An easy and rapid staining method for confocal microscopic observation and reconstruction of three-dimensional images of echinoderm larvae and juveniles.

The morphologies of the internal organs of echinoderm larvae and juveniles are difficult to study using conventional optical microscopes because of their structural complexity and opaqueness. This paper describes an easy and rapid protocol involving Nile blue staining followed by benzyl alcohol/benzyl benzoate (BABB) clearing to overcome this limitation. This method was developed for a three-dimensional (3D) analysis of the internal structures of advanced larvae and juveniles of echinoderms (the sea lily Metacrinus rotundus, the sea urchin Hemicentrotus pulcherrimus, and the sand dollar Scaphechinus mirabilis) and is suitable for obtaining serial optical images by confocal microscopy without the use of specific antibodies or special reagents for labeling.

Cidaroids, clypeasteroids, and spatangoids: Procurement, culture, and basic methods.

This chapter describes practical methods and key points for using non-camarodont echinoids including cidaroids (Order Cidaroida), clypeasteroids (also known as sand dollars; Order Clypeasteroida), and spatangoids (also known as heart urchins; Order Spatangoida) as experimental subjects for biological studies. The content described here is based on six Japanese species of echinoids (Astriclypeus manni, Clypeaster japonicus, Echinocardium cordatum, Peronella japonica, Prionocidaris baculosa, and Scaphechinus mirabilis). Specific topics addressed in this chapter include the collection and maintenance of adults, embryonic culture, and experimental procedures for micromanipulations, whole mount in situ hybridization, and immunological experiments.

Anteroposterior molecular registries in ectoderm of the echinus rudiment.

Background: Echinoderms and hemichordates are sister taxa that both have larvae with tripartite coeloms. Hemichordates inherit the coelom plan and ectoderm from larvae, whereas echinoderms form the adult rudiment comprising rearranged coeloms and a vestibule that then develops into adult oral ectoderm. Molecular networks that control patterns of the ectoderm and the central nervous system along the anteroposterior (AP) axis are highly conserved between hemichordates and chordates, respectively.

Comparative studies on the skeletogenic mesenchyme of echinoids.

Skeletogenic mesenchyme cells in echinoids are suitable for studying developmental mechanisms, and have been used extensively. Most of these studies have been performed on species in the order Camarodonta, which are modern echinoids (subclass Euechinoidea) and are considered "model" echinoid species. In contrast, species belonging to other orders are studied less frequently, especially investigations of their molecular developmental biology such as gene regulatory networks.