Plasmodesmata tomogram movie
Duration: 22 secs
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| Description: |
Plasmodesmata tomogram by William Nicolas. Part of research project: Dawei Yan, Shri Ram Yadav, Andrea Paterlini, William J. Nicolas, Jules D. Petit, Lysiane Brocard, Ilya Belevich, Magali S. Grison, Anne Vaten, Leila Karami, Sedeer el-Showk, Jung-Youn Lee, Gosia M. Murawska, Jenny Mortimer, Michael Knoblauch, Eija Jokitalo, Jonathan E. Markham, Emmanuelle M. Bayer, Ykä Helariutta (2019) Sphingolipid biosynthesis modulates plasmodesmal ultrastructure and phloem unloading. Nature Plants
DOI: 10.1038/s41477-019-0429-5 |
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| Created: | 2019-06-10 10:40 |
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| Collection: | Sainsbury Laboratory Cambridge University (SLCU) |
| Publisher: | University of Cambridge |
| Copyright: | William Nicolas |
| Language: | eng (English) |
| Distribution: |
World
(not downloadable)
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| Explicit content: | No |
| Aspect Ratio: | 4:3 |
| Screencast: | No |
| Bumper: | minimal black |
| Trailer: | minimal black |
| Abstract: | Professor Yrjö Helariutta’s research team at the Sainsbury Laboratory Cambridge University (SLCU) and Dr Emmanuelle Bayer’s team at the University of Bordeaux/CNRS have brought this goal a step closer by discovering Phloem Unloading Modulator (PLM), a novel gene that affects nutrient trafficking by altering the channels connecting neighbouring plant cells called plasmodesmata. These nanoscale membrane-lined channels traverse the cell wall barrier to link plant cells together and enable the transfer of essential substances. |
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| MPEG-4 Video | 900x720 | 2.8 Mbits/sec | 7.71 MB | View | ||
| MPEG-4 Video | 450x360 | 1.8 Mbits/sec | 4.97 MB | View | ||
| WebM | 450x360 | 1.33 Mbits/sec | 3.84 MB | View | ||
| MP3 | 44100 Hz | 252.55 kbits/sec | 947.07 kB | Listen | ||
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