@arjunrajlab The height of the peak correlates with the strength of TF binding determined by the similarity of the DNA sequence motif, which we did not test systematically for all TFs, but at least it is true in the case of CTCF https://t.co/aiIx9oAxou
@CedricFeschotte Very nice! Their statement that B2 copies are enriched with CTCF binding sites is consistent with Figure 6 from Wiehle et al. where we showed that CTCF sites act as boundaries for methylation spreading (unrelated to TADs/loops): https://t.
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
RT @TeifLab: Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nu…
Tomorrow (18th March) at 12.30 GMT is my talk in the University of Exeter (@UoEBiosciences) about these three papers (CTCF, nucleosomes & heterochromatin nanodomains): https://t.co/aiIx9oAxou https://t.co/hrj8ATxduP https://t.co/wysK5H1EmS DM me for M
@becky_furlong @NatureComms Happy to review in the area of nucleosome positioning (https://t.co/vc68tW6v8I), CTCF binding (https://t.co/aiIx9oAxou, https://t.co/hrj8ATxduP), TF-nucleosome interactions (https://t.co/Y5tzDCbuMa), and chromatin more generally
RT @rlebron_bioinfo: DNA methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries https://t.co/U7nDvfChs3
@CTCF_Papers This is interesting in the context of our recent report of the differences between 5hmC and 5fC in modulating CTCF binding https://t.co/QNRk3XbV8J https://t.co/jKKhUmEzJ9
DNA methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries https://t.co/U7nDvfChs3
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @CTCF_Papers: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries. https://t.co/ec6bUSkVAd
RT @loops_enhancers: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries https://t.co/mihajkqoKV
DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries https://t.co/mihajkqoKV
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @loops_enhancers: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [RESEARCH] https://t.co/mihaj…
RT @loops_enhancers: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [RESEARCH] https://t.co/mihaj…
RT @loops_enhancers: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [RESEARCH] https://t.co/mihaj…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @TeifLab: Happy to present our @genomeresearch cover. It is not just cool art but also explains a new concept of how CTCF sets boundarie…
RT @loops_enhancers: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [RESEARCH] https://t.co/mihaj…
DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [RESEARCH] https://t.co/mihajkqoKV
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @TeifLab: Happy to present our @genomeresearch cover. It is not just cool art but also explains a new concept of how CTCF sets boundarie…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries https://t.co/GwluUiCwaP
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @rnomics: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries https://t.co/PxD29V8psK https://t.co…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
Esto es hermoso 😍😍
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries https://t.co/PxD29V8psK https://t.co/Wllkd5hEeI An international, peer-reviewed genome sciences journal featuring outstanding original research that offers novel ins
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @TeifLab: Happy to present our @genomeresearch cover. It is not just cool art but also explains a new concept of how CTCF sets boundarie…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @TeifLab: Happy to present our @genomeresearch cover. It is not just cool art but also explains a new concept of how CTCF sets boundarie…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @TeifLab: Happy to present our @genomeresearch cover. It is not just cool art but also explains a new concept of how CTCF sets boundarie…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @DNA_RNA_Uni: Nice cover 😍 and also great open access paper here: https://t.co/vAElb4TBn8 (May 2019) DNA (de)methylation in embryonic…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
New from @TeifLab (and with an incredible cover to go with it!), using Tet1+ Tet2 double KO embryonic stem cells to study impact of DNA demethylation states on CTCF binding and #chromatin structure in early development! https://t.co/d0ivhI25aN
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @generegulation: Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in…
RT @DNA_RNA_Uni: Nice cover 😍 and also great open access paper here: https://t.co/vAElb4TBn8 (May 2019) DNA (de)methylation in embryonic…
Happy to present our @genomeresearch cover. It is not just cool art but also explains a new concept of how CTCF sets boundaries for 1D spreading of DNA methylation. The swimming pool with many lanes is our new analogy of chromatin that complements spaghett
Our first journal cover in @genomeresearch :-) Cartoon characters in the swimming pool represent molecules involved in the coordinated changes of DNA (de)methylation, nucleosome positioning, and chromatin binding described in our article in this issue http
Nice cover 😍 and also great open access paper here: https://t.co/vAElb4TBn8 (May 2019) DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries @genomeresearch #science #cover #genome #research https://t.co/9JUPmfIZXO
RT @TeifLab: Happy to present our new #openaccess paper on which we've been working for almost 4 years! This is our collaboration with Achi…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
DNA (de)methylation in embryonic stem cells controls CTCF-dependent #chromatin boundaries https://t.co/5GfLV10n9I
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries. https://t.co/iiym867KZr
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @Nucleosome_Bot: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries. https://t.co/fqLsCRUcMs
DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries. https://t.co/ec6bUSkVAd
DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries. https://t.co/fqLsCRUcMs
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @TeifLab: Happy to present our new #openaccess paper on which we've been working for almost 4 years! This is our collaboration with Achi…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @TeifLab: Happy to present our new #openaccess paper on which we've been working for almost 4 years! This is our collaboration with Achi…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…
RT @TeifLab: Happy to present our new #openaccess paper on which we've been working for almost 4 years! This is our collaboration with Achi…
RT @generegulation: DNA (de)methylation in embryonic stem cells controls CTCF-dependent chromatin boundaries [Laura Wiehle @geejaytee Güent…