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Ultrasensitivity in signaling cascades revisited: Linking local and global ultrasensitivity estimations

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  • Edgar Altszyler
  • Alejandra C Ventura
  • Alejandro Colman-Lerner
  • Ariel Chernomoretz

Abstract

Ultrasensitive response motifs, capable of converting graded stimuli into binary responses, are well-conserved in signal transduction networks. Although it has been shown that a cascade arrangement of multiple ultrasensitive modules can enhance the system’s ultrasensitivity, how a given combination of layers affects a cascade’s ultrasensitivity remains an open question for the general case. Here, we introduce a methodology that allows us to determine the presence of sequestration effects and to quantify the relative contribution of each module to the overall cascade’s ultrasensitivity. The proposed analysis framework provides a natural link between global and local ultrasensitivity descriptors and it is particularly well-suited to characterize and understand mathematical models used to study real biological systems. As a case study, we have considered three mathematical models introduced by O’Shaughnessy et al. to study a tunable synthetic MAPK cascade, and we show how our methodology can help modelers better understand alternative models.

Suggested Citation

  • Edgar Altszyler & Alejandra C Ventura & Alejandro Colman-Lerner & Ariel Chernomoretz, 2017. "Ultrasensitivity in signaling cascades revisited: Linking local and global ultrasensitivity estimations," PLOS ONE, Public Library of Science, vol. 12(6), pages 1-18, June.
  • Handle: RePEc:plo:pone00:0180083
    DOI: 10.1371/journal.pone.0180083
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    Cited by:

    1. Maximilian Mosbacher & Sung Sik Lee & Gilad Yaakov & Mariona Nadal-Ribelles & Eulàlia Nadal & Frank Drogen & Francesc Posas & Matthias Peter & Manfred Claassen, 2023. "Positive feedback induces switch between distributive and processive phosphorylation of Hog1," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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