RRIDs were included in the BMC Biology paper "Structural basis for potency differences between G…" (https://t.co/SQsSKc6wUd). We appreciate the author's support of reproducibility. #RRID #accelerateopenscience
#GDF11 and #GDF8 (#myostatin): Similar but different at the structural level. However, the biological consequences of these differences remain to be determined. "Selective pressure in order to provide an evolutionary advantage" Via @BMCBiology #muscle
In case you missed it: Structural basis for potency differences between GDF8 and GDF11 https://t.co/7GK3lPwAX2
Structural basis for potency differences between GDF8 and GDF11 #BMCBiologyResearch https://t.co/7GK3lPwAX2
Structural basis for potency differences between GDF8 and GDF11 https://t.co/7GK3lPwAX2
#RegenerativeBiology Structural basis for potency differences between GDF8 and GDF11. https://t.co/iQTanr0UUk
RT @BMCBiology: Prior work demonstrating GDF11 and myostatin (GDF8) to both signal through SMAD2/3 activation https://t.co/aUNXbwJ6U6 https…
Prior work demonstrating GDF11 and myostatin (GDF8) to both signal through SMAD2/3 activation https://t.co/aUNXbwJ6U6 https://t.co/chTDgmi3ed
GDF11 is a higher affinity ligand than Myostatin (GDF8) for their receptors, consistent with our Cell Met. data https://t.co/UEjtDVinmp
RT @BMCBiology: How GDF11 structure enhances its potency relative to GDF8 https://t.co/g9Spzstlu8 @UCResearch @harvardstemcell @michigans…
RT @BMCBiology: How GDF11 structure enhances its potency relative to GDF8 https://t.co/g9Spzstlu8 @UCResearch @harvardstemcell @michigans…
How GDF11 structure enhances its potency relative to GDF8 https://t.co/g9Spzstlu8 @UCResearch @harvardstemcell @michiganstateu @mcgillu https://t.co/3fehoa7edN
Structural basis for potency differences between GDF8 and GDF11 https://t.co/6vEQbJzR2w