Assistant professor @BCMHouston. Interested in IDPs, RNPs, and condensates in cells viewed from biophysical chemistry and polymer biophysics. www.RibackLab.com
Josh Riback
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Check out this fun thread on the visual story of #RibackLab 's collaborative work with #Goodell_Lab. Excited to see it in print today in @cp-cell.bsky.social. Thanks again to all team members, especially @gandhardatar.bsky.social and @sciencyelmira.bsky.social .
Pleased to share our latest paper, out today in Molecular Cell: “Multi-site DMS probing reveals higher-order structure of RNA-protein complexes in living cells”
www.cell.com/molecular-ce...
🚨New paper alert! Using single molecule TIRF microscopy, we show that Nop1 destabilizes RNA structure via transient, nonspecific interactions — until specific assembly of native ribosomal complexes takes over. Congrats, Wilson! 🎉 academic.oup.com/nar/article/...
Josh Riback
Think of #RNA in #3D. And with this new method from the @amustoe.bsky.social lab et al researchers can reveal RNA-protein interactions in #livingCells. @cp-molcell.bsky.social @bcmhouston.bsky.social blogs.bcm.edu/2026/04/30/f...
1/ Excited to share a new preprint from the lab! We identify NSD3 as a novel regulator of chromatin 3D structure. 🧵
New publication! How to read the curves in biomolecular phase diagrams! A collaboration between the Schmit Group and Jonathon Ditlev, Les Loew, and @ani-chattaraj.bsky.social. 1/7 pubs.acs.org/doi/10.1021/...
#preprint by postdoc Billy Haws reveals the determinants of how UBQLN2 forms puncta under heat stress conditions - using both in vitro and in cell experiments, turns out the substrate-binding / chaperone-binding STI1-I and STI1-II domains are the driving forces! www.biorxiv.org/content/10.6...
It’s hard to imagine the lab without you @evdokiiap.bsky.social. As my first postdoc, you built the cell-biology foundation and pushed into new biophysics to reveal how nucleolar thermodynamics is regulated. Can’t wait for your manuscript to be released. Wishing you the best in what’s next!
