//
sign in
Profile
by @danabra.mov
Profile
by @dansshadow.bsky.social
Profile
by @jimpick.com
AviHandle
by @danabra.mov
AviHandle
by @dansshadow.bsky.social
AviHandle
by @katherine.computer
EventsList
by @katherine.computer
ProfileHeader
by @dansshadow.bsky.social
ProfileHeader
by @danabra.mov
ProfileMedia
by @danabra.mov
ProfilePlays
by @danabra.mov
ProfilePosts
by @danabra.mov
ProfilePosts
by @dansshadow.bsky.social
ProfileReplies
by @danabra.mov
Record
by @atsui.org
Skircle
by @danabra.mov
StreamPlacePlaylist
by @katherine.computer
+ new component
ProfileReplies
Loading...
Excited to see @riddhiman.bsky.social's gastruloid multiomics paper out now at Nature Cell Bio! Riddhiman used proteomics, phosphoproteomics, and RNAseq to profile stem-cell-derived embryo models to identify protein, complex, and signaling regulators of development. www.nature.com/articles/s41...
Previously a #preprint, now a peer reviewed @dschweppe.bsky.social work a fine, insightful, useful reference for the growing #gastruloid community . Proteomics, protein-RNA discordances, mouse-human comparison www.nature.com/articles/s41... Insights into human embryos for a growing #SCBEM community
1mo
1mo
www.nature.com
Garge et al. use experimentally matched mass spectrometry and RNA-sequencing to quantify proteins, phosphosites and transcripts across four key stages of human and mouse gastruloid development.
The proteomic landscape and temporal dynamics of human and mouse gastruloid development - Nature Cell Biology
13/ More broadly, our work adds to a growing body of work phenotyping proteome dynamics in stem cell derived embryo models. #SCBEM
Garge et al. use experimentally matched mass spectrometry and RNA-sequencing to quantify proteins, phosphosites and transcripts across four key stages of human and mouse gastruloid development.
www.nature.com
The proteomic landscape and temporal dynamics of human and mouse gastruloid development - Nature Cell Biology