Research from @barmadalab shows a link between ALS and FTD via TDP-43 binding and disease pathogenesis influenced by RNA methylation. Read more: https://t.co/bfUoWWrgqW #LearnAboutFTD

RT @medical_xpress: #RNA modification 'pivotal' for protein linked to neurodegeneration in #ALS @umich @MolecularCell https://t.co/wADGmUml…

RT @Aenoreth: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotempor…

RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia https://t.co/cdXbzO3nD4

RT @medical_xpress: #RNA modification 'pivotal' for protein linked to neurodegeneration in #ALS @umich @MolecularCell https://t.co/wADGmUml…

RT @medical_xpress: #RNA modification 'pivotal' for protein linked to neurodegeneration in #ALS @umich @MolecularCell https://t.co/wADGmUml…

RT @medical_xpress: #RNA modification 'pivotal' for protein linked to neurodegeneration in #ALS @umich @MolecularCell https://t.co/wADGmUml…

RT @medical_xpress: #RNA modification 'pivotal' for protein linked to neurodegeneration in #ALS @umich @MolecularCell https://t.co/wADGmUml…

#RNA modification 'pivotal' for protein linked to neurodegeneration in #ALS @umich @MolecularCell https://t.co/wADGmUmlqD https://t.co/r887Ke5bwH

RT @QurAlisCo: Huge congrats to our very own Mike McMillan on the peer-review publication in #MolecularCell of his Ph.D. #research entitled…

Huge congrats to our very own Mike McMillan on the peer-review publication in #MolecularCell of his Ph.D. #research entitled, "RNA methylation influences #TDP43 binding and disease pathogenesis in models of #ALS and #FTD." https://t.co/QcMT3onvnA

RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia https://t.co/m31WBo9Djp https://t.co/RYU8N73JHx

RT @MolecularCell: Online Now: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis…

RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia https://t.co/Q8wMbDu5hc

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @Michael_E_Ward_: Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in mode…

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @Michael_E_Ward_: Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in mode…

TDP43 preferentially binds m6A modified RNA. Nice story from the Barmada lab @UMich

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @Michael_E_Ward_: Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in mode…

RT @Michael_E_Ward_: Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in mode…

https://t.co/dcRHWyojax La metilación del ARN influye en la unión de TDP43 y la patogénesis de la enfermedad en modelos de esclerosis lateral amiotrófica y #DegeneraciónFrontotemporal

https://t.co/wU678GDZDx

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

@SpitaleLab... didn't see this coming. https://t.co/aeOpMlwTl6

RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia https://t.co/HSit678hkt

TDP-43 binds to m6A-modified RNA TDP-43はm6A修飾を受けたRNAに結合する Molecular Cell https://t.co/7IP6jeYc5o

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @BarmadaLab: Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @Michael_E_Ward_: Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in mode…

Our story on m6A and TDP43 is now out in Molecular Cell! https://t.co/4FWhVj8jx6

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RT @Michael_E_Ward_: Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in mode…

RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia: Molecular Cell wow https://t.co/h7OmLsy2CO

RT @Michael_E_Ward_: Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in mode…

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

Fantastic new paper from the Barmada lab!!! RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia: Molecular Cell https://t.co/smDFAXjNcv

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RT @ShorterLab: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemp…

RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia: https://t.co/eNs0aVM5HM

RT @MolecularCell: Online Now: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis…

Online Now: RNA methylation influences TDP43 binding and disease pathogenesis in models of amyotrophic lateral sclerosis and frontotemporal dementia https://t.co/5b5q5CdG42