Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byAshlie Pitts Modified over 8 years ago

Similar presentations

Presentation on theme: "Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E."— Presentation transcript:

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 80, 051925 (2009)

2 Outline  Preliminary  Introduction  Model of Gene Transcription  Experimental Results  Conclusion

3 Preliminary  Central dogma of molecular biology

4 Preliminary DNA->RNA  Gene Transcription: DNA->RNA Initiation Elongation Termination

5 Introduction  Regulation of Gene expression  DNA-binding Protein may facilitate or suppress the Transcription initiation

6 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

7 Model of Gene Transcription  Conventional Scheme:

8 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 :

9 Model of Gene Transcription  Conventional Scheme + Diffusion:

10 Model of Gene Transcription  Conventional Scheme + Diffusion:  probabilities of P ⋆ 1, P * 1, P * 2, P ⋆ 2 state: Steady-state

11 Model of Gene Transcription  Conventional Scheme + Diffusion:  Transcription Rate :  With saturation Transcription rate:

12 Model of Gene Transcription  Conventional Scheme + Diffusion:  Transcription Rate : 

13 Model of Gene Transcription  Transcription Burst  The probability that RNAP produces n RNA after association is given by:

14 Model of Gene Transcription

15 Experimental Results burst Diffusion Without Diffusion

16 Experimental Results

17 diffusion jumps rate  = 100 s -1

18 Experimental Results diffusion jumps rate  = 200 s -1

19 Experimental Results diffusion jumps rate  = 500 s -1

20 Experimental Results?

21 Conclusion  Analyze the end of transcription cycle.  Transcriptional burst might occur without regulation of transcription by DNA-binding protein.

Download ppt "Model of gene transcription including the return of a RNA polymerase to the beginning of a transcriptional cycle Vladimir P. Zhdanov* PHYSICAL REVIEW E."

Similar presentations

Martin John Bishop UK HGMP Resource Centre Hinxton Cambridge CB10 1 SB

Martin John Bishop UK HGMP Resource Centre Hinxton Cambridge CB10 1 SB
©1998 Timothy G. Standish Hebrews 1:1-2 1God, who at sundry times and in divers manners spake in time past unto the fathers by the prophets, 2Hath in these.

©1998 Timothy G. Standish Hebrews 1:1-2 1God, who at sundry times and in divers manners spake in time past unto the fathers by the prophets, 2Hath in these.
How Cell Work - Introduction of Molecular Biology.

How Cell Work - Introduction of Molecular Biology.
20,000 GENES IN HUMAN GENOME; WHAT WOULD HAPPEN IF ALL THESE GENES WERE EXPRESSED IN EVERY CELL IN YOUR BODY? WHAT WOULD HAPPEN IF THEY WERE EXPRESSED.

20,000 GENES IN HUMAN GENOME; WHAT WOULD HAPPEN IF ALL THESE GENES WERE EXPRESSED IN EVERY CELL IN YOUR BODY? WHAT WOULD HAPPEN IF THEY WERE EXPRESSED.
Cell Division, Genetics, Molecular Biology

Cell Division, Genetics, Molecular Biology
Cell Division, Genetics, Molecular Biology

Cell Division, Genetics, Molecular Biology
From gene to protein. DNA:nucleotides are the monomers Proteins: amino acids are the monomers DNA:in the nucleus Proteins:synthesized in cytoplasm.

From gene to protein. DNA:nucleotides are the monomers Proteins: amino acids are the monomers DNA:in the nucleus Proteins:synthesized in cytoplasm.
FROM GENE TO PROTEIN: TRANSCRIPTION & RNA PROCESSING Chapter 17.

FROM GENE TO PROTEIN: TRANSCRIPTION & RNA PROCESSING Chapter 17.
Express yourself That darn ribosome Mighty Mighty Proteins Mutants RNA to the Rescue 500 400 300 200 100 200 300 400 500 100 200 300 400 500 100 200 300.

Express yourself That darn ribosome Mighty Mighty Proteins Mutants RNA to the Rescue
Virginia iGEM Workshop #1 High School Education Series.

Virginia iGEM Workshop #1 High School Education Series.
Microbial Genetics: DNA and RNA What chemical carries the genetic instructions in cells, and how is this chemical reproduced? How is this chemical used.

Microbial Genetics: DNA and RNA What chemical carries the genetic instructions in cells, and how is this chemical reproduced? How is this chemical used.
Chapter 13.2 (Pgs ): Ribosomes and Protein Synthesis

Chapter 13.2 (Pgs ): Ribosomes and Protein Synthesis
NAi_transcription_vo1-lg.mov.

NAi_transcription_vo1-lg.mov.
CENTRAL DOGMA OF BIOLOGY. Transcription & Translation How do we make sense of the DNA message? Genotype to Phenotype.

CENTRAL DOGMA OF BIOLOGY. Transcription & Translation How do we make sense of the DNA message? Genotype to Phenotype.
Chapter 13.1 and 13.2 RNA, Ribosomes, and Protein Synthesis

Chapter 13.1 and 13.2 RNA, Ribosomes, and Protein Synthesis
RNA and Protein Synthesis

RNA and Protein Synthesis
Chapter 10: Molecular Biology of Gene Expression Jones and Bartlett Publishers © 2005.

Chapter 10: Molecular Biology of Gene Expression Jones and Bartlett Publishers © 2005.
8.4 Transcription KEY CONCEPT Transcription converts a gene into a single-stranded RNA molecule.

8.4 Transcription KEY CONCEPT Transcription converts a gene into a single-stranded RNA molecule.
Central Dogma DNA  RNA  Protein. …..Which leads to  Traits.

Central Dogma DNA  RNA  Protein. …..Which leads to  Traits.
Introduction to Chemical Kinetics and Computational Modeling Hana El-Samad Byers Hall (QB3), Rm 403D.

Introduction to Chemical Kinetics and Computational Modeling Hana El-Samad Byers Hall (QB3), Rm 403D.

Similar presentations

Ads by Google