Cell wall‐mediated maternal control of apical–basal patterning of the kelp <i>Undaria pinnatifida</i>

Dries, Eloise; Meyers, Yannick; Liesner, Daniel; Gonzaga, Floriele M.; Becker, Jakob F. M.; Zakka, Eliane E.; Beeckman, Tom; Coelho, Susana M.; De Clerck, Olivier; Bogaert, Kenny A.

doi:10.1111/nph.19953

New Phytologist

2024

DOI: 10.1111/nph.19953

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Cell wall‐mediated maternal control of apical–basal patterning of the kelp Undaria pinnatifida

Eloise Dries,

Yannick Meyers,

Daniel Liesner

et al.

Abstract: Summary The role of maternal tissue in embryogenesis remains enigmatic in many complex organisms. Here, we investigate the contribution of maternal tissue to apical–basal patterning in the kelp embryo. Focussing on Undaria pinnatifida, we studied the effects of detachment from the maternal tissue using microsurgery, staining of cell wall modifications, morphometric measurements, flow cytometry, genotyping and a modified kelp fertilisation protocol synchronising kelp embryogenesis. Detached embryos are rounder … Show more

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Cited by 2 publications

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MUM, a maternal unknown message, inhibits early establishment of the medio-lateral axis in the embryo of the kelp Saccharina latissima

Boscq,

Billoud,

Theodorou

et al. 2024

Development

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Brown algae are multicellular photosynthetic organisms that have evolved independently of plants and other algae. Here, we studied the determinism of body axis formation in the kelp Saccharina latissima. Following microdissection of the embryo, we showed that the stalk, an empty cell that retains the embryo on the maternal tissue represses longitudinal cell divisions in the early embryo, thereby reinforcing the establishment of the initial apico-basal axis. In addition, it promotes cell growth and controls cell shape and arrangement in the flat, oblong embryo composed of cells aligned in rows and columns. Although the stalk persists for several weeks until the embryo reaches at least 500 cells, proper embryogenesis requires connection to maternal tissue only during the first 4 days after fertilisation, i.e. before the embryo reaches the 8-cell stage. Transplantation experiments indicated that the maternal signal is not diffused in seawater, but requires contact between the embryo and the maternal tissue. This first global quantitative study of brown algal embryogenesis highlights the role of MUM, an unknown maternal message, in the control of growth axes and tissue patterning in kelp embryos. please edit family name

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MUM, a maternal unknown message, inhibits early establishment of the medio-lateral axis in the embryo of the kelp Saccharina latissima

Boscq,

Billoud,

Theodorou

et al. 2024

Development

View full text Add to dashboard Cite

show abstract

Insights into the molecular bases of multicellular development from brown algae

Batista,

Wang,

Bogaert

et al. 2024

Development

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The transition from simple to complex multicellularity represents a major evolutionary step that occurred in only a few eukaryotic lineages. Comparative analyses of these lineages provide insights into the molecular and cellular mechanisms driving this transition, but limited understanding of the biology of some complex multicellular lineages, such as brown algae, has hampered progress. This Review explores how recent advances in genetic and genomic technologies now allow detailed investigations into the molecular bases of brown algae development. We highlight how forward genetic techniques have identified mutants that enhance our understanding of pattern formation and sexual differentiation in these organisms. Additionally, the existence and nature of morphogens in brown algae and the potential influence of the microbiome in key developmental processes are examined. Outstanding questions, such as the identity of master regulators, the definition and characterization of cell types, and the molecular bases of developmental plasticity are discussed, with insights into how recent technical advances could provide answers. Overall, this Review highlights how brown algae are emerging as alternative model organisms, contributing to our understanding of the evolution of multicellular life and the diversity of body plans.

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Cell wall‐mediated maternal control of apical–basal patterning of the kelp Undaria pinnatifida

Cited by 2 publications

References 58 publications

MUM, a maternal unknown message, inhibits early establishment of the medio-lateral axis in the embryo of the kelp Saccharina latissima

MUM, a maternal unknown message, inhibits early establishment of the medio-lateral axis in the embryo of the kelp Saccharina latissima

Insights into the molecular bases of multicellular development from brown algae

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