Jun 19, 2013 · Abstract: Most biological rhythms are generated by a population of cellular oscillators coupled through intercellular signaling.
Intercellular delay regulates the collective period of repressively coupled gene regulatory oscillator networks. Yongqiang Wang, Yutaka Hori, Shinji Hara ...
Based on a published gene regulatory oscillator model, we analyze the collective period of delay-coupled biological oscillators using the multivariable harmonic ...
Intercellular delay regulates the collective period of repressively coupled gene regulatory oscillator networks. IEEE Transactions on Automatic Control, In ...
Based on a published gene regulatory oscillator model, we analyze the collective period of delay-coupled biological oscillators using the multivariable harmonic ...
Intercellular Delay Regulates the Collective Period of Repressively Coupled Gene Regulatory Oscillator Networks ; Authors, Doyle, III FJ, Hori Y, Wang Y, Hara S.
(PDF) Intercellular Delay Regulates the Collective Period
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Intercellular Delay Regulates the Collective Period of Repressively Coupled Gene Regulatory Oscillator Networks by Yongqiang Wang, Yutaka Hori,
Apr 1, 2019 · Intercellular delay regulates the collective period of repressively coupled gene regulatory oscillator networks. References. Authors.
Intercellular Delay Regulates the Collective Period of Repressively Coupled Gene Regulatory Oscillator Networks. Y. Wang, Y. Hori, S. Hara, and F. J. Doyle.
Intercellular delay regulates the collective period of repressively coupled gene regulatory oscillator networks Y. Q. Wang, Y. Hori, S. Hara, F. J. Doyle ...