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植物细胞生物学十五个极富挑战性的开放性问题。

Fifteen compelling open questions in plant cell biology.

机构信息

Weill Institute for Cell and Molecular Biology and School of Integrative Plant Science, Section of Plant Biology, Cornell University, Ithaca, New York 14853, USA.

Department of Botany and Center for Quantitative Cell Imaging, University of Wisconsin-Madison, Wisconsin 53706, USA.

出版信息

Plant Cell. 2022 Jan 20;34(1):72-102. doi: 10.1093/plcell/koab225.

DOI:10.1093/plcell/koab225
PMID:34529074
原文链接:
https://pmc.ncbi.nlm.nih.gov/articles/PMC8774073/
Abstract

As scientists, we are at least as excited about the open questions-the things we do not know-as the discoveries. Here, we asked 15 experts to describe the most compelling open questions in plant cell biology. These are their questions: How are organelle identity, domains, and boundaries maintained under the continuous flux of vesicle trafficking and membrane remodeling? Is the plant cortical microtubule cytoskeleton a mechanosensory apparatus? How are the cellular pathways of cell wall synthesis, assembly, modification, and integrity sensing linked in plants? Why do plasmodesmata open and close? Is there retrograde signaling from vacuoles to the nucleus? How do root cells accommodate fungal endosymbionts? What is the role of cell edges in plant morphogenesis? How is the cell division site determined? What are the emergent effects of polyploidy on the biology of the cell, and how are any such "rules" conditioned by cell type? Can mechanical forces trigger new cell fates in plants? How does a single differentiated somatic cell reprogram and gain pluripotency? How does polarity develop de-novo in isolated plant cells? What is the spectrum of cellular functions for membraneless organelles and intrinsically disordered proteins? How do plants deal with internal noise? How does order emerge in cells and propagate to organs and organisms from complex dynamical processes? We hope you find the discussions of these questions thought provoking and inspiring.

摘要

作为科学家,我们对未解之谜(即我们不知道的事情)的兴奋程度至少与发现同样强烈。在这里,我们请 15 位专家来描述植物细胞生物学中最引人关注的未解问题。这些是他们的问题:细胞器的身份、结构域和边界是如何在囊泡运输和膜重塑的持续通量下得以维持的?植物皮质微管细胞骨架是否是一种机械感受器装置?植物细胞壁合成、组装、修饰和完整性感应的细胞途径如何相互关联?质膜通道为什么会打开和关闭?液泡是否向细胞核发出逆行信号?根细胞如何容纳真菌共生体?细胞边缘在植物形态发生中的作用是什么?细胞分裂位点是如何确定的?多倍体对细胞生物学的涌现效应是什么,以及任何此类“规则”如何受到细胞类型的影响?机械力能否在植物中引发新的细胞命运?单个分化的体细胞如何重新编程并获得多能性?在分离的植物细胞中,极性是如何从头开始发展的?无膜细胞器和无序蛋白的细胞功能范围是什么?植物如何应对内部噪声?有序如何从复杂的动态过程中在细胞中出现并传播到器官和生物体?我们希望您对这些问题的讨论感到发人深省和鼓舞人心。

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4
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