Elisha Krieg
@elishakrieg.bsky.social
Group leader in DNA Nanotech at Leibniz IPF and TU Dresden. Late to the bsky party.
Group website: https://digs-ils.phd/krieg Startup: dynamicmatrices.eu
Group website: https://digs-ils.phd/krieg Startup: dynamicmatrices.eu
Pinned
Elisha Krieg
@elishakrieg.bsky.social
· Sep 11
Exciting application of our programmable #CellCulture matrix #DyNAtrix.
By creating a mechanically reconfigurable microenvironment, we can now invert & guide epithelial cell polarity in real time.
#DNAnanotech
1/ 🧵
By creating a mechanically reconfigurable microenvironment, we can now invert & guide epithelial cell polarity in real time.
#DNAnanotech
1/ 🧵
Reposted by Elisha Krieg
Fresh in @natchemeng.nature.com Growing artificial cytoskeleton in the viscoelastic confinement of DNA Artificial Cells. Brilliant work bey Weixiang! #Syntheticcell #systemschemistry
www.nature.com/articles/s44...
www.nature.com/articles/s44...
Growing functional artificial cytoskeletons in the viscoelastic confinement of DNA synthetic cells - Nature Chemical Engineering
Engineering structurally and functionally complex synthetic cells remains a key challenge. Here DNA condensate synthetic cells combine phase separation and DNA nanostructures to reveal how switchable ...
www.nature.com
October 23, 2025 at 3:25 PM
Fresh in @natchemeng.nature.com Growing artificial cytoskeleton in the viscoelastic confinement of DNA Artificial Cells. Brilliant work bey Weixiang! #Syntheticcell #systemschemistry
www.nature.com/articles/s44...
www.nature.com/articles/s44...
Reposted by Elisha Krieg
Congratulations to Soumya and Charu for making the first ATP-fueled homeostatic cytokine delivery system for communication between artificial and living cells. Now in Angewandte Chemie @angewandtechemie.bsky.social #syntheticcell #noneqsys #DNAnanoscience
onlinelibrary.wiley.com/doi/10.1002/...
onlinelibrary.wiley.com/doi/10.1002/...
ATP‐Powered Signaling Between Artificial and Living Cells
We introduce an ATP-powered artificial cell platform capable of selectively and transiently releasing DNA signals to facilitate communication between artificial and living cells. By engineering these...
onlinelibrary.wiley.com
October 23, 2025 at 3:27 PM
Congratulations to Soumya and Charu for making the first ATP-fueled homeostatic cytokine delivery system for communication between artificial and living cells. Now in Angewandte Chemie @angewandtechemie.bsky.social #syntheticcell #noneqsys #DNAnanoscience
onlinelibrary.wiley.com/doi/10.1002/...
onlinelibrary.wiley.com/doi/10.1002/...
Multiplexed detection of viral pathogens on an AUTONOMOUSLY LOADING chip for point-of-care #diagnostics.
Congrats to first authors Beatrise Berzina and Krishna Gupta and the entire EKFZ-funded *VirChip* team!
Congrats to first authors Beatrise Berzina and Krishna Gupta and the entire EKFZ-funded *VirChip* team!
October 23, 2025 at 2:21 PM
Multiplexed detection of viral pathogens on an AUTONOMOUSLY LOADING chip for point-of-care #diagnostics.
Congrats to first authors Beatrise Berzina and Krishna Gupta and the entire EKFZ-funded *VirChip* team!
Congrats to first authors Beatrise Berzina and Krishna Gupta and the entire EKFZ-funded *VirChip* team!
Reposted by Elisha Krieg
Schering Young Investigator Award 2025 by the Schering Stiftung for Agnes Toth-Petroczy @tothpetroczylab.bsky.social @mpi-cbg.de @csbdresden.bsky.social. She receives the award for her work on the evolution, diversity, and function of proteins. Congratulations! 🎉 www.mpi-cbg.de/news-outreac...
New Perspectives on the Hidden World of Proteins
Schering Young Investigator Award 2025 goes to Agnes Toth-Petroczy
www.mpi-cbg.de
September 30, 2025 at 7:49 AM
Schering Young Investigator Award 2025 by the Schering Stiftung for Agnes Toth-Petroczy @tothpetroczylab.bsky.social @mpi-cbg.de @csbdresden.bsky.social. She receives the award for her work on the evolution, diversity, and function of proteins. Congratulations! 🎉 www.mpi-cbg.de/news-outreac...
Reposted by Elisha Krieg
This is doing the rounds in my messages with colleagues, and is a very real threat to the field of microscopy 😬.
Given one (published) microscope image probably costs between $100 and $10,000 (or more) to make - the lure of "oh I will just ChatGPT it" is very much there.
Given one (published) microscope image probably costs between $100 and $10,000 (or more) to make - the lure of "oh I will just ChatGPT it" is very much there.
AI can now generate fake microscopy images that are nearly impossible to detect. A serious threat to scientific integrity—and we’re not prepared for it.
Commentary in @natnano.nature.com
#nanotechnology
Commentary in @natnano.nature.com
#nanotechnology
September 18, 2025 at 7:50 AM
This is doing the rounds in my messages with colleagues, and is a very real threat to the field of microscopy 😬.
Given one (published) microscope image probably costs between $100 and $10,000 (or more) to make - the lure of "oh I will just ChatGPT it" is very much there.
Given one (published) microscope image probably costs between $100 and $10,000 (or more) to make - the lure of "oh I will just ChatGPT it" is very much there.
AI can now generate fake microscopy images that are nearly impossible to detect. A serious threat to scientific integrity—and we’re not prepared for it.
Commentary in @natnano.nature.com
#nanotechnology
Commentary in @natnano.nature.com
#nanotechnology
September 15, 2025 at 10:39 AM
AI can now generate fake microscopy images that are nearly impossible to detect. A serious threat to scientific integrity—and we’re not prepared for it.
Commentary in @natnano.nature.com
#nanotechnology
Commentary in @natnano.nature.com
#nanotechnology
Exciting application of our programmable #CellCulture matrix #DyNAtrix.
By creating a mechanically reconfigurable microenvironment, we can now invert & guide epithelial cell polarity in real time.
#DNAnanotech
1/ 🧵
By creating a mechanically reconfigurable microenvironment, we can now invert & guide epithelial cell polarity in real time.
#DNAnanotech
1/ 🧵
September 11, 2025 at 8:36 PM
Exciting application of our programmable #CellCulture matrix #DyNAtrix.
By creating a mechanically reconfigurable microenvironment, we can now invert & guide epithelial cell polarity in real time.
#DNAnanotech
1/ 🧵
By creating a mechanically reconfigurable microenvironment, we can now invert & guide epithelial cell polarity in real time.
#DNAnanotech
1/ 🧵