蔗糖合成中的新复杂性。

New complexities in the synthesis of sucrose.

作者信息

Lunn John E, MacRae Elspeth

机构信息

Max Planck Institut für Molekulare Pflanzenphysiologie, Am Mühlenberg 1, 14476 Golm, Germany.

出版信息

Curr Opin Plant Biol. 2003 Jun;6(3):208-14. doi: 10.1016/s1369-5266(03)00033-5.

DOI:10.1016/s1369-5266(03)00033-5

PMID:12753969

Abstract

Sucrose is universal in plants and fulfils many roles: transport sugar, storage reserve, compatible solute and signal compound. Consequently, sucrose synthesis is highly regulated, with much of the control operating at the first step in the committed pathway, which is catalysed by sucrose-phosphate synthase (SPS). The discovery of at least three SPS gene families in plants has added a further layer of complexity to an already complicated picture involving transcriptional, allosteric and post-translational control of this enzyme's activity. After years of neglect, the gene encoding the last enzyme in the pathway, sucrose-phosphatase (SPP), has finally been cloned, revealing that SPS contains an SPP-like domain at the carboxy-terminus, to which SPP might bind. This has reinvigorated the search for an SPS-SPP complex, and has hinted at further complexities to be unravelled in the control of sucrose synthesis in plants.

摘要

蔗糖在植物中普遍存在，并发挥多种作用：转运糖、储存储备、相容性溶质和信号化合物。因此，蔗糖合成受到高度调控，其中大部分控制作用于关键途径的第一步，该步骤由蔗糖磷酸合酶（SPS）催化。植物中至少三个SPS基因家族的发现，为这个已经很复杂的涉及该酶活性转录、变构和翻译后控制的图景增添了另一层复杂性。在多年被忽视之后，该途径中最后一种酶——蔗糖磷酸酶（SPP）的编码基因终于被克隆出来，揭示出SPS在羧基末端含有一个类似SPP的结构域，SPP可能与之结合。这重新激发了对SPS-SPP复合物的寻找，并暗示在植物蔗糖合成控制方面还有更多复杂性有待揭示。

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蔗糖合成中的新复杂性。

New complexities in the synthesis of sucrose.

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