Roger Rubio Sánchez
@rogerrubiosanchez.bsky.social
BBSRC Discovery Fellow at University of Cambridge working on lipid membrane biophysics and bioengineering, DNA nanotechnology, and synthetic cells for healthcare and biotech #NewPI 🇲🇽🏳️🌈he/him
https://rogerrubiosanchez.wordpress.com/
https://rogerrubiosanchez.wordpress.com/
Pinned
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
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/...
Reposted by Roger Rubio Sánchez
There is still time to register for the EngBio Forum on Monday.
It's free to attend with a great speaker line up - Andreas Walther @waltherlab.bsky.social and Claudia Contini @continiclau.bsky.social exploring #SyntheticCells #LifeLikeSystems #EngineeringBiology
🎟️🫱 buytickets.at/engineeringb...
It's free to attend with a great speaker line up - Andreas Walther @waltherlab.bsky.social and Claudia Contini @continiclau.bsky.social exploring #SyntheticCells #LifeLikeSystems #EngineeringBiology
🎟️🫱 buytickets.at/engineeringb...
November 5, 2025 at 10:30 AM
There is still time to register for the EngBio Forum on Monday.
It's free to attend with a great speaker line up - Andreas Walther @waltherlab.bsky.social and Claudia Contini @continiclau.bsky.social exploring #SyntheticCells #LifeLikeSystems #EngineeringBiology
🎟️🫱 buytickets.at/engineeringb...
It's free to attend with a great speaker line up - Andreas Walther @waltherlab.bsky.social and Claudia Contini @continiclau.bsky.social exploring #SyntheticCells #LifeLikeSystems #EngineeringBiology
🎟️🫱 buytickets.at/engineeringb...
Thanks @syncelleu.bsky.social for highlighting our recent work on DNA receptors at @jacs.acspublications.org! 🧬 🧪 💡
Thanks to receptors on their membranes and the process of cell signalling, cells can sense their environment and respond to it
@rogerrubiosanchez.bsky.social & @dimichelelab1.bsky.social sought to mimic the early stages of this process by building receptors from DNA
syntheticcell.eu/dna-based-re...
@rogerrubiosanchez.bsky.social & @dimichelelab1.bsky.social sought to mimic the early stages of this process by building receptors from DNA
syntheticcell.eu/dna-based-re...
DNA-based receptors to help synthetic cells interact with their environment
Researchers have developed synthetic membrane receptors from DNA to mimic the early stages of cell signalling, a crucial process for cells
syntheticcell.eu
November 5, 2025 at 10:56 AM
Thanks @syncelleu.bsky.social for highlighting our recent work on DNA receptors at @jacs.acspublications.org! 🧬 🧪 💡
🚨I am excited to announce the upcoming Designer Membranes and Bio-inspired Interfaces Symposium, taking place at Wolfson College, Cambridge on the 26th and 27th of March 2026.
iop.eventsair.com/dmbi2025/
iop.eventsair.com/dmbi2025/
Home - Designer Membranes and Bio-inspired Interfaces
iop.eventsair.com
October 27, 2025 at 8:25 PM
🚨I am excited to announce the upcoming Designer Membranes and Bio-inspired Interfaces Symposium, taking place at Wolfson College, Cambridge on the 26th and 27th of March 2026.
iop.eventsair.com/dmbi2025/
iop.eventsair.com/dmbi2025/
Reposted by Roger Rubio Sánchez
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
Reposted by Roger Rubio Sánchez
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/...
Reposted by Roger Rubio Sánchez
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 Roger Rubio Sánchez
So glad to see this beautiful work out! Got to work with an amazing team and see these small but mighty DNA receptors in action. 🧬
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 4:55 PM
So glad to see this beautiful work out! Got to work with an amazing team and see these small but mighty DNA receptors in action. 🧬
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 11:19 AM
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/...
Super elegant work on DNA-DNA interactions 👇🏼 🧬
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 9:49 AM
Super elegant work on DNA-DNA interactions 👇🏼 🧬
Reposted by Roger Rubio Sánchez
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...
Reposted by Roger Rubio Sánchez
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!
Very exciting to see this preprint live! Check out @dimichelelab1.bsky.social 🧵 👇🏼 showing how to produce synthetic condensates as ‘designer’ membrane-less organelles inside bacteria using RNA nanotechnology 🧬 ✨
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 10, 2025 at 8:12 AM
Very exciting to see this preprint live! Check out @dimichelelab1.bsky.social 🧵 👇🏼 showing how to produce synthetic condensates as ‘designer’ membrane-less organelles inside bacteria using RNA nanotechnology 🧬 ✨
New preprint! 🚨
With Elita Peters @dianatanase.bsky.social @dimichelelab1.bsky.social, we introduce cation-regulated DNA receptors for structural and functional responses in synthetic cells! 🧬 We think they are useful for bottom-up sensing and signalling pathways.
