Proecdysial changes in serum ecdysone titers, gastrolith formation, and limb regeneration following molt induction by limb autotomy and/or eyestalk removal in the land crab, Gecarcinus lateralis
Journal Article
·
· Gen. Comp. Endocrinol.; (United States)
The changes in serum ecdysone titers, gastrolith deposition, and limb regeneration were monitored at each stage of the molt cycle in the land crab, Gecarcinus lateralis. Animals were induced to molt by multiple-limb autotomy or eyestalk removal. The presence of ..cap alpha..-ecdysone and b-ecdysone (20-hydroxyecdysone) in the animals' serum was demonstrated chromatographically. ..beta..-ecdysone was the major circulating ecdysone, while ..cap alpha..-ecdysone was present only at very low concentrations. Four other components reacting with the ecdysone antiserum were separated chromatographically; one of these, a nonpolar compound, became a major component of the serum ecdysones at the time of maximum hormone titers. Ecdysone titers in the serum remained at the level characteristic of intermolt (approximately 10 ng/ml) during basal regeneration and rose linearly during the premolt period, reaching a maximum when regeneration of limbs had ceased and exoskeleton was deposited. Ecdysone decreased during stages D/sub 3/ and D/sub 4/, approaching intermolt levels at the time of ecdysis, where they remained through postmolt stages A and B. The patterns of premolt changes in ecdysone titers, gastroliths, and regeneration were very similar in ''normal'' animals (stimulated to molt by the loss of eight pereiopods) and in animals without eyestalks; however, in crabs without eyestalks, the changes were completed in about half the time as in crabs with eyestalks. Basal regeneration is associated with low ecdysone levels even in crabs without eyestalks. The normal sequence of proecdysial events is not initiated until the completion of basal regeneration. It is suggested that there exists a yet-unidentified mechanism outside the eyestalk capable of preventing increases in ecdysone titers while limbs engage in basal regeneration.
- Research Organization:
- Univ. of Tennessee, Oak Ridge
- OSTI ID:
- 6725709
- Journal Information:
- Gen. Comp. Endocrinol.; (United States), Journal Name: Gen. Comp. Endocrinol.; (United States) Vol. 33; ISSN GCENA
- Country of Publication:
- United States
- Language:
- English
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