空间表达的 WIP 基因控制拟南芥胚胎根发育。

Spatially expressed WIP genes control Arabidopsis embryonic root development.

机构信息

Institute of Plant Sciences Paris-Saclay (IPS2), INRAE, CNRS, University of Paris-Saclay, University of Evry, University of Paris Cité, Gif sur Yvette, France.

出版信息

Nat Plants. 2022 Jun;8(6):635-645. doi: 10.1038/s41477-022-01172-4. Epub 2022 Jun 16.

DOI:10.1038/s41477-022-01172-4

PMID:35710883

Abstract

Development of plant organs is a highly organized process. In Arabidopsis, proper root development requires that distinct cell types and tissue layers are specified and formed in a restricted manner in space and over time. Despite its importance, genetic controls underlying such regularity remain elusive. Here we found that WIP genes expressed in the embryo and suspensor functionally oppose those expressed in the surrounding maternal tissues to orchestrate cell division orientation and cell fate specification in the embryonic root, thereby promoting regular root formation. The maternal WIPs act non-cell autonomously to repress root cell fate specification through SIMILAR TO RADICAL-INDUCED CELL DEATH ONE (SRO) family members. When losing all WIPs, root cells divide irregularly in the early embryo, but this barely alters their fate specification and the morphology of post-embryonic roots. Our results reveal cross-communication between the embryonic and maternal WIPs in controlling root development.

摘要

植物器官的发育是一个高度组织化的过程。在拟南芥中，适当的根系发育需要以特定的方式在空间和时间上指定和形成不同的细胞类型和组织层。尽管其重要性，但潜在的遗传控制仍然难以捉摸。在这里，我们发现 WIP 基因在胚胎和悬浮胚中表达的功能与在周围母体组织中表达的功能相反，以协调胚胎根中的细胞分裂方向和细胞命运特化，从而促进规则的根形成。母体 WIP 通过类似 RADICAL-INDUCED CELL DEATH ONE（SRO）家族成员的非细胞自主方式作用，抑制根细胞命运特化。当失去所有的 WIP 时，根细胞在早期胚胎中不规则地分裂，但这几乎不会改变它们的命运特化和胚胎后根的形态。我们的结果揭示了胚胎和母体 WIP 之间在控制根发育方面的交叉通讯。

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空间表达的 WIP 基因控制拟南芥胚胎根发育。

Spatially expressed WIP genes control Arabidopsis embryonic root development.

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