So proud of XIANGYI DING from the Starr-Luxton lab featured in @NatureMethods! The collaborative spirit she describes captures what we're creating through our @PaulGAllenFront supported work with Daniel Starr at @UCDavis #Frontierscience nature.com/articles/s4159…

It was a pleasure working with the amazing physio students over the past two weeks! Such an honor to be part of this immersive scientific community Marine Biological Laboratory (MBL) ❤️

Chromatin heterogeneity modulates nuclear condensate dynamics and phase behavior. Congratulations Jing! Happy to have contributed in a small way to this interesting work! nature.com/articles/s4146…

Experimental biophysicist Joshua Shaevitz and quantitative biologist Britt Adamson have joined the Omenn-Darling Bioengineering Institute as associated faculty members. Welcome! More: bioengineering.princeton.edu/news/2025/adam…

Grateful to have contributed to this piece- check out our new manuscript on how chromatin meshwork controls phase separation of nuclear condensates 🧬

Everyone working in a STEM field should read this - ‘writing is thinking’ nature.com/articles/s4422…

Excited to share our new preprint on bioRxiv from our great team @EMBL! biorxiv.org/content/10.110… If the nucleolus is liquid-like, why does it often appear irregularly shaped in proliferating mammalian cells? What controls the nucleolar shape? #PhaseSeparation #Nucleolus

How the material properties of nucleoli relate to their ribosome-maturing function 📹 Holly H. Cheng et al Princeton University in PNASNews 📷 bpod.org.uk/archive/2025/8… with John Ankers

Check out our most recent published paper in Nature Communications about the effects of cell surface crowding in cell-cell fusion: rdcu.be/ezCOF

“As a public university, we are stewards of taxpayer resources, and a payment of this scale would completely devastate our country’s greatest public university system as well as inflict great harm on our students and all Californians.” —UC President James B. Milliken

The federal government’s demand of $1 billion from UCLA would devastate the nation’s best public university, cut off life-saving care, halt tech and economic growth, and reduce educational access. Stand with UC to protect our students, staff, faculty and our vital mission:

WORK! My lab currently have 5 (!) open positions for postdocs/PhD students for: -Nanopore protein sequencing -Archaeal CDV cell division -Microfluidics for synthetic cells -Nuclear Pore Complex -Origami mimics of peroxisomes Please apply! ceesdekkerlab.nl/come-join-us/ RT=👍

FINALLY! This was challenging to publish but we believe it is an important discovery: rdcu.be/eATDa 💫Thanks to the amazing team 💫 Abin Biswas Omar Muñoz Kyoohyun Kim Carsten Hoege Benjamin Lorton Rainer Nikolay Matthew L. Kraushar David Shechter GuckLab 🇺🇦 Vasily Zaburdaev 🇺🇦

Real-time feedback control microscopy for automation of optogenetic targeting biorxiv.org/content/10.110… #biorxiv_cellbio

Our squid primary cell isolation protocol is now out in STAR Protocols ⭐️🦑🧫This protocol enables molecular studies of cephalopod biology, aging, and basic cell physiology. Thanks to brangwynnelab Hailey Tanner Josh Rosenthal check it out here tinyurl.com/3knvkhyh 🤩

☁️bonus Squid Game themed fun graphical abstract #오징어게임

I’m thrilled to share our preprint that uses deep learning to interrogate structure-function relationships in condensates! biorxiv.org/content/10.110… In here, we ask: can AI read condensate biology from pictures alone? Turns out yes... see what we discover below! 🤖🧬🖼️ (1/10)

🧵1/14 Preprint thread! Can we predict a cell’s fate based on its dynamics? 🔮 Our new study unveils a framework for watching development unfold in real-time, revealing how a cell's shape and movement encode info about its future fate. 🔬📄 Preprint: tinyurl.com/4shf8v4x

Happy to share a new preprint! Ebola virus condensates don’t just contain viral RNA🧬 — they also capture and regulate host mRNAs , reshaping interferon responses and viral adaptation. #Virology #RNA #Condensates biorxiv.org/content/10.110…🧵👇

Alfred Millett-Sikking Volumetric imaging of 384 wells in a contact free format using an air lens. Importantly, the 3D imaging remains diffraction limited and distortion-free, despite the large refractive index mismatch from air to water.