Di Michele Lab
@dimichelelab1.bsky.social
Lorenzo Di Michele's research group at @cebcambridge.bsky.social University of Cambridge (and also a bit at Imperial College). Working on DNA/RNA nanotechnology and Synthetic Cells
Pinned
Di Michele Lab
@dimichelelab1.bsky.social
· Sep 29
SportsGiving - Entry: Lorenzo Di Michele
Lorenzo Di Michele is fundraising for charity. Visit their fundraising page to sponsor them online now!
sportsgiving.co.uk
Hey! Some group members and I are running a 10k race in Cambridge this Sunday, and raining some funds for @mdukcharity.bsky.social
Please donate and share!
@ceb.cam.ac.uk @pembroke1347.bsky.social
sportsgiving.co.uk/sponsorship/...
Please donate and share!
@ceb.cam.ac.uk @pembroke1347.bsky.social
sportsgiving.co.uk/sponsorship/...
As promised, we run the town and gown 10k! In the photos are group members @rogerrubiosanchez.bsky.social Juliette Bucci, Brian Ng, Cathrine Fan, Sebastian Krauss and Lorenzo (the old one). Thanks to all who supported us with donations to @mdukcharity.bsky.social
October 8, 2025 at 8:06 PM
As promised, we run the town and gown 10k! In the photos are group members @rogerrubiosanchez.bsky.social Juliette Bucci, Brian Ng, Cathrine Fan, Sebastian Krauss and Lorenzo (the old one). Thanks to all who supported us with donations to @mdukcharity.bsky.social
Hey! Some group members and I are running a 10k race in Cambridge this Sunday, and raining some funds for @mdukcharity.bsky.social
Please donate and share!
@ceb.cam.ac.uk @pembroke1347.bsky.social
sportsgiving.co.uk/sponsorship/...
Please donate and share!
@ceb.cam.ac.uk @pembroke1347.bsky.social
sportsgiving.co.uk/sponsorship/...
SportsGiving - Entry: Lorenzo Di Michele
Lorenzo Di Michele is fundraising for charity. Visit their fundraising page to sponsor them online now!
sportsgiving.co.uk
September 29, 2025 at 5:02 PM
Hey! Some group members and I are running a 10k race in Cambridge this Sunday, and raining some funds for @mdukcharity.bsky.social
Please donate and share!
@ceb.cam.ac.uk @pembroke1347.bsky.social
sportsgiving.co.uk/sponsorship/...
Please donate and share!
@ceb.cam.ac.uk @pembroke1347.bsky.social
sportsgiving.co.uk/sponsorship/...
Check out this new @jacs.acspublications.org paper by @rogerrubiosanchez.bsky.social. Building cation responsive DNA receptors for synthetic cells!
Really happy to see this published in its final form @jacs.acspublications.org! 🧬 In this paper, we introduce a new class of biomimetic receptors to host functionality in synthetic cell membranes
Elita Peters @dianatanase.bsky.social @dimichelelab1.bsky.social
pubs.acs.org/doi/10.1021/...
Elita Peters @dianatanase.bsky.social @dimichelelab1.bsky.social
pubs.acs.org/doi/10.1021/...
Cation-Controlled Assembly, Activity, and Organization of Biomimetic DNA Receptors in Synthetic Cell Membranes
Biological cells use cations as signaling messengers to regulate a variety of responses. Linking cations to the functionality of synthetic membranes is thus crucial to engineering advanced biomimetic agents such as synthetic cells. Here, we introduce bioinspired DNA-based receptors that exploit noncanonical G-quadruplexes for cation-actuated structural and functional responses in synthetic lipid membranes. Membrane confinement grants cation-dependent control over receptor assembly and, when supplemented with hemin cofactors, their peroxidase DNAzyme activity. Cation-mediated control extends to receptor lateral distribution to localize DNA-based catalysis within phase-separated membrane domains of model synthetic cells, imitating the localization of multimeric membrane complexes to signaling hubs in living cells. Our modular strategy paves the way for engineering from the bottom-up cation-responsive pathways for sensing, signaling, and communication in synthetic cellular systems.
pubs.acs.org
September 8, 2025 at 3:17 PM
Check out this new @jacs.acspublications.org paper by @rogerrubiosanchez.bsky.social. Building cation responsive DNA receptors for synthetic cells!
Reposted by Di Michele Lab
Happy to have developed the theory here, linking sequence-dependent charge patterns to favourable electrostatic interactions between homologous dsDNA🧬🧬
Matching theory & expt suggests a physical basis for sequence recognition that may underpin aspects of recombination, DNA repair, and replication.
