Speaking of postdocs - we’re hiring too! So if you’re a grad student close to finishing up and think it sounds fun to shoot lasers at cells (spoiler: it definitely is!!!) let’s talk!

Please note that we’re hiring at all levels for experiments related to this project!

Such clear and compelling translation of theory to its biological significance, helping us understand what regimes and parameters may be important for the spindle.

This talk beautifully demonstrated another mechanism spindles can use to redundantly adapt to stress and ensure bipolarity. Will be interesting to see if this is Kif15 dependent!

Exciting talk from Katya Grishchuk demonstrating a novel slow binding site ‘maturation’ that may help ensure the kinetochore forms in the right place rather than free in solution. Super beautiful work! #SpindleCroatia2023

Mary Elting @mwelting @EltingLab laser ablated spindles and nuclear envelopes in the yeast S. pombe, which has closed mitosis, and showed that the spindle can shape the nuclear envelope. The spindle and the nuclear envelope are a mechanical pair whose properties are well matched.

#SpindleCroatia2023 continues to impress with amazing AFM movies from Radhika Subramanian resolving depolymerization of individual microtubule protofilaments!

Great kickoff to #SpindleCroatia2023 by @SueBiggins ! Beautiful work watching the dynamics of kinetochore assembly in vitro.

An elegant and compelling dispatch by Mary Elting @EltingLab highlighting the role of the augmin complex for the construction of mitotic spindle bridging fibers, which support accurate chromosome segregation. Thank you! @CurrentBiology @CellPressNews

Check out more details about Marc’s project at board B173 today. Also, he’s graduating and on the hunt for a postdoc in the NJ/NYC/PHL area, so if you’re hiring, come chat with him!

Excited for the “Nuclear Power” session starting now! Marc Begley from our lab will be giving the last talk of the session examine how the spindle and nuclear envelope mechanically shape each other in fission yeast closed mitosis. #cellbio2022

Also - I’m having my normal response to these amazing movies of icthyosporea’s suddenly explosive division: can I shoot a laser at that? Please @Dey_Gautam ?

#ASCB2022 always makes me wish I could be in two places at once. Luckily session layout makes it possible to hop over to the Evolutionary Cell Bio subgroup to hear @Dey_Gautam discuss a question newly dear to my heart - how are nuclear properties tuned across species?

Stoked for the cytoplasm subgroup, kicked off by @MolinesArthur! Continues to blow my mind how anything at all can happen in the more crowded than a can of sardines cellular environment.

How about some highlights from #CellBio2022 ? @Stimac_V gave a FANTASTIC symposium talk this morning on her work with @Toliclab describing how spindle elongation helps pivot polar chromosomes and recover them from the “danger zone” of missegregation.

He’s also on the job market - if you’re looking for a postdoc in the NYC/NJ/PHL area - reach out to him!

Student in our lab, Marc Begley, has a microsymposium talk and poster on Tuesday presenting some unpublished work determining mechanical interactions between the mitotic spindle and nuclear envelope in closed mitosis.

Looks like I’m once again doing that thing where I flake on Twitter until I come to a meeting. So, hi from #CellBio2022 👋

Will be talking about @ncstatephysics at the fair today! Stop by and hear about the wide variety of biophysics happening our department, from molecules to cells, computation/theory and experiment, we’ve got it all!

Sad to say goodbye to @MBLScience (and the @pco_imaging camera) this morning! Here’s one more superfast contraction as we hit the road - this time vorticella. Thanks to @viboud for sharing the pond water!