CHANGES IN ECDYSTEROIDS DURING EMBRYOGENESIS OF THE BLUE-CRAB, CALLINECTES-SAPIDUS RATHBUN

Total ecdysteroid titers [estimated by radioimmunoassay (RIA)] in embryos of the blue crab increased from ∼6 ng 20-hydroxyecdysone equivalents/g in the immature embryo to a maximum of ∼500 ng 20-hydroxyecdysone equivalents/g in maturing embryos; titers dropped to ∼300 ng 20-hydroxyecdysone equivalents/g in prehatch embryos. High-pressure reverse-phase chromatography of the embryo extracts resolved five RIA-active components. α-Ecdysone and the polar conjugate of 20-hydroxyecdysone were present in low quantities. The concentration of 20-hydroxyecdysone increased during embryogenesis to a maximum of ∼160 ng/g in maturing embryos and decreased only slightly in the prehatch embryos. Two unidentified components were also detected and the changes in their concentrations were estimated. One, an apolar component (peak III), accounted for as much as 63% of the total RIA activity as the embryos matured. The estimated concentration of this component increased from 85 ng/g in early embryos to 475 ng/g in maturing embryos, then decreased by 50% in the prehatch embryos. The level of the other, more polar component (peak II) increased from 7.5 to 75 ng/g as the embryos developed. The increase in the concentration of ecdysteroids during embryogenesis indicates that crab embryos have the capacity to synthesize ecdysteroids and suggests that these hormones may have a physiological role in the embryonic development of crustaceans. © 1979.