William H. Telfer
Journal of Insect Science 9 (50), 1-21, (1 July 2009) https://doi.org/10.1673/031.009.5001
KEYWORDS: ovariole, follicle, octet, nurse cells, oocyte, follicle cells, gap junctions, Tight junctions, intercellular bridges, ring canals, fat body, endocytosis, pinosomes, hemolymph proteins, vitellogenin, lipophorin, microvitellogenin, trypan blue, ion pumps, vitellin membrane, chorion, edysteroids, juvenile hormone, cAMP, PKA, G-proteins
Reproductive biology in the Twentieth Century produced comprehensive descriptions of the mechanisms of egg formation in most of the major orders of insects. While many general principles of ovarian development and physiology emerged, every order turned out to have a set of its own special motifs. Discovery of the lepidopteran motifs is summarized in this essay. The emphasis is on developmental mechanisms, beginning with the early growth and differentiation of female germ cells and ending, after many turns in morphogenesis, physiology and biosynthesis, with eggs that are filled with yolk and encased in chorions. Examples of uniquely lepidopteran traits include the cellular composition of ovarian follicles, the number of tubular ovarioles in which they mature, the functions of cell-to-cell junctional complexes in their maturation, their use of glycosaminoglycans to maintain intercellular patency during vitellogenesis, the role of proton and calcium pumps in their ion physiology, a separate postvitellogenic period of water and inorganic ion uptake, and the fine structure and protein composition of their chorions. Discovery of this combination of idiosyncracies was based on advances in the general concepts and techniques of cell and molecular biology and on insights borrowed from studies on other insects. The lepidopteran ovary in turn has contributed much to the understanding of egg formation in insects generally.