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CALTECH APH 161 - Physical Biology of the Cell

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BE/APh161 – Physical Biology of the Cell!Rob Phillips Applied Physics and Bioengineering California Institute of TechnologyConfronting theory and experiment: a simple case!Vilar and Leibler (2003) Bintu et al. (2005) Oehler et al. (1994) Becker et al. (2005) € fold change = (1+RNe−βΔε)−1Counting messenger RNAs in cells!Golding et al. ‘05 Zenklusen et al. ‘08 • Fixed cells • Live cellsIdo Golding Information Processing in Living Cells:"Beyond First Approximations!Caltech 11/2008 Department of PhysicsOn the usefulness of models !"It should be remembered that just as the Declaration of Independence promises the pursuit of happiness rather than happiness itself, so the iterative scientific model building process offers only the pursuit of the perfect model.! For even when we feel we have carried the model building process to a conclusion, some new initiative may make further improvement possible.! Fortunately to be useful a model does not have to be perfect." George BoxRna distribution in yeast!Zenklusen et al. ‘08mRNA production in E.coli!Golding et al. ‘05mRNA production happens in bursts!The Poisson distribution!people/unit area Probability Histogram Poisson What is the distribution of people per square? (thanks to Al Sanchez and Jane Kondev)Independent singles: Poisson distribution of people Valentine's Day: Poisson distribution of couples Interactions can change the distribution!Not poisson!Zenklusen et al. ‘08mRNA production occurs in bursts!What is the origin of transcriptional bursts?Two-state promoter!Master equation for a two state promoter!Prediction: For the scaling to hold, koff, not kon, must be the rate that changes with induction . At full induction • kon = 1/(6min) • koff = 1/(36 min) • r = 1/(2.5 min} • °!= 1/(72 min) Two-state promoter!Stochastic model of transcription!Kepler and Elston ‘02 Generalize to arbitrary number of promoter states with different transcription rates.Phenotypic consequences of noise!Maamar, Raj, and Dubnau ‘07 Mettetal and van Oudernaaden ‘07 High noise Low noise Amount of noise in expression of a single gene determines the number of competent cells in a population.Synthetic Genetic Switch !Collins et al. - see course websiteStable Solutions !Phase Portrait for the Switch !Synthetic Genetic Switch !Collins et al. - see course websitea, Snapshots of phase-contrast image showing cell F and its progeny and b, related bioluminescence image at different times t (given in days, a 24 h period of time) from the beginning of the measurement. Pixels in the bioluminescence images were binned 3 times 3 (pseudo-colour, where red is high signal intensity and blue is low signal intensity). Scale bar, 5 microm. c, The size of the cell F and all its progeny as a function of time measured from the phase-contrast images (non-binned pixels). The arrows point to the time where the snapshots in (a) and (b) were taken. d, The total number of pixels occupied by F and its all progeny versus time (black line) plotted in a logarithmic scale. The red line is the corresponding exponential growth fit: total size (t) = initial size times 2t/tau with tau = 23.04 plusminus 0.17 h. e, Density of bioluminescence for the same cell and all its progeny versus time. f, The average density of bioluminescence versus time (black line) and its fit (red line) with: left fenced(t)right fence = B + A cos(2pit/T0 + phi0). The resulting period is T0 = 25.4 plusminus 0.12 h, the initial phase phi0 = 52 plusminus 2.8°, the amplitude A = 12.9 plusminus 0.3 counts per pixel and the offset B = 14.8 plusminus 0.3 counts per pixel. (Mihalcescu, Hsing, Leibler, Nature 2004)a, Upper part shows the phase-contrast snapshots of colonies A and B; lower part shows the related bioluminescence images. Scale bar, 5 microm. b, Normalized density of bioluminescence of individual cyanobacterial cells. Each colour corresponds to the progeny from one of the initial cells: red line, colony A; black line, colony B. c, Phase of individual oscillators as a function of their original colony and their evolution in time: red square, colony A; asterisk, colony B. An example of the exact location for three of the cells tracked and their phase evolution is shown, marked by the corresponding coloured lines: magenta, orange and purple. The change of the phase in time was quantified by a fit over a different period of time: the first 2 days (days 5–7), the entire time (days 5–10.5) and the last 2 days of the measurement (days 8.5–10.5). The fit function is left fenced(t)right fence = B + A cos(2pit/T0 + phi), with T0 = 24.78 h. The line segments in each graph, with corresponding colours, represent the resulting vector Pres = sumPi, where Pi is the unit vector whose orientation is the measured angle of the same colony cell i. (Mihalcescu, Hsing, Leibler, Nature 2004)(Elowitz, Leibler, Nature 2002)Coupling of Genes in Networks


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CALTECH APH 161 - Physical Biology of the Cell

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Lecture 2

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