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Robust spike timing in an excitable cell with delayed feedback.


ABSTRACT: The initiation and regeneration of pulsatile activity is a ubiquitous feature observed in excitable systems with delayed feedback. Here, we demonstrate this phenomenon in a real biological cell. We establish a critical role of the delay resulting from the finite propagation speed of electrical impulses in the emergence of persistent multiple-spike patterns. We predict the coexistence of a number of such patterns in a mathematical model and use a biological cell subject to dynamic clamp to confirm our predictions in a living mammalian system. Given the general nature of our mathematical model and experimental system, we believe that our results capture key hallmarks of physiological excitability that are fundamental to information processing.

SUBMITTER: Wedgwood KCA 

PROVIDER: S-EPMC7610669 | biostudies-literature |

REPOSITORIES: biostudies-literature

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