We enjoyed putting our heads together with the Jakob and Freddolino labs to find that polyphosphate modulates the formation of functional RNA-protein condensates in response to nitrogen-starvation stress!
journals.plos.org/plosbiology/...
Julie Biteen
New preprint from the Vecchiarelli Lab! 🧵
Congratulations to first author Dr. Claire Dudley!
@claire-dudley.bsky.social
Claire uncovered a critical player in the organization for the photosynthetic cytoplasm of cyanobacteria - polyphosphate! #polyP
www.biorxiv.org/content/10.6...
www.biorxiv.org
David’s study of bacterial chromosome organization is now published in ChemPhysChem! doi.org/10.1002/cphc...
Formal lab photo, spring 2026 edition.
The Biteen Lab is ready for action. 🔬🥼🦠🧫
Congrats to @juliebiteenlab.bsky.social PhD #20, Dr. Xiaofeng Dai! 🦠🔬💻🧬
Glad we could contribute to this beautiful work from Claire Dudley et al! I remain forever in awe of Dr. Daniel Foust’s amazing data visualization skills.
After a set of productive rotations, we are thrilled to welcome Lyn, Yuhan, and Anna, three fabulous Chemistry students who have now **officially** joined the Biteen Lab! #SingleMolecule #SuperResolution Biophysical Chemistry.
Congrats to Yunhan on winning the ACS Physical Chemistry Award and to Charlie on winning a summer undergraduate research fellowship! 🔬🦠🥼
In the context of carboxysome positioning, @azaldegui.bsky.social found that the aggregation of a bacterial microcompartment is prevented by a self-organizing DNA-binding ATPase! #SingleMolecule #SuperResolution #Microscopy
with @cellforganized.bsky.social and JianLiu
doi.org/10.64898/202...
Julie Biteen
Julie Biteen
Julie Biteen
Julie Biteen
Anthony Vecchiarelli
Julie Biteen
Julie Biteen
Julie Biteen
Julie Biteen
New preprint from the Vecchiarelli Lab! 🧵
Congratulations to first author Dr. Claire Dudley!
@claire-dudley.bsky.social
Claire uncovered a critical player in the organization for the photosynthetic cytoplasm of cyanobacteria - polyphosphate! #polyP
www.biorxiv.org/content/10.6...
The nucleoid-associated proteins Dps, H-NS, and HU shape the bacterial chromosome in the deep stationary phase through their interactions with the nucleoid.
Also submitted just before the holidays: David Fuller collaborated with the Xindan Wang Lab to measure how growth-phase-dependent chromosome reorganization affects the behavior and function of bacterial nucleoid-associated proteins. #SingleMolecule #Microscopy
www.biorxiv.org/content/10.6...
