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An approach to generate DNA polyhedral links of one/two strands.
Journal of Molecular Graphics and Modelling ( IF 2.9 ) Pub Date : 2020-02-08 , DOI: 10.1016/j.jmgm.2020.107565
Jinwei Duan 1 , Lin Cui 1 , Ying Wang 1 , Huayu Zheng 1
Affiliation  

Scientists can change programmed DNA strands to adjust edge length and vertex junction to control the 3D structures with precision space signatures. The number of strands plays an important role in sequence design, synthesis and constitutive property. However, the majority of DNA branched polyhedra comprise a number of single strands. Therefore, it is crucial to make the number of strands to be calculated as less as possible. DNA polyhedral links are regarded as ideal templates of DNA polyhedra. In this research, we introduce odd-half turn edges and pseudo-surrounded vertexes to build DNA polyhedral links and reduce the strands number of them to one or two. Compare to the known strategies, our strategy is well established to generate the DNA polyhedral links of one/two DNA strands easier and faster. All Platonic, pyramid and prism polyhedral links may provide candidates for DNA polyhedra synthesis.



中文翻译:

一种生成一条/两条链的DNA多面体链接的方法。

科学家可以更改已编程的DNA链,以调整边缘长度和顶点连接,以精确的空间特征控制3D结构。链的数目在序列设计,合成和组成性质中起重要作用。但是,大多数DNA支链多面体包含许多单链。因此,至关重要的是使要计算的股数尽可能少。DNA多面体链接被认为是DNA多面体的理想模板。在这项研究中,我们引入了奇数个转弯边和伪环绕的顶点,以构建DNA多面体链接,并将它们的链数减少到一两个。与已知策略相比,我们的策略已经确立,可以更轻松,更快地生成一条/两条DNA链的DNA多面体链接。所有柏拉图式的

更新日期:2020-02-08
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