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The Multifaceted Roles of HY5 in Plant Growth and Development.HY5 在植物生长发育中的多效作用。
Mol Plant. 2016 Oct 10;9(10):1353-1365. doi: 10.1016/j.molp.2016.07.002. Epub 2016 Jul 17.
2
Cytokinin Regulates the Etioplast-Chloroplast Transition through the Two-Component Signaling System and Activation of Chloroplast-Related Genes.细胞分裂素通过双组分信号系统和叶绿体相关基因的激活来调节黄化质体-叶绿体转变。
Plant Physiol. 2016 Sep;172(1):464-78. doi: 10.1104/pp.16.00640. Epub 2016 Jul 7.
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LLM-Domain Containing B-GATA Factors Control Different Aspects of Cytokinin-Regulated Development in Arabidopsis thaliana.含有B-GATA因子的LLM结构域调控拟南芥中细胞分裂素调节发育的不同方面。
Plant Physiol. 2016 Apr;170(4):2295-311. doi: 10.1104/pp.15.01556. Epub 2016 Feb 1.
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WIND1-based acquisition of regeneration competency in Arabidopsis and rapeseed.基于WIND1在拟南芥和油菜中获得再生能力。
J Plant Res. 2015 May;128(3):389-97. doi: 10.1007/s10265-015-0714-y. Epub 2015 Mar 26.
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B-GATA transcription factors - insights into their structure, regulation, and role in plant development.B-GATA 转录因子——解析其结构、调控及在植物发育中的作用。
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Transcriptional regulation of thylakoid galactolipid biosynthesis coordinated with chlorophyll biosynthesis during the development of chloroplasts in Arabidopsis.拟南芥叶绿体发育过程中类囊体半乳糖脂生物合成的转录调控与叶绿素生物合成的协调。
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The HY5-PIF regulatory module coordinates light and temperature control of photosynthetic gene transcription.HY5-PIF调控模块协调光合基因转录的光控和温控。
PLoS Genet. 2014 Jun 12;10(6):e1004416. doi: 10.1371/journal.pgen.1004416. eCollection 2014 Jun.
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Biogenesis and homeostasis of chloroplasts and other plastids.叶绿体和其他质体的生物发生和动态平衡。
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Convergence of auxin and gibberellin signaling on the regulation of the GATA transcription factors GNC and GNL in Arabidopsis thaliana.生长素和赤霉素信号在调控拟南芥 GATA 转录因子 GNC 和 GNL 中的汇聚作用。
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Photosynthesis of root chloroplasts developed in Arabidopsis lines overexpressing GOLDEN2-LIKE transcription factors.在过表达类GOLDEN2转录因子的拟南芥株系中发育的根叶绿体的光合作用。
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去除地上部分通过细胞分裂素信号传导诱导根中叶绿体的发育。

Shoot Removal Induces Chloroplast Development in Roots via Cytokinin Signaling.

作者信息

Kobayashi Koichi, Ohnishi Ai, Sasaki Daichi, Fujii Sho, Iwase Akira, Sugimoto Keiko, Masuda Tatsuru, Wada Hajime

机构信息

Department of Life Sciences (K.K., A.O., D.S., S.F., H.W.) and Department of General Systems Studies (T.M.), Graduate School of Arts and Sciences, University of Tokyo, Tokyo 153-8902, Japan; and

RIKEN Center for Sustainable Resource Science, Tsurumi, Yokohama, Kanagawa 230-0045, Japan (A.I., K.S.)

出版信息

Plant Physiol. 2017 Apr;173(4):2340-2355. doi: 10.1104/pp.16.01368. Epub 2017 Feb 13.

DOI:10.1104/pp.16.01368
PMID:28193764
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5373043/
Abstract

The development of plant chloroplasts is regulated by various developmental, environmental, and hormonal cues. In Arabidopsis (), chloroplast development is repressed in roots via auxin signaling. However, roots develop chloroplasts when they are detached from the shoot. In contrast to auxin, cytokinin positively affects chloroplast development in roots, but the role and signaling pathway of cytokinin in the root greening response remain unclear. To understand the regulatory pathways of chloroplast development in the plant stress response, we examined the mechanisms underlying the conditional greening of detached roots. In wild-type Arabidopsis roots, shoot removal activates type B ARABIDOPSIS RESPONSE REGULATOR (ARR)-mediated cytokinin signaling and induces chlorophyll accumulation and photosynthetic remodeling. ARR1 and ARR12 are essential for up-regulating nucleus- and plastid-encoded genes associated with chloroplast development in detached roots. In this process, WOUND INDUCED DEDIFFERENTIATION1 and class B GATA transcription factors (B-GATAs) act upstream and downstream of ARRs, respectively. Overexpression of B-GATAs promotes root greening, as does shoot removal, dependent on a light signaling transcription factor, LONG HYPOCOTYL5. Auxin represses the root greening response independent of ARR signaling. (), a B-GATA, is strongly up-regulated in detached roots via ARR1 and ARR12 but is repressed by auxin, so may function at the point of convergence of cytokinin and auxin signaling in the root greening response.

摘要

植物叶绿体的发育受多种发育、环境和激素信号的调控。在拟南芥中,叶绿体发育通过生长素信号在根中受到抑制。然而,当根从地上部分脱离时,根会发育出叶绿体。与生长素相反,细胞分裂素对根中叶绿体的发育有积极影响,但细胞分裂素在根绿化反应中的作用和信号通路仍不清楚。为了了解植物应激反应中叶绿体发育的调控途径,我们研究了离体根条件性绿化的潜在机制。在野生型拟南芥根中,去除地上部分会激活B型拟南芥反应调节因子(ARR)介导的细胞分裂素信号,并诱导叶绿素积累和光合重塑。ARR1和ARR12对于上调与离体根中叶绿体发育相关的核编码和质体编码基因至关重要。在此过程中,伤口诱导去分化1和B类GATA转录因子(B-GATAs)分别在ARR的上游和下游起作用。B-GATAs的过表达促进根绿化,去除地上部分也如此,这依赖于光信号转录因子长下胚轴5。生长素独立于ARR信号抑制根绿化反应。B-GATA之一在离体根中通过ARR1和ARR12强烈上调,但被生长素抑制,因此可能在根绿化反应中细胞分裂素和生长素信号的交汇点起作用。