Walker-Simmons M. K., Rose P. A., Shaw A. C., Abrams S. R.
United States Department of Agriculture/Agriculture Research Service, 209 Johnson Hall, Washington State University, Pullman, Washington 99164-6420 (M.K.W.-S.).
Plant Physiol. 1994 Dec;106(4):1279-1284. doi: 10.1104/pp.106.4.1279.
Wheat (Triticum aestivum L.) embryo germination is inhibited by natural (S)-(+)-abscisic acid (ABA). In this report we have determined critical structural features of the ABA molecule, particularly the methyl and ketone groups of the ABA ring, required for inhibitory activity. To examine the ring residues a series of new optically active ABA analogs have been synthesized in which the 4[prime]-keto, 7[prime]-, 8[prime]-, or 8[prime]- and 9[prime]-carbons have been replaced with hydrogen atoms. Each of the analogs was tested over a range of concentrations as a germination inhibitor. Enantiomers of the analogs altered at the 4[prime]-keto or 8[prime]- and 9[prime]-methyl groups were active, but less so than ABA. Both enantiomers of 7[prime]-demethylABA were inactive as germination inhibitors. The results show that the 7[prime]-methyl group is absolutely required for activity, but that the other residues are less critical for hormone recognition.
小麦(Triticum aestivum L.)胚的萌发受到天然(S)-(+)-脱落酸(ABA)的抑制。在本报告中,我们确定了ABA分子的关键结构特征,特别是ABA环的甲基和酮基,这些是抑制活性所必需的。为了研究环残基,已合成了一系列新的光学活性ABA类似物,其中4'-酮基、7'、8'或8'和9'碳已被氢原子取代。每种类似物都在一系列浓度范围内作为萌发抑制剂进行了测试。在4'-酮基或8'和9'-甲基处发生改变的类似物对映体具有活性,但活性低于ABA。7'-脱甲基ABA的两种对映体作为萌发抑制剂均无活性。结果表明,7'-甲基对于活性是绝对必需的,但其他残基对于激素识别的重要性较低。