[Analysis of tobacco regeneration plants from the protoplasts produced by electrofusion [corrected] in space].

植物生理与分子生物学学报 Pub Date : 2007-10-01
Xiu-Gen Li, Ai-Di Chen, Liu-Fa Wang, Hui-Qiong Zheng
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Abstract

Vacuolated mesophyll protoplasts of Nicotiana rustica L. were electrically fused with evacuolated protoplasts of the same genus (N. tabacum cv. 'Gexin No.1') during a 7-day space flight in the Chinese spacecraft "SZ-4". The initial cell division leading to micro-callus formation took place after landing (Fig.1). Higher plating efficiencies were observed in the flight samples than the control culture, but the frequency of plantlets regeneration reduced by about 20% of the control (Table 1). The hybrid characters were tested by chromosome counting, isozyme analysis and comparison of morphological characteristics (Figs.2-4). About 32% of the regenerates showed hybrid character. Leaf morphological modifications were found in 3 hybrids, i.e., H23, H25 and H27. After backcrossing with N. rustica, alterations in flower color and leaf shape occurred in the somatic hybrid H23 (Fig.5). These results demonstrate that the hybrids formed under microgravity condition could regenerate fertile plants.

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[空间电融合产生的原生质体的烟草再生植株分析[更正]]。
在中国 "深空四号 "飞船进行的为期 7 天的太空飞行中,将烟草叶绿体中叶原生质体与同属植物(N. tabacum cv. 'Gexin No.1')的空泡原生质体进行了电融合。着陆后,细胞开始分裂并形成微茧(图 1)。与对照培养物相比,飞行样本的接种效率更高,但小植株的再生频率比对照降低了约 20%(表 1)。通过染色体计数、同工酶分析和形态特征比较(图 2-4)检验了杂交特征。约 32% 的再生植株表现出杂交特性。在 3 个杂交种(即 H23、H25 和 H27)中发现叶片形态发生了改变。与 N. rustica 回交后,体细胞杂交种 H23 的花色和叶形发生了变化(图 5)。这些结果表明,在微重力条件下形成的杂交种可以再生可育植株。
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