Articles by David Epel 
Articles by David Epel 3/31/1999
SELECTED PUBLICATIONS
Cornwall, R., et al. 1995. Characterization of multixenobiotic-multidrug transport in the gills of the mussel Mytilus californianus and identification of environmental substrates. Aquatic Toxicology. 31:277-296.
Swezey, R.R. and Epel, D. 1995. The in vivo rate of glucose-6-phosphate dehydrogenase activity in sea urchin eggs determined with a caged photolabile caged substrate. Developmental Biology. 169:733-744.
Rees, B.H., et al. 1995. Protein synthesis increases after fertilization of sea urchin eggs in the absence of an increase in intracellular pH. Developmental Biology. 169:683-698
Mead, K.S. and Epel, D. 1995. Beakers vs. breakers: How fertilization in the laboratory differs from fertilization in nature. Zygote. 3:95-99.
Toomey, B.H. and Epel, D. 1993. Multixenobiotic resistance in Urechis caupo embryos: protection from environmental toxins. Biological Bulletin 185:355-364.
Dube, F., T. Schmidt, C.H. Johnson, and D. Epel. 1985. The hierarchy of requirements for an elevated pH during early development of sea urchin embryos. Cell 40:657-666.
Epel, D. 1977. The program of fertilization. Scientific American 237:128-139.
Johnson, J.D., D. Epel, and M. Paul. 1976. Na+ -H+ exchange is required for activation of sea urchin eggs after fertilization. Nature 262:661-664.
D. Muchmore and D. Epel 1973. The Effects of Chlorination of Wastewater on Fertilization in Some Marine Invertebrates. Marine Biology 19:98-95