Hope you enjoy the read!
With Elita Peters @dianatanase.bsky.social @dimichelelab1.bsky.social, we introduce cation-regulated DNA receptors for structural and functional responses in synthetic cells! 🧬 We think they are useful for bottom-up sensing and signalling pathways.
Hope you enjoy the read!
Cation-controlled assembly, activity, and organisation of biomimetic DNA receptors in synthetic cell membranes https://www.biorxiv.org/content/10.1101/2025.04.27.650532v1
May 1, 2025 at 9:02 AM
New preprint! 🚨
With Elita Peters @dianatanase.bsky.social @dimichelelab1.bsky.social, we introduce cation-regulated DNA receptors for structural and functional responses in synthetic cells! 🧬 We think they are useful for bottom-up sensing and signalling pathways.
Hope you enjoy the read!
With Elita Peters @dianatanase.bsky.social @dimichelelab1.bsky.social, we introduce cation-regulated DNA receptors for structural and functional responses in synthetic cells! 🧬 We think they are useful for bottom-up sensing and signalling pathways.
Hope you enjoy the read!
Reposted by Roger Rubio Sánchez
Fully funded PhD studentship in the group for Home students! Please RT!
www.findaphd.com/phds/project...
www.findaphd.com/phds/project...
Engineering of dynamic Synthetic Cells at Imperial College London on FindAPhD.com
PhD Project - Engineering of dynamic Synthetic Cells at Imperial College London, listed on FindAPhD.com
www.findaphd.com
March 27, 2025 at 10:17 AM
Fully funded PhD studentship in the group for Home students! Please RT!
www.findaphd.com/phds/project...
www.findaphd.com/phds/project...
Reposted by Roger Rubio Sánchez
📣NEW PAPER ALERT ⚠️
Finally out in Nature Communications, after unfortunately spending almost 1 year under review at Nature Materials 🤐
But very very pround of this work that was spearheaded by extremely talented PhD student Moritz Weck:
www.nature.com/articles/s41...
Finally out in Nature Communications, after unfortunately spending almost 1 year under review at Nature Materials 🤐
But very very pround of this work that was spearheaded by extremely talented PhD student Moritz Weck:
www.nature.com/articles/s41...
Fully addressable designer superstructures assembled from one single modular DNA origami - Nature Communications
Methods for creating large DNA assemblies with low cost and enhanced structural control are of interest. Here, the authors report moDON (modular DNA origami nanostructure) that combines two approaches...
www.nature.com
February 12, 2025 at 3:03 PM
📣NEW PAPER ALERT ⚠️
Finally out in Nature Communications, after unfortunately spending almost 1 year under review at Nature Materials 🤐
But very very pround of this work that was spearheaded by extremely talented PhD student Moritz Weck:
www.nature.com/articles/s41...
Finally out in Nature Communications, after unfortunately spending almost 1 year under review at Nature Materials 🤐
But very very pround of this work that was spearheaded by extremely talented PhD student Moritz Weck:
www.nature.com/articles/s41...
Reposted by Roger Rubio Sánchez
Research Fellow in Artificial Cell Modification
Particularly suited to applicants with expertise in protein overexpression and purification, peptide synthesis and characterisation of proteins and their conjugates, including mass spectrometry.
jobs.leeds.ac.uk/vacancy.aspx...
Particularly suited to applicants with expertise in protein overexpression and purification, peptide synthesis and characterisation of proteins and their conjugates, including mass spectrometry.
jobs.leeds.ac.uk/vacancy.aspx...
Job Opportunity at University of Leeds: Research Fellow in Artificial Cell Modification
Are you a creative and resourceful researcher looking for your next challenge? Do you have a background in protein engineering and modification? Would you like to be part of an international multidisc...
jobs.leeds.ac.uk
January 10, 2025 at 10:16 AM
Research Fellow in Artificial Cell Modification
Particularly suited to applicants with expertise in protein overexpression and purification, peptide synthesis and characterisation of proteins and their conjugates, including mass spectrometry.
jobs.leeds.ac.uk/vacancy.aspx...
Particularly suited to applicants with expertise in protein overexpression and purification, peptide synthesis and characterisation of proteins and their conjugates, including mass spectrometry.
jobs.leeds.ac.uk/vacancy.aspx...
Reposted by Roger Rubio Sánchez
PhD alert! I have two ERC-funded PhD positions to uncover the chemical origins of life (Oct 2025). *UK fees only*. Projects described here: www.lclu.cam.ac.uk/studentship-...
Email me if interested - deadline (PhD in Biochemistry, Uni of Cambridge): Jan 7th!
Please share within your networks!
Email me if interested - deadline (PhD in Biochemistry, Uni of Cambridge): Jan 7th!
Please share within your networks!
