Noise control and utility:From regulatory network to spatial patterning 被引量：4

Noise control and utility:From regulatory network to spatial patterning

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摘要 Stochasticity(or noise) at cellular and molecular levels has been observed extensively as a universal feature for living systems. However, how living systems deal with noise while performing desirable biological functions remains a major mystery. Regulatory network configurations, such as their topology and timescale, are shown to be critical in attenuating noise, and noise is also found to facilitate cell fate decision. Here we review major recent findings on noise attenuation through regulatory control, the benefit of noise via noise-induced cellular plasticity during developmental patterning and summarize key principles underlying noise control. Stochasticity(or noise) at cellular and molecular levels has been observed extensively as a universal feature for living systems. However, how living systems deal with noise while performing desirable biological functions remains a major mystery. Regulatory network configurations, such as their topology and timescale, are shown to be critical in attenuating noise, and noise is also found to facilitate cell fate decision. Here we review major recent findings on noise attenuation through regulatory control, the benefit of noise via noise-induced cellular plasticity during developmental patterning and summarize key principles underlying noise control.

作者 Qing Nie Lingxia Qiao Yuchi Qiu Lei Zhang Wei Zhao

机构地区 Department of Mathematics Department of Developmental and Cell Biology Beijing International Center for Mathematical Research Center for Quantitative Biology

出处《Science China Mathematics》 SCIE CSCD 2020年第3期425-440,共16页 中国科学：数学（英文版）

基金 supported by National Natural Science Foundation of China (Grant Nos. 11861130351 and 11622102) supported by National Science Foundation of USA (Grant No. DMS1763272) the Simons Foundation (Grant No. 594598)

关键词 noise attenuation regulatory network design principle spatial patterning noise attenuation regulatory network design principle spatial patterning

分类号 Q23 [生物学—细胞生物学]

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Science China Mathematics

2020年第3期

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