2018
DOI: 10.1098/rsfs.2018.0039
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Intrinsic limits of information transmission in biochemical signalling motifs

Abstract: All living things have evolved to sense changes in their environment in order to respond in adaptive ways. At the cellular level, these sensing systems generally involve receptor molecules at the cell surface, which detect changes outside the cell and relay those changes to the appropriate response elements downstream. With the advent of experimental technologies that can track signalling at the single-cell level, it has become clear that many signalling systems exhibit significant levels of ‘noise,’ manifesti… Show more

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Cited by 13 publications
(10 citation statements)
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“…This may be due to inclusion of noise in a theoretical-like analysis. Common signaling motifs were found to contain 4-6 bits of information analytically, whereas the majority of biological systems transmit less than 1 bit experimentally [24, 25]. This discrepancy was speculated to be attributed to the functional necessity of real-world signaling networks and the realization of extrinsic noise in signal transduction in vivo.…”
Section: Discussionmentioning
confidence: 99%
“…This may be due to inclusion of noise in a theoretical-like analysis. Common signaling motifs were found to contain 4-6 bits of information analytically, whereas the majority of biological systems transmit less than 1 bit experimentally [24, 25]. This discrepancy was speculated to be attributed to the functional necessity of real-world signaling networks and the realization of extrinsic noise in signal transduction in vivo.…”
Section: Discussionmentioning
confidence: 99%
“…From an engineering perspective maximizing the path MI between sensor and actuator could thus define a design principle to construct cellular circuits. Information theory has been used to reveal fundamental physical limits of information transmission guiding our understanding of gene regulatory motifs as information processing units [12], [28].…”
Section: B Path Mutual Information In Cell Signalingmentioning
confidence: 99%
“…Each pathway within a biomolecular network requires input cues from the extracellular environment for onward downstream signal transduction (133)(134)(135). In the case of cancer, the biomolecular milieu constituting the tumor microenvironment (TME) acts as a niche for tumor development, metastasis, as well as therapy response (136) (Figure 1E and Table S4).…”
Section: Cellular Environment Databasesmentioning
confidence: 99%