📣 I am excited to announce that I have joined the MBB department at Karolinska Institutet in Stockholm as an assistant professor.
See below for more details!
#wearehiring
We are hiring!
Looking for curious and motivated new colleagues to join my lab at the Karolinska Institute @ki.se.
If you are interested in studying cell identity and pancreas biology using human organoids, (spatial)omics genome and bioengineering please reach out!
#hiring #sciencejob #STEMJobs
Register now for the second Hubrecht Symposium, themed Molecular Machines in Development in Utrecht on March 26, 2026.
Visit hubrecht.eu/hubrecht-symposium-2026/ for registration and abstract submission.
Abstract submission deadline: February 1, 2026.
Happy to share our preprint!
Using massively parallel reporter assays, single-molecule imaging, deep learning and cryo-EM, we decode the sequence requirements for translation initiation and describe the “extended translation initiation sequence” (eTIS) that modulates start codon recognition.
🧵👇
Are you a postdoc looking for a new challenge and do you match the profile? Apply to join us! Especially, if you have experience with addressing the mechanisms underlying telomere maintenance, DNA replication or DNA repair. www.werkenbijavl.nl/vacatures/po...
New method 🚀: scEpi2-seq lets us read DNA methylation+histone marks in the same single cell. Found that methylation “memory” after replication depends on chromatin+histones, and TF promoters repressed by H3K27me3 carry distinct methylation. So stoked to share this as first+co-corresponding author 🎉
🧬 Hubrecht researchers have developed a method that can detect DNA methylation and histone modifications simultaneously in single cells. They can now for the first time study how their interaction influences gene activity. https://www.nature.com/articles/s41592-025-02847-4
@jervdberg.bsky.social
Come visit my poster #3195 tomorrow, so I can tell you about the method we recently developed to study DNA replication dynamics and replication stress in hematopoietic tissues!
Preprint alert!
We combined microfluidics, proteomics, and RNA-seq to map spatiotemporal protein expression during mouse somitogenesis and found a novel regulatory strategy: dynamic antagonistic gradients fine-tune signalling strength.
doi.org/10.1101/2025...