CircuitRobustness to Temperature in a Feedforward Loop

[1]  Eduardo D. Sontag,et al.  Adaptation and regulation with signal detection implies internal model , 2003, Syst. Control. Lett..

[2]  S. Shen-Orr,et al.  Network motifs in the transcriptional regulation network of Escherichia coli , 2002, Nature Genetics.

[3]  Bruce A. Francis,et al.  Feedback Control Theory , 1992 .

[4]  Eduardo Sontag,et al.  Fold-change detection and scalar symmetry of sensory input fields , 2010, Proceedings of the National Academy of Sciences.

[5]  M. Bennett,et al.  A fast, robust, and tunable synthetic gene oscillator , 2008, Nature.

[6]  S. Leibler,et al.  Robustness in simple biochemical networks , 1997, Nature.

[7]  T. Kondo,et al.  Reconstitution of Circadian Oscillation of Cyanobacterial KaiC Phosphorylation in Vitro , 2005, Science.

[8]  U. Alon,et al.  The incoherent feedforward loop can provide fold-change detection in gene regulation. , 2009, Molecular cell.

[9]  J. Doyle,et al.  Robust perfect adaptation in bacterial chemotaxis through integral feedback control. , 2000, Proceedings of the National Academy of Sciences of the United States of America.

[10]  V. Noireaux,et al.  An E. coli cell-free expression toolbox: application to synthetic gene circuits and artificial cells. , 2012, ACS synthetic biology.

[11]  S. Mangan,et al.  Structure and function of the feed-forward loop network motif , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[12]  Nikita Vladimirov,et al.  Thermal Robustness of Signaling in Bacterial Chemotaxis , 2011, Cell.

[13]  A. Arkin,et al.  Contextualizing context for synthetic biology – identifying causes of failure of synthetic biological systems , 2012, Biotechnology journal.

[14]  W. Lim,et al.  Defining Network Topologies that Can Achieve Biochemical Adaptation , 2009, Cell.

[15]  Katherine C. Chen,et al.  Sniffers, buzzers, toggles and blinkers: dynamics of regulatory and signaling pathways in the cell. , 2003, Current opinion in cell biology.

[16]  Shin Yamazaki,et al.  Mammalian Peripheral Circadian Oscillators Are Temperature Compensated , 2008, Journal of biological rhythms.