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Nonlinear Control Systems ECSE-6420

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1 Nonlinear Control Systems ECSE-6420
Spring 2009 Lecture 2: 20 January 2009

2 Models and equilibrium points
Consider a dynamical system described by: Special cases: F(x,t)  unforced dynamics F(x)  autonomous Equilibrium points/set satisfies F(x)=0. state equation output equation

3 Tunnel diode

4 Tunnel diode I V

5 Tunnel diode V E/R time

6 Tunnel diode V E/R time

7 Van der Pol oscillator

8 Van der Pol oscillator

9 Predator – Prey model

10 Binary chemical reactions
A + B AB A + B AB

11 Central dogma of biology

12 Network of genes Transcription Translation Promoter sites RNAp
Inhibition mRNA mRNA Translation RNAp Activation Protein 2 Protein 1 Ribosomes

13 Effective gene-gene network
auto-activation Gene auto-inhibition Gene Genes regulate each other by proxy Gene Protein Protein Protein Protein Protein First, explain about effective gene-gene network. Gene activation inhibition

14 Effective gene-gene network
activation inhibition Brazhnik, de la Fuente, and Mendes, Trends in Biotechnology 20, , 2002

15 Models for gene regulation

16 Repressilator simulation

17 Engineering a genetic oscillator
Scientists/bioengineers have been able to build functional synthetic genetic circuits, such as oscillators. Bottom left:compare to oscillator in electr.engr. Pictures of gfp on the next slide. Michael B. Elowitz and Stanislas Leibler Nature 403, , 2000

18 Green fluorescent protein
Excitation of gfp by photons

19 Toggle switch

20 Genetic toggle switch Another celebrated design of synthetic network, toggle switch. Function: switch, memory. Can be coupled to a biosensor to enhance detection.

21 Biological phenomenology
lac Z lac Y lac A lac I mRNA mRNA b galactosidase repressor The lac operon is under “negative” control (lac repressor, LacI) and “positive” control (CAP or CAMP receptor protein - CRP) The ‘original’ lac network permease allolactose external lactose Internal lactose by: Vijay Kumar

22 Biological phenomenology
lac Z lac Y lac A lac I mRNA mRNA B M b galactosidase repressor The lac operon is under “negative” control (lac repressor, LacI) and “positive” control (CAP or CAMP receptor protein - CRP) The ‘original’ lac network P permease E Internal TMG external TMG Internal TMG T by: Vijay Kumar

23 Biochemical reactions
Yildirim & Mackey, Biophys J, 2003.

24 Two stables states mRNA concentration High state Low state External TMG concentration Two modes of equilibria, low concentration (uninduced) and high concentration (induced).

25 Bistability in nature: E. coli
Bacteria exploit bistability in adaptation!

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