Your search keyword '"Maizel, Alexis"' showing total 4 results

1. Microtubule-based perception of mechanical conflicts controls plant organ morphogenesis

Author

Stöckle, Dorothee, Reyes-Hernández, Blanca Jazmin, Vilches Barro, Amaya, Nenadić, Milica, Winter, Zsofiá, Marc-Martin, Sophie, Bald, Lotte, Ursache, Robertas; https://orcid.org/0000-0002-3803-253X, Fujita, Satoshi, Maizel, Alexis, Vermeer, Joop E M; https://orcid.org/0000-0001-8876-5873, Stöckle, Dorothee, Reyes-Hernández, Blanca Jazmin, Vilches Barro, Amaya, Nenadić, Milica, Winter, Zsofiá, Marc-Martin, Sophie, Bald, Lotte, Ursache, Robertas; https://orcid.org/0000-0002-3803-253X, Fujita, Satoshi, Maizel, Alexis, and Vermeer, Joop E M; https://orcid.org/0000-0001-8876-5873

Abstract

Precise coordination between cells and tissues is essential for differential growth in plants. During lateral root formation in Arabidopsis thaliana, the endodermis is actively remodeled to allow outgrowth of the new organ. Here, we show that microtubule arrays facing lateral root founder cells display a higher order compared to arrays on the opposite side of the same cell, and this asymmetry is required for endodermal remodeling and lateral root initiation. We identify that MICROTUBULE ASSOCIATED PROTEIN 70-5 (MAP70-5) is necessary for the establishment of this spatially defined microtubule organization and endodermis remodeling and thus contributes to lateral root morphogenesis. We propose that MAP70-5 and cortical microtubule arrays in the endodermis integrate the mechanical signals generated by lateral root outgrowth, facilitating the channeling of organogenesis.

Published

2022

2. The floral regulator LEAFY evolves by substitutions in the DNA binding domain

Author

Maizel, Alexis, Busch, Maximilian A., Tanahashi, Takako, Perkovic, Josip, Kato, Masahiro, Hasebe, Mitsuyasu, and Weigel, Detlef

Subjects

Genes -- Research, Angiosperms -- Research, Proteins -- Research, Science and technology, Research

Abstract

The plant-specific transcription factor LEAFY controls general aspects of the fife cycle in a basal plant, the moss Physcomitrella patens. In contrast, LEAFY has more specialized functions in angiosperms, where it specifically induces floral fate during the reproductive phase. This raises the question of a concomitant change in the biochemical function of LEAFY during the evolution of land plants. We report that the DNA binding domain of LEAFY, although largely conserved, has diverged in activity. On the contrary, other, more rapidly evolving portions of the protein have few effects on LEAFY activity., LEAFY (LFY) is found in all land plants, which evolved during the past 400 million years. The proteins are remarkably well conserved with two blocks of similarity, in the N- [...]

Published

2005

3. A Spatial Accommodation by Neighboring Cells Is Required for Organ Initiation in Arabidopsis.

Author

Vermeer, Joop E. M., von Wangenheim, Daniel, Barberon, Marie, Lee, Yuree, Stelzer, Ernst H. K., Maizel, Alexis, and Geldner, Niko

Subjects

*ARABIDOPSIS, *ROOT formation, *PRIMORDIA (Botany), *ENDODERM, *DIFFUSION barriers, *PLANT cell walls, *EPITHELIUM, *CELL membranes

Abstract

Lateral root formation in plants can be studied as the process of interaction between chemical signals and physical forces during development. Lateral root primordia grow through overlying cell layers that must accommodate this incursion. Here, we analyze responses of the endodermis, the immediate neighbor to an initiating lateral root. Endodermal cells overlying lateral root primordia lose volume, change shape, and relinquish their tight junction-like diffusion barrier to make way for the emerging lateral root primordium. Endodermal feedback is absolutely required for initiation and growth of lateral roots, and we provide evidence that this is mediated by controlled volume loss in the endodermis. We propose that turgidity and rigid cell walls, typical of plants, impose constraints that are specifically modified for a given developmental process. [ABSTRACT FROM AUTHOR]

Published

2014

4. Microtubule-based perception of mechanical conflicts controls plant organ morphogenesis.

Author

Stöckle D, Reyes-Hernández BJ, Barro AV, Nenadić M, Winter Z, Marc-Martin S, Bald L, Ursache R, Fujita S, Maizel A, and Vermeer JE

Abstract

Precise coordination between cells and tissues is essential for differential growth in plants. During lateral root formation in Arabidopsis thaliana , the endodermis is actively remodeled to allow outgrowth of the new organ. Here, we show that microtubule arrays facing lateral root founder cells display a higher order compared to arrays on the opposite side of the same cell, and this asymmetry is required for endodermal remodeling and lateral root initiation. We identify that MICROTUBULE ASSOCIATED PROTEIN 70-5 (MAP70-5) is necessary for the establishment of this spatially defined microtubule organization and endodermis remodeling and thus contributes to lateral root morphogenesis. We propose that MAP70-5 and cortical microtubule arrays in the endodermis integrate the mechanical signals generated by lateral root outgrowth, facilitating the channeling of organogenesis.

Published

2022