Oviducal structure was analysed in vitellogenic females from four species of gekkonid lizard exhibiting variation in parity mode and eggshell structure: Hemidactylus turcicus (oviparous) which produces a hard, calcareous eggshell; Saltuarius wyberba (oviparous) which produces a soft, parchment-like eggshell; and Hoplodactylus maculatus and Hoplodactylus duvaucelii (both viviparous). Oviducts were analysed by light, scanning electron and transmission electron microscopy. The uterus exhibited differences among species that were directly attributable to parity mode. H. turcicus and S. wyberba (oviparous) had numerous uterine shell glands; H. maculatus and H. duvaucelii (viviparous) had very few. The uterus also exhibited differences between the two oviparous species (H. turcicus and S. wyberba) which may be related to the type of eggshell produced. Variations were noted in the staining properties of the uterine glandular and epithelial cells. The structure of the infundibulum, uterine tube, isthmus and vagina also differed among species, but differences could not be directly related to parity mode or eggshell structure. Instead, the differences may be related to how prepared the oviduct is for ovulation in individuals analysed from the different species. This study confirms, in the Gekkonidae, aspects of oviducal structure that have been associated with parity mode in other squamate taxa.
JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org.. British Ecological Society is collaborating with JSTOR to digitize, preserve and extend access to Functional Ecology. Summary 1. The phenomenon of follicular atresia, defined as the death of ovarian follicles prior to ovulation, has seldom been noted in the ecological literature as a major factor in the proximate control of clutch size, but it has been demonstrated that it influences clutch size in many lizard species. 2. Follicular atresia was examined by analysing the difference between the number of vitellogenic follicles recruited at the onset of reproductive activity and the number of in utero embryos in females of the viviparous lizard Sceloporus mucronatus; with female body size factored out, the number of vitellogenic follicles recruited from the germinal beds was not different between populations whereas clutch size was significantly different between the populations. 3. The difference in clutch size is due to varying rates of atresia, with 52% observed in the montane population but only 2% in the lowland population prior to correction for female body size; size corrected values are 54*6% for the montane population and 17.0% for lowland females. 4. These data suggest that maximal clutch size, based on the number of follicles recruited for vitellogenesis, is species specific and determined by body size. 5. Clutch size, however, is determined by the rate of atresia which could be influenced by the milieu of endocrine factors created by proximate (environmental) stimuli.
The objectives of this study were to identify, characterize and examine differences in proteins synthesized de novo and secreted by different regions of the reproductive tract of the American alligator, Alligator mississippiensis, during three reproductive (vitellogenic, gravid, post-clutch) and one non-reproductive state. After capture, alligators from lakes in north central Florida were anaesthetized, the reproductive tract excised aseptically, the size of any follicle determined, and different functional regions of the tract dissected out and partitioned for explant culture. Analysis of the biosynthetic activity indicated regional variations within the tract, differences among reproductive groups and region by status interactions. When oviductal regions were considered regardless of reproductive status, the greatest incorporation of [3H]Leu into secreted nondialysable macromolecules was by the anterior and posterior infundibulum and oviductal tube compared with the transition zone and the uterus. When status was included, the biosynthetic activity of the anterior and posterior portion of the tract in non-reproductive alligators was not different, whereas that of the posterior region of the reproductive group (vitellogenic, gravid, post-clutch) was significantly lower than that of the anterior region. This finding indicates that regulation of protein synthesis and secretion by the non-reproductive alligator tract is different from that in the tract of the reproductive group. Explant-conditioned media were analysed by one-dimensional and two-dimensional SDS-PAGE and fluorography. Sixteen major proteins in culture media were identified as de novo synthesized, by relative molecular weight, by isoelectric point and by differences in distribution determined for reproductive status and oviductal region. Six proteins were examined by N-terminal amino acid microsequence analysis. On the basis of a 29 amino acid sequence, the major oviductal protein, alligator protein 1 (aP1: M(r) 55,000, basic), found in the infundibulum and tube of vitellogenic alligators, was identical to the major protein isolated from alligator egg albumen. Four proteins (aP4-aP7) were sequenced and shown to be significantly related to immunoglobulin heavy chains from several species. This study demonstrated that a large number of proteins are synthesized de novo and released by the female alligator reproductive tract and that there are biosynthetic activity differences by reproductive status and region. Six proteins have been identified, several of which may be incorporated into alligator egg albumen and some of which appear to be different from proteins found in the egg albumens of other species.
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