R. Sharma , P. Sharma , S. Kumar , S.N. Saxena , V. Khandelwal , M. Rizwan
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引用次数: 2
摘要
高温影响多种生理、生化和分子过程,包括基因表达和遗传稳定性。为了证明这一点,在37、42、47和52 °C的热休克处理10、20和30 min后,从8天大的幼苗中收获蛾豆的初生叶。在37、42和47 °C处理10 min的外植体中,愈伤组织的反应相对较早。然而,大多数热处理对再生有负面影响。一些多肽被发现在热休克处理下被上调和下调。一些蛋白质在42°和47 °C的高温下被特异性调节。两种多肽在愈伤组织蛋白谱中也被上调;然而,这与热处理后叶片外植体的蛋白质谱不同。此外,这些条带只在一个处理中发现,即在47 °C (100 kD)的20 min中发现一个条带,在47 °C (36.7 kD)的30 min中发现一个条带。这些可能是基因变化(突变)的结果。RAPD分析进一步发现,在47 °C下获得的植株产生了一个新的条带,表明热休克处理具有诱变作用。
Heat treatment affects regeneration, protein expression and genetic make-up of Vigna aconitifolia (Jacq.) Marechal
High temperature affects diverse physiological, biochemical and molecular processes including gene expression and genetic stability. To demostrate this, primary leaves of moth bean were harvested from eight days old seedlings followed by heat shock treatment at 37, 42, 47 and 52 °C for 10, 20 and 30 min. The response of tissue for callusing was comparatively early in explants treated at 37, 42 and 47 °C for 10 min. However, regeneration was negatively affected by most of the heat treatments. A few polypeptides were found to be up regulated as well as down regulated with heat shock treatments. Some proteins were specifically regulated at higher temperatures of 42° and 47 °C. Two polypeptides were also up regulated in the protein profiling of callus; however, these were different than the once observed in protein profiling of leaf explant immediately after heat treatment. Moreover, these bands were found in only one treatment each, viz. one in 20 min of 47 °C (100 kD) and another in 30 min of 47 °C (36.7 kD). These may be expected to be consequence of genetic change (mutation). RAPD analysis further revealed that plantlets obtained at 47 °C generated a novel band indicating mutagenic effect of heat shock treatment.
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