Kate Cavanaugh
@katecavanaugh.bsky.social
Migrating on my own path. Cytoskeletal enthusiast with a love for mechanics, development, and biophysical approaches. | BWF CASI Fellow with Orion Weiner at UCSF | PhD Gardel lab at UChicago | HHMI Gilliam, Ford Predoctoral Fellow Alum |
Amazingly, yes! Here, we indexed embryos, calculated compaction metrics, and selected Normal and Accelerated tempo’d embryos for later implantation assays. We find compaction metrics correlate with ultimate implantation potential – for both aged and young maternal conditions.
October 1, 2025 at 6:21 PM
Amazingly, yes! Here, we indexed embryos, calculated compaction metrics, and selected Normal and Accelerated tempo’d embryos for later implantation assays. We find compaction metrics correlate with ultimate implantation potential – for both aged and young maternal conditions.
Well, we also find increased contractility in the aged embryo also correlates with faster compaction at the 8-cell stage. Could this be a possible metric to see which ones will implant?
October 1, 2025 at 6:21 PM
Well, we also find increased contractility in the aged embryo also correlates with faster compaction at the 8-cell stage. Could this be a possible metric to see which ones will implant?
But contractility tunes cell-cell adhesion (limiting spreading) and cell-substrate adhesion (promoting spreading). Aged embryos show higher blastocyst surface tension AND higher spreading forces via Traction Force Microscopy. Weird… So how can we explain reduced spreading?
October 1, 2025 at 6:21 PM
But contractility tunes cell-cell adhesion (limiting spreading) and cell-substrate adhesion (promoting spreading). Aged embryos show higher blastocyst surface tension AND higher spreading forces via Traction Force Microscopy. Weird… So how can we explain reduced spreading?
Using mouse embryos, we visualize implantation in vitro to see what’s wrong in embryo development w/ advanced maternal age. In vitro implantation assays show aged embryos do not implant as efficiently.
October 1, 2025 at 6:21 PM
Using mouse embryos, we visualize implantation in vitro to see what’s wrong in embryo development w/ advanced maternal age. In vitro implantation assays show aged embryos do not implant as efficiently.
See this? This = implanting mouse embryo. Usually this happens inside its mother and is invisible to us, but we can actually watch implantation ex vivo with the hope of understanding why implantation goes awry in embryos of older women. A 🧵...
October 1, 2025 at 6:21 PM
See this? This = implanting mouse embryo. Usually this happens inside its mother and is invisible to us, but we can actually watch implantation ex vivo with the hope of understanding why implantation goes awry in embryos of older women. A 🧵...
Happy #FluorescenceFriday - here is a mouse embryo jiggling into configuration #mechanobiology #epithelialmechanics #devbio
December 6, 2024 at 5:15 PM
Happy #FluorescenceFriday - here is a mouse embryo jiggling into configuration #mechanobiology #epithelialmechanics #devbio
🚨 Quick!! 🚨 Post science videos of things going "bloop"
November 23, 2024 at 5:57 PM
🚨 Quick!! 🚨 Post science videos of things going "bloop"
How? Here comes my favorite part: we can use synthetic biology 🦾. We can drive cell fates using tools like optogenetics where we control protein localization with light! Here is an embryo expressing a protein that shouldn't be in the nucleus, but then with some light drives nuclear localization 😍
November 14, 2024 at 1:09 AM
How? Here comes my favorite part: we can use synthetic biology 🦾. We can drive cell fates using tools like optogenetics where we control protein localization with light! Here is an embryo expressing a protein that shouldn't be in the nucleus, but then with some light drives nuclear localization 😍
This is an embryo undergoing compaction! *Gasp * Super cool! Turns out this stage is a really important checkpoint both in a mechanical sense but also in specifying cell fates. But can we take videos like the one posted below and see which embryo will most likely produce a pup?
November 14, 2024 at 1:09 AM
This is an embryo undergoing compaction! *Gasp * Super cool! Turns out this stage is a really important checkpoint both in a mechanical sense but also in specifying cell fates. But can we take videos like the one posted below and see which embryo will most likely produce a pup?
Hi Everyone! 👋 Allow me to introduce myself. I'm Kate. I'm a postdoc studying early mammalian development, mechanics, and reproductive aging. Check out one of my favorite developmental stages in a mouse embryo in this video:
November 14, 2024 at 1:09 AM
Hi Everyone! 👋 Allow me to introduce myself. I'm Kate. I'm a postdoc studying early mammalian development, mechanics, and reproductive aging. Check out one of my favorite developmental stages in a mouse embryo in this video: