Flower production, stamen-hair growth, and spontaneous and induced somatic mutation frequencies in Tradescantia cuttings and shoots with roots cultivated with nutrient solutions

S. Ichikawa, N. Shima, L. Xiao, C. Matsuura-Endo, H. Harada, A. Yogo, M. Okumura
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引用次数: 17

Abstract

For establishing more efficient blue /pink heterozygous Tradescantia testers of mutagenicity, the young inflorescence-bearing nodal and/or axillary cuttings of clones BNL 02, KU 27, KU 7 and KU 20 were cultivated with nutrient solutions, and the flower production, stamen-hair growth, and spontaneous and induced somatic pink mutation frequencies in the stamen hairs observed in the cuttings of each clone were compared with those in the potted plants of the same clone. The cuttings tended to show poorer flower productions, smaller flower sizes and decreases in the number of hairs, as compared with potted plants, but the spontaneous and X-ray-induced somatic mutation frequencies were comparable to those in potted plants. Using the BNL 02 cuttings, however, the mutagenic effect of nitrofurazone was detected for the first time in higher plants. On the other hand, the shoots with roots of clone BNL 4430 divided from the potted plants and cultivated with a nutrient solution exhibited excellent results in all aspects; i.e., the flower production, flower size, stamen-hair growth, and X-ray-and MMS-induced mutation frequencies being almost identical with those in the potted plants, and the spontaneous (background) mutation frequency being lower than that in the potted plants. The shoots with roots of clone BNL 4430 were thus judged to be the best Tradescantia tester of mutagenicity, requiring much smaller space than using the potted plants and supplying much larger samples much more constantly than the cuttings of other clones.
用营养液培养根的芥花插枝和芽的开花、雄蕊生长和自发和诱导体细胞突变频率
为了建立更高效的蓝/粉红杂合诱变性试验材料,用营养液培养了bnl02、KU 27、KU 7和KU 20的幼枝结花序和/或腋生插穗,并与同一无性系盆栽植株的插穗开花、雄蕊毛生长、雄蕊毛自发和诱导体细胞粉红突变频率进行了比较。与盆栽植株相比,扦插植株的花产量较低,花尺寸较小,毛数减少,但自发和x射线诱导的体细胞突变频率与盆栽植株相当。利用bnl02扦插,首次在高等植物中检测到硝基呋喃酮的诱变效应。另一方面,无性系bnl4430的带根芽从盆栽中分离出来,用营养液培养,各方面均表现出优异的效果;即花的产量、花的大小、雄蕊毛的生长、x射线和mms诱导的突变频率与盆栽植物几乎相同,自发(背景)突变频率低于盆栽植物。无性系BNL 4430带根的枝条比盆栽所需空间小得多,比其他无性系插枝提供的样品更大、更频繁,因此被认为是最好的诱变性试验材料。
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