosterone increased heat tolerance which was attributed to an increased plasma corticosterone. 3. The results suggested that the presence of testosterone had a positive influence on the heat tolerance of broiler cockerels.}, number={3}, journal={COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY B-BIOCHEMISTRY & MOLECULAR BIOLOGY}, author={WANG, SY and EDENS, FW}, year={1993}, month={Nov}, pages={629–633} }
 @article{wang_edens_1993, title={STRESS-INDUCED HEAT-SHOCK PROTEIN-SYNTHESIS IN PERIPHERAL LEUKOCYTES OF TURKEYS, MELEAGRIS-GALLOPAVO}, volume={106}, ISSN={["0305-0491"]}, DOI={10.1016/0305-0491(93)90139-V}, abstractNote={Abstract 1. 1. Thermal stress, in vitro and in vivo , induced the synthesis of heat-shock proteins, HSP90, HSP70, and HSP23 in turkey leukocytes. 2. 2. HSP induction was both temperature- and time-dependent. 3. 3. Salinity-specific stress proteins were expressed with elevated osmolality in culture medium.}, number={3}, journal={COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY B-BIOCHEMISTRY & MOLECULAR BIOLOGY}, author={WANG, SY and EDENS, FW}, year={1993}, month={Nov}, pages={621–628} }