Presentation is loading. Please wait.

Presentation is loading. Please wait.

Case study reveals transcription factor (TF) modules, dynamic TF binding and an expanded role for cell cycle regulators Mapping the DNA Damage Response.

Similar presentations


Presentation on theme: "Case study reveals transcription factor (TF) modules, dynamic TF binding and an expanded role for cell cycle regulators Mapping the DNA Damage Response."— Presentation transcript:

1 Case study reveals transcription factor (TF) modules, dynamic TF binding and an expanded role for cell cycle regulators Mapping the DNA Damage Response

2 Overview Experimental factors and selection –Multiple criteria used ChIP-on-chip –Differential binding analysis Gene expression of TF-deletion mutants –Clustering analysis –Deletion-buffering analysis Data integration and pathway reconstruction

3 Overview of the approach

4 Growth phenotype in MMS: mutants that display relative growth inhibition

5 Overview of the approach

6

7 Transcription factors that regulate DNA damage response Activated regulatory network

8 Transcription factors that regulate DNA damage response TF knockout “Deletion-buffered” Activated regulatory network

9 Truncated Product Method (TPM): determine condition dependent binding

10 ChIP-chip of 30 TFs before and after DNA damage YPDMMS +/-MMS TPM

11 ChIP-chip Data Summary Workman CT, Mak HC, McCuine S, Tagne JB, Agarwal M, Ozier O, Begley TJ, Samson LD, Ideker T. A systems approach to mapping DNA damage response pathways. Science. 2006 May 19;312(5776):1054-9. TFs may regulate different genes (bind different promoters) under different conditions.

12

13 Promoter regions analysis ChIP-chip and DNA-Motif

14 TF-Knockout expression profiles: (look much like wild-type)

15 Environmental “epistasis analysis”: (deletion-buffering)

16 Deletion-buffering analysis Bayesian Score

17 Deletion-buffering examples

18 Sensitive TFs are required for a greater number of damage responsive genes

19 Integrated model (regulatory paths explaining buffered genes)

20 Integrated direct and indirect regulatory pathways (chIP-chip, prot-prot) that explain deletion- buffering relationships Workman CT, Mak HC, McCuine S, Tagne JB, Agarwal M, Ozier O, Begley TJ, Samson LD, Ideker T. A systems approach to mapping DNA damage response pathways. Science. 2006 May 19;312(5776):1054-9.

21 Summary “Sensitive” TFs control more of the DNA damage response than non-sensitive TFs Regulatory networks are highly interconnected Transcriptional regulation of important DNA damage checkpoint kinases are observed Measuring differential TF-binding is difficult

22 RNR Genes are repressed by Rfx1p

23 Pathway reconstruction

24

25


Download ppt "Case study reveals transcription factor (TF) modules, dynamic TF binding and an expanded role for cell cycle regulators Mapping the DNA Damage Response."

Similar presentations


Ads by Google