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Oral—aboral ectoderm differentiation of sea urchin embryos is disrupted in response to calcium ionophore
Author(s) -
Akasaka Koji,
Uemoto Hiroko,
Wilt Fred,
MitsunagaNakatsubo Keiko,
Shimada Hiraku
Publication year - 1997
Publication title -
development, growth and differentiation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.864
H-Index - 66
eISSN - 1440-169X
pISSN - 0012-1592
DOI - 10.1046/j.1440-169x.1997.t01-2-00013.x
Subject(s) - ectoderm , sea urchin , microbiology and biotechnology , ionophore , gastrulation , calcium , biology , cleavage (geology) , embryo , embryogenesis , calcium in biology , blastula , chemistry , intracellular , paleontology , organic chemistry , fracture (geology)
Intracellular signaling mediated by calcium ions has been implicated as important in controlling cell activity. The ability of calcium ionophore (A23187), which causes an increase in calcium ion concentration in the cytoplasm, to alter the pattern of differentiation of cells during sea urchin development was examined. The addition of A23187 to embryos for 3h during early cleavage causes dramatic changes in their development during gastrulation. Using tissue‐specific cDNA probes and antibodies, it was shown that A23187 causes the disruption of oral–aboral ectoderm differentiation of sea urchin embryos. The critical period for A23187 to disturb the oral–aboral ectoderm differentiation is during the cleavage stage, and treatment of embryos with A23187 after that time has little effect. The A23187 does not affect the formation of the three germ layers. These results indicate that intracellular signals mediated by calcium ions may play a key role in establishment of the oralaboral axis during sea urchin development.