Long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development
Plant cell wall formation is directed by cortical microtubules, which produce complex patterns needed to support xylem vessels. Here, the authors perform live-cell imaging and simulations of Arabidopsis cells during proto-xylem differentiation to show how local microtubule dynamics control pattern f...
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Nature Portfolio
2021
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oai:doaj.org-article:9051f221a0c645788a9d932dfba843be2021-12-02T14:16:14ZLong-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development10.1038/s41467-021-20894-12041-1723https://doaj.org/article/9051f221a0c645788a9d932dfba843be2021-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-20894-1https://doaj.org/toc/2041-1723Plant cell wall formation is directed by cortical microtubules, which produce complex patterns needed to support xylem vessels. Here, the authors perform live-cell imaging and simulations of Arabidopsis cells during proto-xylem differentiation to show how local microtubule dynamics control pattern formation.René SchneiderKris van’t KloosterKelsey L. PicardJasper van der GuchtTaku DemuraMarcel JansonArun SampathkumarEva E. DeinumTijs KetelaarStaffan PerssonNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-12 (2021) |
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Science Q |
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Science Q René Schneider Kris van’t Klooster Kelsey L. Picard Jasper van der Gucht Taku Demura Marcel Janson Arun Sampathkumar Eva E. Deinum Tijs Ketelaar Staffan Persson Long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development |
description |
Plant cell wall formation is directed by cortical microtubules, which produce complex patterns needed to support xylem vessels. Here, the authors perform live-cell imaging and simulations of Arabidopsis cells during proto-xylem differentiation to show how local microtubule dynamics control pattern formation. |
format |
article |
author |
René Schneider Kris van’t Klooster Kelsey L. Picard Jasper van der Gucht Taku Demura Marcel Janson Arun Sampathkumar Eva E. Deinum Tijs Ketelaar Staffan Persson |
author_facet |
René Schneider Kris van’t Klooster Kelsey L. Picard Jasper van der Gucht Taku Demura Marcel Janson Arun Sampathkumar Eva E. Deinum Tijs Ketelaar Staffan Persson |
author_sort |
René Schneider |
title |
Long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development |
title_short |
Long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development |
title_full |
Long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development |
title_fullStr |
Long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development |
title_full_unstemmed |
Long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development |
title_sort |
long-term single-cell imaging and simulations of microtubules reveal principles behind wall patterning during proto-xylem development |
publisher |
Nature Portfolio |
publishDate |
2021 |
url |
https://doaj.org/article/9051f221a0c645788a9d932dfba843be |
work_keys_str_mv |
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1718391680690814976 |