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2
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Proc Natl Acad Sci U S A. 1997 Mar 4;94(5):2085-90. doi: 10.1073/pnas.94.5.2085.
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In silico analysis of the fucosylation-associated genome of the human blood fluke Schistosoma mansoni: cloning and characterization of the enzymes involved in GDP-L-fucose synthesis and Golgi import.曼氏血吸虫岩藻糖基化相关基因组的计算机分析:参与 GDP-L-岩藻糖合成和高尔基体输入的酶的克隆和特性。
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本文引用的文献

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Notch signaling in diabetic nephropathy. Notch 信号通路在糖尿病肾病中的作用。
Exp Cell Res. 2012 May 15;318(9):986-92. doi: 10.1016/j.yexcr.2012.02.036. Epub 2012 Mar 5.
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Innexin2 gap junctions in somatic support cells are required for cyst formation and for egg chamber formation in Drosophila.体细胞支持细胞中的 Innexin2 间隙连接对于果蝇的滤泡形成和卵子发生是必需的。
Mech Dev. 2011 Sep-Dec;128(7-10):510-23. doi: 10.1016/j.mod.2011.09.005. Epub 2011 Oct 5.
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Distinct levels of Notch activity for commitment and terminal differentiation of stem cells in the adult fly intestine.成体果蝇肠道干细胞的定向分化和终末分化需要不同水平的 Notch 活性。
Development. 2011 Nov;138(21):4585-95. doi: 10.1242/dev.065292. Epub 2011 Sep 28.
4
The balance between GMD and OFUT1 regulates Notch signaling pathway activity by modulating Notch stability.GMD 和 OFUT1 之间的平衡通过调节 Notch 稳定性来调节 Notch 信号通路活性。
Biol Res. 2011;44(1):25-34. doi: 10.4067/S0716-97602011000100004. Epub 2011 May 11.
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Metabolism, cell surface organization, and disease.代谢、细胞表面组织与疾病。
Cell. 2009 Dec 24;139(7):1229-41. doi: 10.1016/j.cell.2009.12.008.
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Two pathways for importing GDP-fucose into the endoplasmic reticulum lumen function redundantly in the O-fucosylation of Notch in Drosophila.在果蝇中,GDP-岩藻糖向内质网腔导入的两条途径在 Notch 的 O-岩藻糖基化中冗余发挥作用。
J Biol Chem. 2010 Feb 5;285(6):4122-4129. doi: 10.1074/jbc.M109.016964. Epub 2009 Nov 30.
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Role of unusual O-glycans in intercellular signaling.异常O-聚糖在细胞间信号传导中的作用。
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Glycobiology on the fly: developmental and mechanistic insights from Drosophila.果蝇中的即时糖生物学:发育与机制洞察
Glycobiology. 2009 Feb;19(2):102-11. doi: 10.1093/glycob/cwn096. Epub 2008 Sep 29.
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Roles of Pofut1 and O-fucose in mammalian Notch signaling.Pofut1和O-岩藻糖在哺乳动物Notch信号传导中的作用。
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10
Rumi is a CAP10 domain glycosyltransferase that modifies Notch and is required for Notch signaling.Rumi是一种CAP10结构域糖基转移酶,可修饰Notch,是Notch信号传导所必需的。
Cell. 2008 Jan 25;132(2):247-58. doi: 10.1016/j.cell.2007.12.016.

通过果蝇细胞缝隙连接转移 GDP-L-岩藻糖拯救不能合成 GDP-L-岩藻糖的细胞中的 Notch 信号通路。

Rescue of Notch signaling in cells incapable of GDP-L-fucose synthesis by gap junction transfer of GDP-L-fucose in Drosophila.

机构信息

Department of Biological Science and Technology, Tokyo University of Science, Chiba, Japan.

出版信息

Proc Natl Acad Sci U S A. 2012 Sep 18;109(38):15318-23. doi: 10.1073/pnas.1202369109. Epub 2012 Sep 4.

DOI:10.1073/pnas.1202369109
PMID:22949680
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3458340/
Abstract

Notch (N) is a transmembrane receptor that mediates cell-cell interactions to determine many cell-fate decisions. N contains EGF-like repeats, many of which have an O-fucose glycan modification that regulates N-ligand binding. This modification requires GDP-L-fucose as a donor of fucose. The GDP-L-fucose biosynthetic pathways are well understood, including the de novo pathway, which depends on GDP-mannose 4,6 dehydratase (Gmd) and GDP-4-keto-6-deoxy-D-mannose 3,5-epimerase/4-reductase (Gmer). However, the potential for intercellularly supplied GDP-L-fucose and the molecular basis of such transportation have not been explored in depth. To address these points, we studied the genetic effects of mutating Gmd and Gmer on fucose modifications in Drosophila. We found that these mutants functioned cell-nonautonomously, and that GDP-L-fucose was supplied intercellularly through gap junctions composed of Innexin-2. GDP-L-fucose was not supplied through body fluids from different isolated organs, indicating that the intercellular distribution of GDP-L-fucose is restricted within a given organ. Moreover, the gap junction-mediated supply of GDP-L-fucose was sufficient to support the fucosylation of N-glycans and the O-fucosylation of the N EGF-like repeats. Our results indicate that intercellular delivery is a metabolic pathway for nucleotide sugars in live animals under certain circumstances.

摘要

Notch(N)是一种跨膜受体,介导细胞-细胞相互作用,以决定许多细胞命运决定。N 包含 EGF 样重复序列,其中许多重复序列具有调节 N 配体结合的 O-岩藻糖基修饰。这种修饰需要 GDP-L-岩藻糖作为岩藻糖的供体。GDP-L-岩藻糖的生物合成途径已经得到很好的理解,包括从头途径,该途径依赖于 GDP-甘露糖 4,6 脱水酶(Gmd)和 GDP-4-酮-6-脱氧-D-甘露糖 3,5-差向异构酶/4-还原酶(Gmer)。然而,细胞间提供的 GDP-L-岩藻糖的潜力以及这种运输的分子基础尚未得到深入探讨。为了解决这些问题,我们研究了突变 Gmd 和 Gmer 对果蝇中岩藻糖修饰的遗传效应。我们发现这些突变体以细胞非自主的方式发挥作用,并且 GDP-L-岩藻糖通过由 Innexin-2 组成的间隙连接在细胞间供应。GDP-L-岩藻糖不是通过来自不同分离器官的体液供应的,这表明 GDP-L-岩藻糖的细胞间分布在给定的器官内受到限制。此外,间隙连接介导的 GDP-L-岩藻糖的供应足以支持 N-聚糖的岩藻糖基化和 N-EGF 样重复的 O-岩藻糖基化。我们的结果表明,在某些情况下,细胞间递送是活动物中核苷酸糖的代谢途径。