Optimizing Tile Concentrations to Minimize Errors and Time for DNA Tile Self-assembly Systems

机译：优化瓷砖浓度，以最小化DNA瓦片自组装系统的误差和时间

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DNA tile self-assembly has emerged as a rich and promising primitive for nano-technology. This paper studies the problems of minimizing assembly time and error rate by changing the tile concentrations because changing the tile concentrations is easy to implement in actual lab experiments. We prove that setting the concentration of tile T_i proportional to the square root of N_i where N_i is the number of times T_i appears outside the seed structure in the final assembled shape minimizes the rate of growth errors for rectilinear tile systems. We also show that the same concentrations minimize the expected assembly time for a feasible class of tile systems. Moreover, for general tile systems, given tile concentrations, we can approximate the expected assembly time with high accuracy and probability by running only a polynomial number of simulations in the size of the target shape.

机译：DNA瓷砖自我组装已成为纳米技术的丰富和有希望的原始原始。本文研究了通过改变瓷砖浓度来最小化装配时间和错误率的问题，因为在实际的实验室实验中易于实现瓷砖浓度易于实现。我们证明将图块T_I的浓度设定为与N_I的平方根成比例，其中N_I是T_I在最终组装形状的种子结构外出现的次数T_I最小化直线瓦片系统的生长误差速率。我们还表明，相同的浓度最小化了可行的瓷砖系统的预期装配时间。此外，对于通用瓦片系统，给定瓷砖浓度，我们可以通过仅在目标形状的大小的大小的模拟中运行高精度和概率来近似预期的组装时间。

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《Interntional Conference on DNA Computing and Molecular Programming》|2011年||共12页
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Ho-Lin Chen; Ming-Yang Kao;
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1. Error Tolerant DNA Self-Assembly Using ( $hbox{2}k-hbox{1}$)$times$( $hbox{2}k-hbox{1}$) Snake Tile S [J] . Ma* X., Huang J., Lombardi F. IEEE transactions on nanobioscience . 2008,第1期

机译：使用（$ hbox {2} k-hbox {1} $）$ times $（$ hbox {2} k-hbox {1} $）Snake Tile S进行容错DNA自组装
2. Multiple Error Detection in DNA Self-Assembly Using Coded Tiles [J] . Hashempour M., Arani Z. M., Lombardi F. Circuits and Systems II: Express Briefs, IEEE Transactions on . 2010,第9期

机译：DNA自组装中使用编码图块的多重错误检测
3. Error suppression mechanisms for DNA tile self-assembly and their simulation [J] . Kenichi Fujibayashi, David Yu Zhang, Erik Winfree, Natural Computing . 2009,第3期

机译：DNA瓦片自组装的错误抑制机制及其仿真
4. Optimizing Tile Concentrations to Minimize Errors and Time for DNA Tile Self-assembly Systems [C] . Ho-Lin Chen, Ming-Yang Kao Interntional Conference on DNA Computing and Molecular Programming . 2011

机译：优化瓷砖浓度，以最小化DNA瓦片自组装系统的误差和时间
5. Control and Optimization of Self-assembly Systems: Application to Structural Design of DNA Tiles and Colloidal Self-assembly [D] . Gao, Yu. 2017

机译：自组装系统的控制和优化：在DNA瓷砖和胶体自组装的结构设计中的应用
6. Hierarchical Self Assembly of Patterns from the Robinson Tilings: DNA Tile Design in an Enhanced Tile Assembly Model [O] . Jennifer E. Padilla, Wenyan Liu, Nadrian C. Seeman -1

机译：来自Robinson Tilings的模式的分层自组装：增强瓷砖装配模型中的DNA瓷砖设计
7. Optimizing Tile Concentrations to Minimize Errors and Time for DNA Tile Self-Assembly Systems [O] . Chen, Ho-Lin, Kao, Ming-Yang 2012

机译：优化瓷砖浓度，最大限度地减少DNa瓷砖的错误和时间自组装系统

Optimizing Tile Concentrations to Minimize Errors and Time for DNA Tile Self-assembly Systems

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