Shweta Nandakumar
@bucklingmt.bsky.social
She/her, PhD Student @schaedellab.bsky.social | Microtubules 🧑🔬 | Motors ⚡| Bibliophile
Absolutely love both the tools :) The LUT manager is so much fun. Thanks 😀
October 6, 2025 at 9:28 AM
Absolutely love both the tools :) The LUT manager is so much fun. Thanks 😀
Same. The withdrawal is real !!!
September 26, 2025 at 10:46 AM
Same. The withdrawal is real !!!
Thank you so much 🙌🙂
September 16, 2025 at 5:03 PM
Thank you so much 🙌🙂
Thank you so much ❤️ your comment made my day 🙌🙌❤️
September 15, 2025 at 8:45 AM
Thank you so much ❤️ your comment made my day 🙌🙌❤️
A big thank you to my amazing PI Laura Schaedel, my colleagues @schaedellab.bsky.social , Mirko Wieczorek, Constantin Albrecht, @stefandiezlab.bsky.social , @manuelthery.bsky.social and the team of Ludger Santen😀🧵 (9/9).
September 14, 2025 at 10:15 AM
A big thank you to my amazing PI Laura Schaedel, my colleagues @schaedellab.bsky.social , Mirko Wieczorek, Constantin Albrecht, @stefandiezlab.bsky.social , @manuelthery.bsky.social and the team of Ludger Santen😀🧵 (9/9).
Our findings suggest the intriguing possibility that cells may use intracellular factors to differentially regulate MT response to mechanical stimuli, making MTs either mechanosensitive (adaptive response) or resilient to stimuli based on functional needs.🧵(8/9)
September 14, 2025 at 10:05 AM
Our findings suggest the intriguing possibility that cells may use intracellular factors to differentially regulate MT response to mechanical stimuli, making MTs either mechanosensitive (adaptive response) or resilient to stimuli based on functional needs.🧵(8/9)
Thus damage in buckling microtubules stems from a combination of curvature and motor activity with curvature acting as a key amplifier of motor induced damage. 🧵 (7/9)
September 14, 2025 at 10:04 AM
Thus damage in buckling microtubules stems from a combination of curvature and motor activity with curvature acting as a key amplifier of motor induced damage. 🧵 (7/9)
But MT breakage is relatively infrequent in cells suggesting that intracellular factors may help boost MT resilience. To test this, we performed buckling assays in presence of HEK293 cell lysates and found enhanced MT survival. 🧵(6/9)
September 14, 2025 at 10:03 AM
But MT breakage is relatively infrequent in cells suggesting that intracellular factors may help boost MT resilience. To test this, we performed buckling assays in presence of HEK293 cell lysates and found enhanced MT survival. 🧵(6/9)
Interestingly, we also found that buckling MTs break (predominantly at points of high curvature) even in the presence of free tubulin indicating that buckling poses a mechanical challenge that can't be balanced by intrinsic self- repair alone. 🧵 (5/9)
September 14, 2025 at 10:01 AM
Interestingly, we also found that buckling MTs break (predominantly at points of high curvature) even in the presence of free tubulin indicating that buckling poses a mechanical challenge that can't be balanced by intrinsic self- repair alone. 🧵 (5/9)
We found that kinesin driven buckling causes extensive damage and self-repair showing higher levels of tubulin turnover along 40-60% of the MT lattice length.🧵 (4/9)
September 14, 2025 at 10:00 AM
We found that kinesin driven buckling causes extensive damage and self-repair showing higher levels of tubulin turnover along 40-60% of the MT lattice length.🧵 (4/9)
We set out to bend and buckle microtubules dynamically ( as seen in cells) invitro and reproduced MT behaviours typically seen in cells, in vitro. 🧵(3/9)
September 14, 2025 at 9:58 AM
We set out to bend and buckle microtubules dynamically ( as seen in cells) invitro and reproduced MT behaviours typically seen in cells, in vitro. 🧵(3/9)
We found that self repair in bent MTs occurs both in vitro and in cells, with incorporations being more pronounced in cells (Image credit for cell images: @morgangazzola.bsky.social @manuelthery.bsky.social )🧵(2/9)
September 14, 2025 at 9:55 AM
We found that self repair in bent MTs occurs both in vitro and in cells, with incorporations being more pronounced in cells (Image credit for cell images: @morgangazzola.bsky.social @manuelthery.bsky.social )🧵(2/9)
Thank you so much for your kind words ❤️ I am such a big fan of your work😍 It was a lot of fun to bend and break microtubules 😜
September 13, 2025 at 11:54 PM
Thank you so much for your kind words ❤️ I am such a big fan of your work😍 It was a lot of fun to bend and break microtubules 😜
I love Tj's writing. You should totally grab the sequel 'Somewhere beyond the Sea' 🙌🙌
January 19, 2025 at 12:57 PM
I love Tj's writing. You should totally grab the sequel 'Somewhere beyond the Sea' 🙌🙌
All such amazing choices ❤️❤️Happy reading🙌🙌😊
December 30, 2024 at 8:46 PM
All such amazing choices ❤️❤️Happy reading🙌🙌😊