Abstract
BackgroundThe spider Cupiennius salei (Keyserling 1877) has become an important study organism in evolutionary and developmental biology. However, the available staging system for its embryonic development is difficult to apply to modern studies, with strong bias towards the earliest developmental stages. Furthermore, important embryonic events are poorly understood. We address these problems, providing a new description of the embryonic development of C. salei. The paper also discusses various observations that will improve our understanding of spider development.ResultsConspicuous developmental events were used to define numbered stages 1 to 21. Stages 1 to 9 follow the existing staging system for the spider Achaearanea tepidariorum, and stages 10 to 21 provide a high-resolution description of later development. Live-embryo imaging shows cell movements during the earliest formation of embryonic tissue in C. salei. The imaging procedure also elucidates the encircling border between the cell-dense embryo hemisphere and the hemisphere with much lower cell density (a structure termed 'equator' in earlier studies). This border results from subsurface migration of primordial mesendodermal cells from their invagination site at the blastopore. Furthermore, our detailed successive sequence shows: 1) early differentiation of the precheliceral neuroectoderm; 2) the morphogenetic process of inversion and 3) initial invaginations of the opisthosomal epithelium for the respiratory system.ConclusionsOur improved staging system of development in C. salei development should be of considerable value to future comparative studies of animal development. A dense germ disc is not evident during development in C. salei, but we show that the gastrulation process is similar to that in spider species that do have a dense germ disc. In the opisthosoma, the order of appearance of precursor epithelial invaginations provides evidence for the non-homology of the tracheal and book lung respiratory systems.
Highlights
The spider Cupiennius salei (Keyserling 1877) has become an important study organism in evolutionary and developmental biology
The number of stages allocated to early development is higher in the Seitz system, where the early stages are separated into numerous time intervals after egg laying
There is no formation of a germ disc
Summary
The spider Cupiennius salei (Keyserling 1877) has become an important study organism in evolutionary and developmental biology. It is very promising that two spider species, Cupiennius salei and Achaearanea tepidariorum have emerged over the years as experimental models for embryological studies [5]. A. tepidariorum, a cobweb spider (Theridiidae) has become very popular for evo-devo studies in recent years [5]. The advantages of this species include a short generation time, parental RNAi and in-situ hybridisation of the earliest stages. These features make A. tepidariorum a suitable subject for the study of early development. Molecular techniques available for both species permit detailed comparisons between them
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