Mami Kasahara scite author profile

Mami Kasahara

3Publications

12Citation Statements Received

88Citation Statements Given

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Yamaguchi University

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Effects of Nodal inhibition on development of temnopleurid sea urchins

Kasahara¹,

Sakaguchi²,

Miyahara³

et al. 2018

Evolution and Development

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Adult rudiment formation in some temnopleurids begins with the formation of a cell mass that is pinched off the left ectoderm in early larval development. The cell mass forms the adult rudiment with the left coelomic pouch of the mesodermal region. However, details of the mechanisms to establish position of the cell mass are still unknown. We analyzed the inhibiting effect of Nodal, a factor for morphogenesis of the oral region and right side, for location of the cell mass, in four temnopleurids. Pulse inhibition, at least 5 min inhibition, during coelomic pouch formation allowed a cell mass to form on both sides, whereas treatments after that period did not. These results indicate that Nodal signaling controls the oral-aboral axis before gastrulation and then affects the position of the cell mass and adult rudiment up to coelomic pouch formation. They also indicate that the position of the adult rudiment under Nodal signaling pathways is conserved in temnopleurids, as adult rudiment formation is dependent on the cell mass.

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Regeneration of the cell mass in larvae of temnopleurid sea urchins

2019

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Mechanisms of cell mass (CM) formation were analyzed by microsurgery in two temnopleurid sea urchins, Mespilia globulus and Temnopleurus toreumaticus. The CM in temnopleurids is formed at the early larval stage from the left ectodermal invagination, and with the hydrocoel derived from the mesoderm, forms an adult rudiment. After serial removal of the CM, it was strongly regenerated until its attachment to the hydrocoel, with the same timing as in control larvae. Embryos that had the tip of the archenteron or the coelomic pouches removed formed a CM in the normal manner. Removal of the CM plus the left somatocoel or the hydrocoel allowed CM regeneration with and without adult rudiment formation. A transplanted CM enlarged autonomously but did not contribute to adult rudiment formation, and larvae formed a new CM. Our observations suggest that the hydrocoel recognizes its distance from the CM to induce the growth of the CM and controls the normal timing of adult rudiment formation.

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2019

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Mami Kasahara

Effects of Nodal inhibition on development of temnopleurid sea urchins

Regeneration of the cell mass in larvae of temnopleurid sea urchins

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