Microsc Microanal 1998 Jul 01;44:404-414. doi: 10.1017/s1431927698980382.

Characterization of Involution during Sea Urchin Gastrulation Using Two-Photon Excited Photorelease and Confocal Microscopy.

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: Sea urchin embryos have served as a model system for the investigation of many concepts in developmental biology. Their gastrulation consists of two stages; primary invagination, where part of the epithelium invaginates into the blastocoel, and secondary invagination, where the archenteron elongates to completely traverse the blastocoel. Primary invagination involves proliferation of cells within the vegetal plate during primary invagination, but until recently, it was assumed that the larval gastrointestinal (GI) tract developed without further involution of epithelial cells. To investigate rigorously the contribution of epithelial cell involution during archenteron and GI tract development in the sea urchin, Lytechinus variegatus, we developed a new method for cell tracking based on two-photon excited photorelease of caged fluorophores. Single-cell embryos were injected with caged dye and two-photon excitation uncaging was employed to mark small groups of cells throughout gastrulation. Two-photon excitation allowed for noninvasive, three-dimensionally resolved uncaging inside living cells with minimal biological damage. Cellular involution into the archenteron was observed throughout primary and secondary invagination, and the larval intestine was formed by further involution of cells following secondary invagination, which is inconsistent with the traditional model of sea urchin gastrulation. Further, as two-photon excitation microscopy becomes accessible to many researchers, the novel techniques described here will be broadly applicable to development of other invertebrate and vertebrate embryos.

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Genes referenced: LOC100887844 LOC115919910