拟南芥蔗糖合酶 1 的结构及其功能意义。
The structure of sucrose synthase-1 from Arabidopsis thaliana and its functional implications.
机构信息
Department of Biochemistry and Molecular Biology, Michigan State University, East Lansing, Michigan 48824.
Life Sciences Collaborative Access Team, Northwestern University, Argonne, Illinois 60439.
出版信息
J Biol Chem. 2011 Oct 14;286(41):36108-36118. doi: 10.1074/jbc.M111.275974. Epub 2011 Aug 24.
Abstract
Sucrose transport is the central system for the allocation of carbon resources in vascular plants. During growth and development, plants control carbon distribution by coordinating sites of sucrose synthesis and cleavage in different plant organs and different cellular locations. Sucrose synthase, which reversibly catalyzes sucrose synthesis and cleavage, provides a direct and reversible means to regulate sucrose flux. Depending on the metabolic environment, sucrose synthase alters its cellular location to participate in cellulose, callose, and starch biosynthesis through its interactions with membranes, organelles, and cytoskeletal actin. The x-ray crystal structure of sucrose synthase isoform 1 from Arabidopsis thaliana (AtSus1) has been determined as a complex with UDP-glucose and as a complex with UDP and fructose, at 2.8- and 2.85-Å resolutions, respectively. The AtSus1 structure provides insights into sucrose catalysis and cleavage, as well as the regulation of sucrose synthase and its interactions with cellular targets.
摘要
蔗糖转运是维管束植物碳资源分配的核心系统。在生长和发育过程中,植物通过协调不同植物器官和不同细胞位置的蔗糖合成和分解部位来控制碳的分布。蔗糖合酶可逆地催化蔗糖的合成和分解,为调节蔗糖流提供了直接和可逆的手段。根据代谢环境的不同,蔗糖合酶通过与膜、细胞器和肌动蛋白细胞骨架的相互作用改变其在细胞中的位置,从而参与纤维素、几丁质和淀粉的生物合成。拟南芥蔗糖合酶同工型 1(AtSus1)的 X 射线晶体结构已被确定为与 UDP-葡萄糖的复合物,以及与 UDP 和果糖的复合物,分辨率分别为 2.8 和 2.85Å。AtSus1 结构为蔗糖的催化和分解以及蔗糖合酶的调节及其与细胞靶标的相互作用提供了深入的了解。
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