DNA junction structure stabilized by molecular crowding conditions.

Daisuke Miyoshi, Sanjukta Muhuri, Kenta Mimura, Naoki Sugimoto
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引用次数: 2

Abstract

We examined the effects of molecular crowding conditions on the structures and thermodynamics of three-way junctions (TWJs) of DNA. To explore the crowding effects on the junction point, we further evaluated the number of water molecules associated with the whole TWJ as well as the individual arms. It was found that the number of water molecules taken up by the whole TWJ was significantly smaller than the sum of the individual arms. These results clearly show the dehydration from the junction point of the TWJ structure. Therefore, molecular crowding should be favourable for the junction point of TWJ structure and unfavourable for the duplex structure. From these results, it can be concluded that a cell-mimicking molecular crowding condition in which the activity of water decreases and hydration becomes less favourable, might facilitate the formation of junction structures in comparison with duplexes.

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分子拥挤条件下的DNA结结构稳定。
研究了分子拥挤条件对DNA三通结(TWJs)结构和热力学的影响。为了探索拥挤对结合点的影响,我们进一步评估了整个TWJ和单个臂相关的水分子数量。结果发现,整个TWJ所吸收的水分子数量明显小于单个臂的总和。这些结果清楚地显示了TWJ结构结合点的脱水。因此,分子拥挤对TWJ结构的结合点有利,对双相结构不利。从这些结果可以得出结论,在细胞模拟的分子拥挤条件下,水的活性降低,水合作用变得不那么有利,与双链化合物相比,可能促进结结构的形成。
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