This is so awesome. A nice discussion of a terribly important and complex process. X inactivation is likely a window into a number of lncRNA processes, in particular as it relates to epigenetics and chromatin remodeling.
I just can say AWESOME! So many techniques (Biochem, protein analyses, various types of DNA-RNA sequencing, fluorescing...) used to bring this model. Thanks to all the people that participate on this and of course iBiology to show us this fantastic work. Regards F.
With normal activity, one of the X chromosomes is deactivated. Does the same thing happen with the other 22 pairs of chromosomes? Also does this have to be repeated with each future cell division?
This is so awesome. A nice discussion of a terribly important and complex process. X inactivation is likely a window into a number of lncRNA processes, in particular as it relates to epigenetics and chromatin remodeling.
I just can say AWESOME! So many techniques (Biochem, protein analyses, various types of DNA-RNA sequencing, fluorescing...) used to bring this model. Thanks to all the people that participate on this and of course iBiology to show us this fantastic work.
Regards
F.
Wow. Great work. Big thank you mrs. Lee & ibiology from germany
Excellent presentation.
With the scientific papers a presentation is always nice. Moreover it is an "in cis" presentation. Thanks for sharing
she has a beautiful smile
With normal activity, one of the X chromosomes is deactivated. Does the same thing happen with the other 22 pairs of chromosomes? Also does this have to be repeated with each future cell division?
No, the autosomes do not have Aist.