DNA methylation and transcription: Difference between revisions
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'''DNA methylation affects TF binding and transcription'''<br> |
''' == DNA methylation affects TF binding and transcription == '''<br> |
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Introduction: It's commonly accepted that DNA methylation of a promoter repress transcription of this gene in normal tissues. Recently, a class of actively expressed genes having relatively methylated promoters has been discovered. <br> |
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Our purposes: |
'''Our purposes''': |
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* To explore the idea that DNA methylation affects TFBS, preventing some TF from binding to DNA, and therefore represses transcription. |
* To explore the idea that DNA methylation affects TFBS, preventing some TF from binding to DNA, and therefore represses transcription.<br> |
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* To select TFs most likely sensitive to DNA methylation (first, in human, mb in other spicies later)<br> |
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'''We plan to do''': |
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| ⚫ | 1. Functional analysis<br>- Predict TFBS (TFBS clusters?) in promoters<br>- Estimate methylation level of each TFBS (may be, only core positions of TFBS)<br>- Calculate correlation between level of methylation and expression from given promoter for each TFBS<br>- Select lists of TFs with highest and lowest cc<br>2. Evolutionary analysis<br>- Predict TFBS (TFBS clusters?) in promoters<br>- For whole set of given TF's binding sites estimate probability of C>T SNP (in CG or in CNG) and of C>T interlineage substitution |
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'''We have data''': |
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Tissues:<br>frontal cortex (genome-wide MeDIP-seq) - frontal lobe (CAGE)<br> |
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'''We seek for data''': |
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'''Collaboration''': |
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Collaborators are very welcome. If you have any ideas how to improve the research, please contact me directly or add your suggestion here. <br> |
Collaborators are very welcome. If you have any ideas how to improve the research, please contact me directly or add your suggestion here. <br> |
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Revision as of 16:21, 3 March 2011
== DNA methylation affects TF binding and transcription ==
Introduction: It's commonly accepted that DNA methylation of a promoter repress transcription of this gene in normal tissues. Recently, a class of actively expressed genes having relatively methylated promoters has been discovered.
Our purposes:
- To explore the idea that DNA methylation affects TFBS, preventing some TF from binding to DNA, and therefore represses transcription.
- To select TFs most likely sensitive to DNA methylation (first, in human, mb in other spicies later)
We plan to do:
1. Functional analysis
- Predict TFBS (TFBS clusters?) in promoters
- Estimate methylation level of each TFBS (may be, only core positions of TFBS)
- Calculate correlation between level of methylation and expression from given promoter for each TFBS
- Select lists of TFs with highest and lowest cc
2. Evolutionary analysis
- Predict TFBS (TFBS clusters?) in promoters
- For whole set of given TF's binding sites estimate probability of C>T SNP (in CG or in CNG) and of C>T interlineage substitution
We have data:
Primary cells:
peripheral blood mononuclear cells (genome-wide BS-seq + CAGE)
Tissues:
frontal cortex (genome-wide MeDIP-seq) - frontal lobe (CAGE)
We seek for data: DNA methyaltion with single bp resolution (genome-wide or with coverage of not less when 1% of genome) in primary cells, tissues or cell lines represented in FANTOM5
Collaboration:
Piotr (you are invited to add your plans of study on influence of TF on methylation)
== TF binding affects DNA methylation ==
Collaborators are very welcome. If you have any ideas how to improve the research, please contact me directly or add your suggestion here.
