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A mathematical model for transcription factor‐activated gene expression allows clustering of promoters and detailed quantitative characterization. A mathematical.

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Presentation on theme: "A mathematical model for transcription factor‐activated gene expression allows clustering of promoters and detailed quantitative characterization. A mathematical."— Presentation transcript:

1 A mathematical model for transcription factor‐activated gene expression allows clustering of promoters and detailed quantitative characterization. A mathematical model for transcription factor‐activated gene expression allows clustering of promoters and detailed quantitative characterization. (A) A mathematical model (defined by the differential equations in Materials and methods). Promoter‐specific parameters shown in green were obtained by least‐squares global fitting to the full data set (Supplementary Figure S1D) using the Msn2‐mCherry traces as input and the YFP traces as output. Parameters shown in purple are the same for all promoters and were experimentally determined. (B) Clustering of promoters. The amplitude threshold is defined as the nuclear Msn2‐mCherry level required to reach half the Pactive level obtained at 3 μM 1‐NM‐PP1 (which corresponds to the maximal nuclear Msn2‐mCherry level) and obtained by mathematical simulations using the model in (A). The promoter activation timescale is defined as the time (min) it takes to reach half the steady‐state Pactive level at 690 nM 1‐NM‐PP1 and was also obtained from model simulations. (C–F) Illustration of how SIP18 and DCS2 respond to duration, amplitude, Msn2 AUC, and pulse number modulation. In all cases, the dots represent raw data (the maximum of the average YFP time trace under the specific conditions) and the curves (lines) were obtained from mathematical simulations using the best‐fit parameters and the model in (A). In (C), 100 nM, 275 nM, 690 nM, and 3 μM are 1‐NM‐PP1 concentrations corresponding to ca. 25, 50, 75, and 100% Msn2‐mCherry nuclear localization. In (D, E), the duration was fixed to 10, 20, 30, 40, or 50 min and the amplitude increased until 2500 AU. In (E), Msn2 AUC is defined as the time‐integrated nuclear localization, that is, the area under the curve. In (F), both the pulse duration and the pulse interval are 5 min. See Supplementary Figures S2–S5 for full comparisons of model fitting to raw data and Supplementary Table S2 for parameters. Source data for this figure are available on the online Supplementary information page. Anders S Hansen, and Erin K O'Shea Mol Syst Biol 2013;9:704 © as stated in the article, figure or figure legend

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