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Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E 80, 051925 (2009)
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Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Dec 13, 2015

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Page 1: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of gene transcription including the return of a RNA polymeraseto the beginning of a transcriptional cycle

Vladimir P. Zhdanov*PHYSICAL REVIEW E 80, 051925 (2009)

Page 2: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Outline Preliminary Introduction Model of Gene Transcription Experimental Results Conclusion

Page 3: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Preliminary Central dogma of molecular biology

Page 4: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Preliminary Gene Transcription: DNA->RNA

Initiation

Elongation

Termination

http://upload.wikimedia.org/wikipedia/commons/9/91/Simple_transcription_initiation1.svg
http://upload.wikimedia.org/wikipedia/commons/2/21/Simple_transcription_elongation1.svg
http://upload.wikimedia.org/wikipedia/commons/e/e1/Simple_transcription_termination1.svg
Page 5: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Introduction Regulation of Gene expression

DNA-binding Protein may facilitate or suppress the Transcription initiation

Page 6: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Introduction What happens at end of transcriptional

cycle? RNAP diffuse along DNA RNAP disassociate from DNA RNAP start Transcription cycle again

A kinetic model of gene transcription Include the return of RNAP to a transcription

cycle Show transcriptional burst

Page 7: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Conventional Scheme:

Page 8: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Conventional Scheme: probability that the gene is in the P⋆

1 state:

Steady-state probability that the gene is in the P⋆

1 state:

Transcription Rate :

Page 9: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Conventional Scheme + Diffusion:

Page 10: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Conventional Scheme + Diffusion: probabilities of P⋆

1 , P*1, P*

2, P⋆2 state:

Steady-state

Page 11: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Conventional Scheme + Diffusion: Transcription Rate :

With saturation Transcription rate:

Page 12: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Conventional Scheme + Diffusion: Transcription Rate :

Page 13: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Transcription Burst The probability that RNAP produces n RNA after

association is given by:

Page 14: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Model of Gene Transcription

Page 15: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Experimental Results

burst

Diffusion

Without Diffusion

Page 16: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Experimental Results

Page 17: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Experimental Results

diffusion jumps rate = 100 s-1

Page 18: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Experimental Results

diffusion jumps rate = 200 s-1

Page 19: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Experimental Results

diffusion jumps rate = 500 s-1

Page 20: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Experimental Results?

Page 21: Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E.

Conclusion Analyze the end of transcription cycle. Transcriptional burst might occur without

regulation of transcription by DNA-binding protein.


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