Matching theory & expt suggests a physical basis for sequence recognition that may underpin aspects of recombination, DNA repair, and replication.
It turns out sDNA 🧬 interacts selectively! Andy Stannard measured these interactions very (very) precisely, and Ehud Haimov, @drjonhedley.bsky.social, Alexei Kornyshev worked out how it all works. It has to do with charge correlation... Check it out here
chemrxiv.org/engage/chemr...
chemrxiv.org/engage/chemr...
Detection and quantification of counterion-mediated homologous recognition in double-stranded DNA
Stretches of double-stranded DNA sharing the same sequence can recognise each other in cells. This phenomenon, known as homologous recognition, is essential for DNA recombination and repair. Yet, its ...
chemrxiv.org
September 4, 2025 at 5:37 PM
Happy to have developed the theory here, linking sequence-dependent charge patterns to favourable electrostatic interactions between homologous dsDNA🧬🧬
Matching theory & expt suggests a physical basis for sequence recognition that may underpin aspects of recombination, DNA repair, and replication.
Matching theory & expt suggests a physical basis for sequence recognition that may underpin aspects of recombination, DNA repair, and replication.
Also - we still need to decide where to submit this. Let’s try an unofficial poll. Where do BlueSky DNA enthusiasts see manuscript?
It turns out sDNA 🧬 interacts selectively! Andy Stannard measured these interactions very (very) precisely, and Ehud Haimov, @drjonhedley.bsky.social, Alexei Kornyshev worked out how it all works. It has to do with charge correlation... Check it out here
chemrxiv.org/engage/chemr...
chemrxiv.org/engage/chemr...
Detection and quantification of counterion-mediated homologous recognition in double-stranded DNA
Stretches of double-stranded DNA sharing the same sequence can recognise each other in cells. This phenomenon, known as homologous recognition, is essential for DNA recombination and repair. Yet, its ...
chemrxiv.org
August 31, 2025 at 8:54 AM
Also - we still need to decide where to submit this. Let’s try an unofficial poll. Where do BlueSky DNA enthusiasts see manuscript?
It turns out sDNA 🧬 interacts selectively! Andy Stannard measured these interactions very (very) precisely, and Ehud Haimov, @drjonhedley.bsky.social, Alexei Kornyshev worked out how it all works. It has to do with charge correlation... Check it out here
chemrxiv.org/engage/chemr...
chemrxiv.org/engage/chemr...
Detection and quantification of counterion-mediated homologous recognition in double-stranded DNA
Stretches of double-stranded DNA sharing the same sequence can recognise each other in cells. This phenomenon, known as homologous recognition, is essential for DNA recombination and repair. Yet, its ...
chemrxiv.org
August 31, 2025 at 7:36 AM
It turns out sDNA 🧬 interacts selectively! Andy Stannard measured these interactions very (very) precisely, and Ehud Haimov, @drjonhedley.bsky.social, Alexei Kornyshev worked out how it all works. It has to do with charge correlation... Check it out here
chemrxiv.org/engage/chemr...
chemrxiv.org/engage/chemr...
Reposted by Di Michele Lab
My work on DNA condensates @dimichelelab1.bsky.social is now out! 🧬🎉🍬
A huge thank you to @francolab.bsky.social lab for their invaluable expertise and to everyone in our lab for their insights, feedback, and countless discussions along the way. I’ve learned so much from working with you all!
A huge thank you to @francolab.bsky.social lab for their invaluable expertise and to everyone in our lab for their insights, feedback, and countless discussions along the way. I’ve learned so much from working with you all!
August 13, 2025 at 4:22 AM
My work on DNA condensates @dimichelelab1.bsky.social is now out! 🧬🎉🍬
A huge thank you to @francolab.bsky.social lab for their invaluable expertise and to everyone in our lab for their insights, feedback, and countless discussions along the way. I’ve learned so much from working with you all!
A huge thank you to @francolab.bsky.social lab for their invaluable expertise and to everyone in our lab for their insights, feedback, and countless discussions along the way. I’ve learned so much from working with you all!
Thrilled to share this new Adv. Sci. paper by @dianatanase.bsky.social with Dino Osmanovic @rogerrubiosanchez.bsky.social @laylamalouf.bsky.social @francolab.bsky.social. We demonstrate a modular approach to program internal phase separation in DNA condensates 1/n doi.org/10.1002/advs...
