RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
RT @dpanne1: Our paper 'The structural basis for cohesin–CTCF-anchored loops' is now online: https://t.co/96cpUnsMFb
RT @Marjonvanruiten: Happy to share our recent work on the interaction between cohesin and CTCF. Fantastic collaboration with the group of…
RT @ID30_MASSIF1: New pub @ID30_MASSIF1 in @nature from @dpanne1 @embl and @LeicStructBio The structural basis for cohesin–CTCF-anchored lo…
New pub @ID30_MASSIF1 in @nature from @dpanne1 @embl and @LeicStructBio The structural basis for cohesin–CTCF-anchored loops https://t.co/NpbbQgP6sL https://t.co/21HEXFQcsW
RT @Marjonvanruiten: Happy to share our recent work on the interaction between cohesin and CTCF. Fantastic collaboration with the group of…
RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
Happy to share our recent work on the interaction between cohesin and CTCF. Fantastic collaboration with the group of @dpanne1. https://t.co/J6DRMLZS9I
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
Important finding! https://t.co/yrXQTAKTiq
RT @juliusbrennecke: major
RT @dpanne1: Our paper 'The structural basis for cohesin–CTCF-anchored loops' is now online: https://t.co/96cpUnsMFb
The structural basis for cohesin–CTCF-anchored loops | Nature https://t.co/SqLQFxyvFX
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @ElphegeNoraLab: Fascinating discovery! CTCF does not merely block cohesin translocation, but also seem to protect it from unloading by…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
very cool!
RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
RT @ElphegeNoraLab: Fascinating discovery! CTCF does not merely block cohesin translocation, but also seem to protect it from unloading by…
RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
A really important new paper indeed!
RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @Anders_S_Hansen: 1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): htt…
RT @ElphegeNoraLab: Fascinating discovery! CTCF does not merely block cohesin translocation, but also seem to protect it from unloading by…
RT @LeicStructBio: wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in…
RT @ElphegeNoraLab: Fascinating discovery! CTCF does not merely block cohesin translocation, but also seem to protect it from unloading by…
1/n Really important new paper identifying 2 amino acids in CTCF that interact with cohesin (SA2-Rad21 interface): https://t.co/I1nHaM3yAZ Interesting model also: WAPL and CTCF binds the same cohesin pocket (CES). Therefore by out-competing WAPL, CTCF can
RT @ElphegeNoraLab: Fascinating discovery! CTCF does not merely block cohesin translocation, but also seem to protect it from unloading by…
Cc. @RodrigoArzt
major
RT @ElphegeNoraLab: Fascinating discovery! CTCF does not merely block cohesin translocation, but also seem to protect it from unloading by…
Congratulations!
wow, @dpanne1 's and colleagues' work on The structural basis for cohesin–CTCF-anchored loops https://t.co/7nsd2AkV7z in @nature https://t.co/2qur6dAecD
Even more about CTCF-cohesin!
Fascinating discovery! CTCF does not merely block cohesin translocation, but also seem to protect it from unloading by WAPL What could account for the leftover cohesin (and shadows of Hi-C peaks) at CTCF sites in this RAD21/STAG2 interface mutant? 🤔