Oogenesis is an energetically expen

Oogenesis is an energetically expensive reproductive process that can be divided into several phases. The latter phases of oogenesis, periods characterized by the accumulation of yolk proteins in the growing oocytes and by significant increases in oocyte diameter, are referred to as primary and secondary vitellogenesis (Meusy and Charniaux-Cotton, 1984; Meusy and Payen, 1988). Vitellin (Vn) is the common form of yolk stored in oocytes and a nutrient source for developing embryos. In many species, vitellogenin (Vg), the precursor molecule to Vn, is transported through the hemolymph to developing oocytes, where it is sequestered and modified with the addition of polysaccharides and lipids into Vn. Thus, the synthesis of yolk proteins is a good indicator of female reproductive activity in many species. Furthermore, the presence of yolk proteins has been frequently used to study the hormones involved in the control of reproduction.

One organism that seems particularly suitable for such endocrinological studies is the ridgebacked shrimp, Sicyonia ingentis (Decapoda: Dendrobranchiata: Penaeoidea). This species is distributed between Isla Maria Madre, Mexico and Monterey Bay, California (Perez-Farfante, 1985) and is found at depths of 55–82 m (Frey, 1971). This shrimp can be obtained from commercial fisheries, and has proven to be easily handled in captivity. Since these shrimps are reproductive between June and November when they broadcast spawn during the phase of the new moon (Anderson et al., 1985; personal observation), they are easy to study during the summer and autumn months. Before examining the effects of various hormones, we first characterized Vn, developed and characterized an anti-Vn antiserum, and used this antiserum to produce an ELISA (enzyme linked immunosorbant assay) to monitor changes in hemolymph levels of yolk protein precursor.

Characterization of vitellogenin and vitellin

Initiation of our investigations required the isolation, purification, and characterization of yolk proteins from S. ingentis. Vitellin was isolated from ovarian homogenates through differential centrifugation, and purified from other proteins by differential precipitation with increasing concentrations of saturated ammonium sulfate (Tsukimura et al., 2000). The molecular mass (MM) of S. ingentis Vn was found to be 322 kDa ± 3 kDa by gel filtration chromatography. In the Decapoda, the MM of Vn ranges from 283 kDa to over 600 kDa, with the Dendrobranchiata possessing lower Vn MM than the Pleocyemata (Table 1). The Vn MM of S. ingentis is consistent within the Dendrobranchiata and the rest of the Decapoda.