20. You are modelling a genetic circuit shown above on Simbiology. What would the Reaction Rate property of "gfp Transcription Rxn" be if Transcription Factor X binds to the promoter to repress transcription in the circuit and it is assumed that transcription follows Hill Kinetics. Note: The Hill coefficient is n = 2; [Transcription Factor X] = [W]; ktr is the transcription constant; K is the activation/repression constant; dm is the degradation constant for mRNA a. b. C. d. e. Kktr.[W]2 [W]²+K² Ktr.K² K²+[W]² Ktr [W]²+K² Ktr [w]² Ktr [W]²+K² - dm [mRNA]

20. You are modelling a genetic circuit shown above on Simbiology. What would the Reaction Rate property of "gfp Transcription Rxn" be if Transcription Factor X binds to the promoter to repress transcription in the circuit and it is assumed that transcription follows Hill Kinetics. Note: The Hill coefficient is n = 2; [Transcription Factor X] = [W]; ktr is the transcription constant; K is the activation/repression constant; dm is the degradation constant for mRNA a. b. C. d. e. Kktr.[W]2 [W]²+K² Ktr.K² K²+[W]² Ktr [W]²+K² Ktr [w]² Ktr [W]²+K² - dm [mRNA]

Biology: The Dynamic Science (MindTap Course List)

4th Edition

ISBN:9781305389892

Author:Peter J. Russell, Paul E. Hertz, Beverly McMillan

Publisher:Peter J. Russell, Paul E. Hertz, Beverly McMillan

Chapter16: Regulation Of Gene Expression

Section: Chapter Questions

Problem 6TYK

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