Mintu Nandi, Sudip Chattopadhyay, Somshubhro Bandyopadhyay, Suman K Banik
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引用次数: 0
Abstract
Signal propagation in biochemical networks is characterized by the inherent randomness in gene expression and fluctuations of the environmental components, commonly known as intrinsic and extrinsic noise, respectively. We present a theoretical framework for noise propagation in a generic two-step cascade (S→X→Y) regarding intrinsic and extrinsic noise. We identify different channels of noise transmission that regulate the individual and the overall noise properties of each component. Our analysis shows that the intrinsic noise of S alleviates the general noise and information transmission capacity along the cascade. On the other hand, the intrinsic noise of X and Y acts as a bottleneck of information transmission. We also show a hierarchical relationship among the intrinsic noise levels of S, X, and Y, with S exhibiting the highest level of intrinsic noise, followed by X and then Y. This hierarchy is preserved within the two-step cascade, facilitating the highest information transmission from S to Y via X.
生化网络中信号传播的特点是基因表达的内在随机性和环境成分的波动性,通常分别称为内在和外在噪声。我们提出了一个关于内在和外在噪声的通用两步级联(S→X→Y)中噪声传播的理论框架。我们确定了不同的噪声传播渠道,这些渠道可调节每个组件的单个和整体噪声特性。我们的分析表明,S 的固有噪声可减轻级联的总体噪声和信息传输能力。另一方面,X 和 Y 的固有噪声则成为信息传输的瓶颈。我们还显示了 S、X 和 Y 的固有噪声水平之间的等级关系,其中 S 的固有噪声水平最高,其次是 X,然后是 Y。
期刊介绍:
Chaos: An Interdisciplinary Journal of Nonlinear Science is a peer-reviewed journal devoted to increasing the understanding of nonlinear phenomena and describing the manifestations in a manner comprehensible to researchers from a broad spectrum of disciplines.
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