Internal Phase Separation in Synthetic DNA Condensates
The modular, programmable system of DNA nanostructures developed provides programmatic control over multiphase condensate behavior, enabling mapping onto a predictive Flory-Huggins model. This combin...
doi.org
August 12, 2025 at 11:34 PM
Thrilled to share this new Adv. Sci. paper by @dianatanase.bsky.social with Dino Osmanovic @rogerrubiosanchez.bsky.social @laylamalouf.bsky.social @francolab.bsky.social. We demonstrate a modular approach to program internal phase separation in DNA condensates 1/n doi.org/10.1002/advs...
Thrilled to share our latest preprint on expressing synthetic organelles made from RNA nanostructures in bacteria!
1/n
www.biorxiv.org/content/10.1...
1/n
www.biorxiv.org/content/10.1...
Expression of nano-engineered RNA organelles in bacteria
Designing synthetic biomolecular condensates, or membrane-less organelles, offers insights on the functions of their natural counterparts, and is equally valuable for cellular and metabolic engineerin...
www.biorxiv.org
July 9, 2025 at 2:25 PM
Thrilled to share our latest preprint on expressing synthetic organelles made from RNA nanostructures in bacteria!
1/n
www.biorxiv.org/content/10.1...
1/n
www.biorxiv.org/content/10.1...
Reposted by Di Michele Lab
Happy new year everyone, and some great news!
We have an opening for a PhD candidate to join our lab @cebcambridge.bsky.social in October 2025 as part of the new exciting MSCA Doctoral Network @comeincell.bsky.social
jobs.cam.ac.uk/job/49240/
We have an opening for a PhD candidate to join our lab @cebcambridge.bsky.social in October 2025 as part of the new exciting MSCA Doctoral Network @comeincell.bsky.social
jobs.cam.ac.uk/job/49240/
jobs.cam.ac.uk
January 2, 2025 at 11:46 AM
Happy new year everyone, and some great news!
We have an opening for a PhD candidate to join our lab @cebcambridge.bsky.social in October 2025 as part of the new exciting MSCA Doctoral Network @comeincell.bsky.social
jobs.cam.ac.uk/job/49240/
We have an opening for a PhD candidate to join our lab @cebcambridge.bsky.social in October 2025 as part of the new exciting MSCA Doctoral Network @comeincell.bsky.social
jobs.cam.ac.uk/job/49240/
Reposted by Di Michele Lab
🧪
News alert! Prof. Ljiljana Fruk and a team of researchers have developed a urine test that could detect early signs of lung cancer. Backed by Cancer Research UK, it’s a step forward in accessible healthcare.
Read the full story: www.ceb.cam.ac.uk/news/urine-t...
#DrivenbyCuriosity #DrivingChange
Read the full story: www.ceb.cam.ac.uk/news/urine-t...
#DrivenbyCuriosity #DrivingChange
Simple urine test could detect cancer and save countless lives
www.ceb.cam.ac.uk
December 6, 2024 at 2:16 PM
🧪
Great to see @pembroke1347.bsky.social here!
November 21, 2024 at 12:33 AM
Great to see @pembroke1347.bsky.social here!
Reposted by Di Michele Lab
HI! 👋 We’re the Department of Chemical Engineering and Biotechnology at the University of Cambridge. We like:
🧪Science that pushes the envelope
🌏Working to solve the world’s biggest challenges
🧑🔬Collaborating with amazing scientists
🫖Tea!
🤖Robots!
#DrivenByCuriosity #DrivingChange
🧪Science that pushes the envelope
🌏Working to solve the world’s biggest challenges
🧑🔬Collaborating with amazing scientists
🫖Tea!
🤖Robots!
#DrivenByCuriosity #DrivingChange
November 20, 2024 at 10:45 AM
HI! 👋 We’re the Department of Chemical Engineering and Biotechnology at the University of Cambridge. We like:
🧪Science that pushes the envelope
🌏Working to solve the world’s biggest challenges
🧑🔬Collaborating with amazing scientists
🫖Tea!
🤖Robots!
#DrivenByCuriosity #DrivingChange
🧪Science that pushes the envelope
🌏Working to solve the world’s biggest challenges
🧑🔬Collaborating with amazing scientists
🫖Tea!
🤖Robots!
#DrivenByCuriosity #DrivingChange
Amazing to see our work on designer RNA condensates featured on the cover of @naturenano.bsky.social!!!
#RNAnanotech #condensates #SynCells
www.nature.com/articles/s41...
#RNAnanotech #condensates #SynCells
www.nature.com/articles/s41...
November 17, 2024 at 1:27 AM
Amazing to see our work on designer RNA condensates featured on the cover of @naturenano.bsky.social!!!
#RNAnanotech #condensates #SynCells
www.nature.com/articles/s41...
#RNAnanotech #condensates #SynCells
www.nature.com/articles/s41...