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本文引用的文献

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V-ATPase activity in the TGN/EE is required for exocytosis and recycling in Arabidopsis.液泡型 H+-ATP 酶在 TGN/EE 中的活性对于拟南芥的胞吐作用和循环再利用是必需的。
Nat Plants. 2015 Jul 6;1:15094. doi: 10.1038/nplants.2015.94.
2
Journey to the cell surface--the central role of the trans-Golgi network in plants.通向细胞表面之旅——反式高尔基体网络在植物中的核心作用
Protoplasma. 2015 Mar;252(2):385-98. doi: 10.1007/s00709-014-0693-1. Epub 2014 Sep 4.
3
Delivery of endocytosed proteins to the cell-division plane requires change of pathway from recycling to secretion.将内吞的蛋白质运输到细胞分裂平面需要改变从再循环到分泌的途径。
Elife. 2014 Apr 8;3:e02131. doi: 10.7554/eLife.02131.
4
Dynamic behavior of the trans-golgi network in root tissues of Arabidopsis revealed by super-resolution live imaging.超分辨率实时成像揭示拟南芥根组织中转高尔基体网络的动态行为。
Plant Cell Physiol. 2014 Apr;55(4):694-703. doi: 10.1093/pcp/pcu010. Epub 2014 Jan 18.
5
Cell wall polysaccharides are mislocalized to the Vacuole in echidna mutants.棘皮动物突变体的细胞壁多糖被错误定位到液泡中。
Plant Cell Physiol. 2013 Nov;54(11):1867-80. doi: 10.1093/pcp/pct129. Epub 2013 Sep 20.
6
ECHIDNA-mediated post-Golgi trafficking of auxin carriers for differential cell elongation.棘鱼介蛋白介导的生长素载体的高尔基体后运输,以实现差异细胞伸长。
Proc Natl Acad Sci U S A. 2013 Oct 1;110(40):16259-64. doi: 10.1073/pnas.1309057110. Epub 2013 Sep 16.
7
Trans-Golgi network localized ECHIDNA/Ypt interacting protein complex is required for the secretion of cell wall polysaccharides in Arabidopsis.质膜内体定位的 ECHIDNA/Ypt 相互作用蛋白复合物对于拟南芥细胞壁多糖的分泌是必需的。
Plant Cell. 2013 Jul;25(7):2633-46. doi: 10.1105/tpc.113.112482. Epub 2013 Jul 5.
8
Arabidopsis RABA1 GTPases are involved in transport between the trans-Golgi network and the plasma membrane, and are required for salinity stress tolerance.拟南芥RABA1 GTP酶参与反式高尔基体网络与质膜之间的运输,并且是耐盐胁迫所必需的。
Plant J. 2013 Jan;73(2):240-9. doi: 10.1111/tpj.12023. Epub 2012 Nov 23.
9
Qa-SNAREs localized to the trans-Golgi network regulate multiple transport pathways and extracellular disease resistance in plants.定位于跨高尔基网络的 Qa-SNAREs 调节植物中的多种运输途径和细胞外疾病抗性。
Proc Natl Acad Sci U S A. 2012 Jan 31;109(5):1784-9. doi: 10.1073/pnas.1115146109. Epub 2012 Jan 17.
10
Polarized cell growth in Arabidopsis requires endosomal recycling mediated by GBF1-related ARF exchange factors.拟南芥中极化细胞的生长需要由 GBF1 相关 ARF 交换因子介导的内体再循环。
Nat Cell Biol. 2011 Dec 4;14(1):80-6. doi: 10.1038/ncb2389.

乙烯通过拟南芥中依赖于 BIG ARF-GEF 的高尔基体后分泌运输调控差异生长。

Ethylene Regulates Differential Growth via BIG ARF-GEF-Dependent Post-Golgi Secretory Trafficking in Arabidopsis.

作者信息

Jonsson Kristoffer, Boutté Yohann, Singh Rajesh Kumar, Gendre Delphine, Bhalerao Rishikesh P

机构信息

Umeå Plant Science Centre, Department of Forest Genetics and Plant Physiology, Swedish University for Agricultural Sciences, SE-901 83 Umeå, Sweden.

CNRS-University of Bordeaux, UMR 5200 Membrane Biogenesis Laboratory, INRA Bordeaux Aquitaine, 33140 Villenave d'Ornon, France.

出版信息

Plant Cell. 2017 May;29(5):1039-1052. doi: 10.1105/tpc.16.00743. Epub 2017 Apr 24.

DOI:10.1105/tpc.16.00743
PMID:28442598
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5466023/
Abstract

During early seedling development, the shoot apical meristem is protected from damage as the seedling emerges from soil by the formation of apical hook. Hook formation requires differential growth across the epidermis below the meristem in the hypocotyl. The plant hormones ethylene and auxin play key roles during apical hook development by controlling differential growth. We provide genetic and cell biological evidence for the role of ADP-ribosylation factor 1 (ARF1)-GTPase and its effector ARF-guanine-exchange factors (GEFs) of the Brefeldin A-inhibited GEF (BIG) family and GNOM in ethylene- and auxin-mediated control of hook development. We show that ARF-GEF GNOM acts early, whereas BIG ARF-GEFs act at a later stage of apical hook development. We show that the localization of ARF1 and BIG4 at the -Golgi network (TGN) depends on ECHIDNA (ECH), a plant homolog of yeast Triacylglycerol lipase (TLG2/SYP4) interacting protein Tgl2-Vesicle Protein 23 (TVP23). BIGs together with ECH and ARF1 mediate the secretion of AUX1 influx carrier to the plasma membrane from the TGN during hook development and defects in BIG or ARF1 result in insensitivity to ethylene. Thus, our data indicate a division of labor within the ARF-GEF family in mediating differential growth with GNOM acting during the formation phase whereas BIGs act during the hook maintenance phase downstream of plant hormone ethylene.

摘要

在幼苗早期发育过程中,当幼苗从土壤中出土时,茎尖分生组织通过形成顶端弯钩而免受损伤。弯钩的形成需要下胚轴分生组织下方表皮的差异生长。植物激素乙烯和生长素通过控制差异生长在顶端弯钩发育过程中起关键作用。我们提供了遗传和细胞生物学证据,证明ADP-核糖基化因子1(ARF1)-GTP酶及其效应物布雷菲德菌素A抑制的鸟嘌呤核苷酸交换因子(GEF)(BIG)家族和GNOM的ARF-鸟嘌呤核苷酸交换因子在乙烯和生长素介导的弯钩发育控制中的作用。我们表明,ARF-GEF GNOM作用较早,而BIG ARF-GEFs作用于顶端弯钩发育的后期。我们表明,ARF1和BIG4在反式高尔基体网络(TGN)的定位取决于ECHIDNA(ECH),它是酵母三酰甘油脂肪酶(TLG2/SYP4)相互作用蛋白Tgl2-囊泡蛋白23(TVP23)的植物同源物。在弯钩发育过程中,BIGs与ECH和ARF1一起介导AUX1流入载体从TGN分泌到质膜,BIG或ARF1的缺陷导致对乙烯不敏感。因此,我们的数据表明,ARF-GEF家族在介导差异生长方面存在分工,GNOM在形成阶段起作用,而BIGs在植物激素乙烯下游的弯钩维持阶段起作用。