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Role of Ca 2+ transients at the node of the mouse embryo in breaking of left-right symmetry
Immotile cilia sense extracellular signals such as fluid flow, but whether Ca plays a role in flow sensing has been unclear. Here, we examined the role of ciliary Ca in the flow sensing that initiates the breaking of left-right (L-R) symmetry in the mouse embryo. Intraciliary and cytoplasmic Ca tran...
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| Published in: | Science advances 2020-07, Vol.6 (30), p.eaba1195 |
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| creator | Mizuno, Katsutoshi Shiozawa, Kei Katoh, Takanobu A Minegishi, Katsura Ide, Takahiro Ikawa, Yayoi Nishimura, Hiromi Takaoka, Katsuyoshi Itabashi, Takeshi Iwane, Atsuko H Nakai, Junichi Shiratori, Hidetaka Hamada, Hiroshi |
| description | Immotile cilia sense extracellular signals such as fluid flow, but whether Ca
plays a role in flow sensing has been unclear. Here, we examined the role of ciliary Ca
in the flow sensing that initiates the breaking of left-right (L-R) symmetry in the mouse embryo. Intraciliary and cytoplasmic Ca
transients were detected in the crown cells at the node. These Ca
transients showed L-R asymmetry, which was lost in the absence of fluid flow or the PKD2 channel. Further characterization allowed classification of the Ca
transients into two types: cilium-derived, L-R-asymmetric transients (type 1) and cilium-independent transients without an L-R bias (type 2). Type 1 intraciliary transients occurred preferentially at the left posterior region of the node, where L-R symmetry breaking takes place. Suppression of intraciliary Ca
transients delayed L-R symmetry breaking. Our results implicate cilium-derived Ca
transients in crown cells in initiation of L-R symmetry breaking in the mouse embryo. |
| doi_str_mv | 10.1126/sciadv.aba1195 |
| format | article |
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plays a role in flow sensing has been unclear. Here, we examined the role of ciliary Ca
in the flow sensing that initiates the breaking of left-right (L-R) symmetry in the mouse embryo. Intraciliary and cytoplasmic Ca
transients were detected in the crown cells at the node. These Ca
transients showed L-R asymmetry, which was lost in the absence of fluid flow or the PKD2 channel. Further characterization allowed classification of the Ca
transients into two types: cilium-derived, L-R-asymmetric transients (type 1) and cilium-independent transients without an L-R bias (type 2). Type 1 intraciliary transients occurred preferentially at the left posterior region of the node, where L-R symmetry breaking takes place. Suppression of intraciliary Ca
transients delayed L-R symmetry breaking. Our results implicate cilium-derived Ca
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plays a role in flow sensing has been unclear. Here, we examined the role of ciliary Ca
in the flow sensing that initiates the breaking of left-right (L-R) symmetry in the mouse embryo. Intraciliary and cytoplasmic Ca
transients were detected in the crown cells at the node. These Ca
transients showed L-R asymmetry, which was lost in the absence of fluid flow or the PKD2 channel. Further characterization allowed classification of the Ca
transients into two types: cilium-derived, L-R-asymmetric transients (type 1) and cilium-independent transients without an L-R bias (type 2). Type 1 intraciliary transients occurred preferentially at the left posterior region of the node, where L-R symmetry breaking takes place. Suppression of intraciliary Ca
transients delayed L-R symmetry breaking. Our results implicate cilium-derived Ca
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plays a role in flow sensing has been unclear. Here, we examined the role of ciliary Ca
in the flow sensing that initiates the breaking of left-right (L-R) symmetry in the mouse embryo. Intraciliary and cytoplasmic Ca
transients were detected in the crown cells at the node. These Ca
transients showed L-R asymmetry, which was lost in the absence of fluid flow or the PKD2 channel. Further characterization allowed classification of the Ca
transients into two types: cilium-derived, L-R-asymmetric transients (type 1) and cilium-independent transients without an L-R bias (type 2). Type 1 intraciliary transients occurred preferentially at the left posterior region of the node, where L-R symmetry breaking takes place. Suppression of intraciliary Ca
transients delayed L-R symmetry breaking. Our results implicate cilium-derived Ca
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| title | Role of Ca 2+ transients at the node of the mouse embryo in breaking of left-right symmetry |
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