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海藻糖诱导ApL3表达可弥补淀粉缺陷型拟南芥突变体adg2-1，该突变体缺乏ADP-葡萄糖焦磷酸化酶的大亚基ApL1。

Induction of ApL3 expression by trehalose complements the starch-deficient Arabidopsis mutant adg2-1 lacking ApL1, the large subunit of ADP-glucose pyrophosphorylase.

作者信息

Fritzius T, Aeschbacher R, Wiemken A, Wingler A

机构信息

Botanisches Institut, Universität Basel, Hebelstrasse 1, CH-4056 Basel, Switzerland.

出版信息

Plant Physiol. 2001 Jun;126(2):883-9. doi: 10.1104/pp.126.2.883.

DOI:10.1104/pp.126.2.883

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC111177/

Abstract

The disaccharide trehalose has strong effects on plant metabolism and development. In Arabidopsis seedlings, growth on trehalose-containing medium leads to an inhibition of root elongation, an accumulation of starch in the shoots, an increased activity of ADP-Glc pyrophosphorylase (AGPase), and an induction of the expression of the AGPase gene, ApL3 (A. Wingler, T. Fritzius, A. Wiemken, T. Boller, R.A. Aeschbacher [2000] Plant Physiol 124: 105-114). We used Arabidopsis mutants deficient in starch synthesis to examine whether the primary effect of trehalose was to affect carbohydrate allocation by the induction of AGPase in the photosynthetic tissue. In a mutant lacking the large AGPase subunit, ApL1, (adg2-1 mutant) growth on trehalose restored AGPase activity and led to a strong accumulation of starch in the shoots. In contrast, starch synthesis could not be induced in a mutant lacking the small AGPase subunit, ApS, (adg1-1 mutant) or in a mutant lacking plastidic phosphoglucomutase (pgm1-1 mutant). These results indicate that ApL3 can substitute for ApL1 in the AGPase complex. In addition, root elongation in the mutants, especially in the adg1-1 mutant, was partially resistant to trehalose, suggesting that the induction of ApL3 expression and the resulting accumulation of starch in the shoots were partially responsible for the effects of trehalose on the growth of wild-type plants.

摘要

二糖海藻糖对植物的新陈代谢和发育有显著影响。在拟南芥幼苗中，在含海藻糖的培养基上生长会导致根伸长受到抑制、地上部淀粉积累、ADP-葡萄糖焦磷酸化酶（AGPase）活性增加以及AGPase基因ApL3的表达被诱导（A. Wingler，T. Fritzius，A. Wiemken，T. Boller，R.A. Aeschbacher [2000] Plant Physiol 124: 105 - 114）。我们利用淀粉合成缺陷的拟南芥突变体来研究海藻糖的主要作用是否是通过诱导光合组织中的AGPase来影响碳水化合物分配。在缺乏AGPase大亚基ApL1的突变体（adg2 - 1突变体）中，在海藻糖上生长可恢复AGPase活性并导致地上部淀粉大量积累。相反，在缺乏AGPase小亚基ApS的突变体（adg1 - 1突变体）或缺乏质体磷酸葡萄糖变位酶的突变体（pgm1 - 1突变体）中，淀粉合成无法被诱导。这些结果表明ApL3可以在AGPase复合体中替代ApL1。此外，突变体尤其是adg1 - 1突变体中的根伸长对海藻糖有部分抗性，这表明ApL3表达的诱导以及由此导致的地上部淀粉积累部分地解释了海藻糖对野生型植物生长的影响。