Happy to share that the study is now published in Advanced Science 🙌🥳 :
advanced.onlinelibrary.wiley.com/doi/10.1002/...

I want to thank my co-authors and my amazing PI @lauraschaedel.bsky.social for all the help, lovely discussions and encouragement😀

🎉 Exciting news!

Our paper has been accepted and is now published in Wiley Advanced Science! 🚀

Congratulations @bucklingmt.bsky.social

Read it here: advanced.onlinelibrary.wiley.com/doi/epdf/10....

Our new preprint is live!🎉
Cytosolic factors govern vimentin network architecture and mechanics. Cytosolic components shape vimentin IF networks & mechanics - beyond minimal reconstitutions.

On bioRxiv now!

Congrats @dyuthisreekumar.bsky.social

www.biorxiv.org/content/10.6...

🚨Great News!🚨
Our latest preprint is now live on bioRxiv!
We show that MAP65-1 and PRC1 facilitate microtubule nucleation on pre-existing lattices, particularly at sites with structural defects associated with mechanical stress.

Congrats @marianattom.bsky.social

www.biorxiv.org/content/10.1...

Have you ever wondered how microtubules withstand and respond to mechanical stress in cells?

Here we show by in vitro reconstitution assays that MAP65-1 and PRC1 promote microtubule nucleation on existing lattices, especially on those with structural irregularities linked to mechanical stress.

MAP65-1/PRC1 reinforces microtubules through nucleation www.biorxiv.org/content/10.1101/2025.09....

Are you ready for a symposium dedicated to microtubule dynamics, function, and structure? 🙌

#EESMicrotubules will bring together researchers who share an interest in microtubule biology and its relevance to health and disease 🩺

💻 s.embl.org/ees26-09-bl
✒️ Submit your abstract by 11 March

Kinesin-induced buckling reveals the limits of microtubule self-repair www.biorxiv.org/content/10.1101/2025.09....

Happy to share that our paper on Tau- Microtubule interaction is now published in Nature Physics!🥳

We show that Tau isn’t just a microtubule stabiliser - it promotes removal of defects in the microtubule lattice.

Congratulations @subhambiswas.bsky.social!

www.nature.com/articles/s41...

Tau accelerates tubulin exchange in the microtubule lattice - Nature Physics Beyond its known role in stabilizing microtubules, it is now shown that tau protein actively promotes lattice defect repair by enhancing tubulin turnover at topological defects.

Excited to share that my paper on Tau–Microtubule interactions is now published in Nature Physics!🎉

Our work shows that tau goes beyond stabilizing microtubules—it also promotes the removal of defects in the microtubule lattice.

www.nature.com/articles/s41...

🚨We are hiring!!🚨
📢Our lab has two #ERC funded #PhD positions on an exciting project on cytoskeleton crosstalk to investigate how microtubules and vimentin intermediate filaments work together.

For additional details, visit: biocytolab.com/jobs/

Please share/repost!

We have a PhD opening 🎓 at our lab in Saarbrücken, Germany!

The project focuses on interactions between microtubules and intermediate filaments in the cytoskeleton, “crosstalk”.

For additional information, visit: biocytolab.com