VITELLOGENESIS IN THE MUD CRAB SCYLLA-SERRATA - AN IN-VIVO ISOTOPE STUDY

Vitellogenesis in the mud crab Scylla serrata was investigated in vivo using the radiolabeled amino acid [C-14]phenylalanine to trace the sy nthetic site(s) of the major yolk protein lipovitellin. The incorporat ion of [C-14]phenylalanine into the synthesized proteins of different tissues, such as ovary (OV), hepatopancreas (HP), subepidermal adipose tissue (SAT), and hemolymph (HL) of vitellogenic phases I and II, pro vided the first in vivo demonstration of possible extraovarian synthes is of lipovitellin precursor, vitellogenin, in S. serrata. The results indicated that among different tissues of vitellogenic phase I, SAT a nd HP actively take part in synthesizing the yolk proteins which are i mmediately released into the HL. This is evidenced by a high level of [C-14]phenylalanine incorporation into the protein fraction of the HL. The incorporation of [C-14]phenylalanine into the synthesized protein s of the OV indicates the fact that OV is also capable of synthesizing the precursors to some extent. However, a dramatic increase of [C-14] phenylalanine incorporation into the synthesized ovarian proteins of v itellogenic phase LI, concurrent with a decline in the level of [C-14] phenylalanine incorporation into the HL proteins, suggests the probabl e sequestration of the synthesized proteins from an extraovarian site. The data also suggest a dual role for the HP, in-as-much as it synthe sizes and stores the vitellogenin prior to its release into the OV for sequestration during intense vitellogenesis.