观点：朝着预测性随机设计方向对生物系统中的噪声进行工程调控。

Perspective: Engineering noise in biological systems towards predictive stochastic design.

作者信息

Dar Roy D, Weiss Ron

出版信息

APL Bioeng. 2018 May 7;2(2):020901. doi: 10.1063/1.5025033. eCollection 2018 Jun.

DOI:10.1063/1.5025033

PMID:31069294

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6481707/

Abstract

Significant progress has been made towards engineering both single-cell and multi-cellular systems through a combination of synthetic and systems biology, nanobiotechnology, pharmaceutical science, and computational approaches. However, our ability to engineer systems that begin to approach the complexity of natural pathways is severely limited by important challenges, e.g. due to noise, or the fluctuations in gene expression and molecular species at multiple scales (e.g. both intra- and inter-cellular fluctuations). This barrier to engineering requires that biological noise be recognized as a design element with fundamentals that can be actively controlled. Here we highlight studies of an emerging discipline that collectively strives to engineer noise towards predictive stochastic design using interdisciplinary approaches at multiple-scales in diverse living systems.

摘要

通过合成生物学与系统生物学、纳米生物技术、药物科学及计算方法相结合，在构建单细胞和多细胞系统方面已取得显著进展。然而，我们构建接近自然通路复杂性的系统的能力受到重大挑战的严重限制，例如由于噪声，或基因表达及多尺度分子种类的波动（如细胞内和细胞间波动）。工程学面临的这一障碍要求将生物噪声视为一种具有可积极控制的基本原理的设计元素。在此，我们重点介绍一门新兴学科的研究，该学科致力于通过跨学科方法在不同生命系统的多尺度上对噪声进行工程设计，以实现可预测的随机设计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0d01/6481707/08356776f674/ABPID9-000002-020901_1-g001.jpg

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观点：朝着预测性随机设计方向对生物系统中的噪声进行工程调控。

Perspective: Engineering noise in biological systems towards predictive stochastic design.

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