Induction and development of exogastrulae in the starfish,Pisaster ochraceus

Abstract

The process of mouth and coelom formation in exogastrulae of the starfish, Pisaster ochraceus, induced by LiCl, has been studied with the light microscope, scanning and transmission electron microscopes. Bending and segmentation of the exogastrulated archenteron with the formation of either single or double coelomic pouches follows the same schedule as the control. In addition, a region of the exogastrular ectoderm, which corresponds to the area of the mouth in controls, undergoes invagination. Early morphogenesis of the archenteron and invagination of the ectoderm during mouth formation appear to be intrinsic properties of these structures. At the time of mouth formation in the controls, a discrete region adjacent to the distal end of the exogastrulated archenteron becomes sticky. Examination of this region shows that the surfaces of the archenteron cells are relatively smooth and that processes of the mesenchyme cells extend between them. The evidence suggests that the mesenchyme cells are responsible for the stickiness, and that they may guide the archenteron and ectoderm into contact and maintain the contact during normal mouth formation.