LCLU PhD Studentships | Leverhulme Centre for Life in the Universe
Applications are now open. The Leverhulme Centre for Life in the Universe and the University of Cambridge are committed to widening participation in postgraduate students at the University of Cambridg...
www.lclu.cam.ac.uk
December 10, 2024 at 8:43 PM
PhD alert! I have two ERC-funded PhD positions to uncover the chemical origins of life (Oct 2025). *UK fees only*. Projects described here: www.lclu.cam.ac.uk/studentship-...
Email me if interested - deadline (PhD in Biochemistry, Uni of Cambridge): Jan 7th!
Please share within your networks!
Email me if interested - deadline (PhD in Biochemistry, Uni of Cambridge): Jan 7th!
Please share within your networks!
Reposted by Roger Rubio Sánchez
If you’re interested in immune cell metabolism I’m recruiting for a PhD student. Deadline: 17th Jan. Start date: Sept 2025. Informal discussion always welcome.
www.findaphd.com/phds/project...
www.findaphd.com/phds/project...
EASTBIO-Investigating phosphoinositide acyl chain composition as a novel regulator of T cell signalling during ageing at University of Edinburgh on FindAPhD.com
PhD Project - EASTBIO-Investigating phosphoinositide acyl chain composition as a novel regulator of T cell signalling during ageing at University of Edinburgh, listed on FindAPhD.com
www.findaphd.com
December 10, 2024 at 3:37 PM
If you’re interested in immune cell metabolism I’m recruiting for a PhD student. Deadline: 17th Jan. Start date: Sept 2025. Informal discussion always welcome.
www.findaphd.com/phds/project...
www.findaphd.com/phds/project...
Reposted by Roger Rubio Sánchez
Great talks by Juliette Bucci @cebcambridge.bsky.social and Honghao Su @honghaosu.bsky.social @plantscience.bsky.social at our EngBio ECR Meetup today. We hope to see you at next meetup 20 Jan 👉 www.tickettailor.com/events/engin...
December 9, 2024 at 3:09 PM
Great talks by Juliette Bucci @cebcambridge.bsky.social and Honghao Su @honghaosu.bsky.social @plantscience.bsky.social at our EngBio ECR Meetup today. We hope to see you at next meetup 20 Jan 👉 www.tickettailor.com/events/engin...
Reposted by Roger Rubio Sánchez
#Phd project available to join my group and @drmikebooth.bsky.social group at @uclchemistry.bsky.social on the #CDT in #Engineering Solutions for #Antimicrobial #Resistance to work on electrokinetic and nucleic acid technology for lateral flow assays (shorturl.at/mCozh)
App Deadline: 26/01/25
App Deadline: 26/01/25
December 5, 2024 at 12:36 PM
#Phd project available to join my group and @drmikebooth.bsky.social group at @uclchemistry.bsky.social on the #CDT in #Engineering Solutions for #Antimicrobial #Resistance to work on electrokinetic and nucleic acid technology for lateral flow assays (shorturl.at/mCozh)
App Deadline: 26/01/25
App Deadline: 26/01/25
Reposted by Roger Rubio Sánchez
Join us for the final EngBio Early Career Researcher Meetup of 2024! @engbioirc.bsky.social 📆Monday 9th December📍Cambridge West Hub. Talks by Juliette Bucci @cebcambridge.bsky.social 🧬 and Honghao Su @honghaosu.bsky.social @plantscience.bsky.social 🌱. 👉RSVP: www.tickettailor.com/events/engin...
December 2, 2024 at 10:02 AM
Join us for the final EngBio Early Career Researcher Meetup of 2024! @engbioirc.bsky.social 📆Monday 9th December📍Cambridge West Hub. Talks by Juliette Bucci @cebcambridge.bsky.social 🧬 and Honghao Su @honghaosu.bsky.social @plantscience.bsky.social 🌱. 👉RSVP: www.tickettailor.com/events/engin...
Reposted by Roger Rubio Sánchez
A growing starting package of the Engineering Biology community in Cambridge (UK) 🧬! Contact EngBio IRC @engbioirc.bsky.social if you want to be added go.bsky.app/CFmRK7X
November 26, 2024 at 8:59 PM
A growing starting package of the Engineering Biology community in Cambridge (UK) 🧬! Contact EngBio IRC @engbioirc.bsky.social if you want to be added go.bsky.app/CFmRK7X
Reposted by Roger Rubio Sánchez
Please share this PhD opportunity in my new lab in Bristol, using protein design/ engineering to understand and build molecular motors to control intracellular transport. Working with @markdodding.bsky.social and Prof Dek Woolfson.
www.findaphd.com/phds/project...
www.swbio.ac.uk/biomolecular...
www.findaphd.com/phds/project...
www.swbio.ac.uk/biomolecular...
November 28, 2024 at 4:55 PM
Please share this PhD opportunity in my new lab in Bristol, using protein design/ engineering to understand and build molecular motors to control intracellular transport. Working with @markdodding.bsky.social and Prof Dek Woolfson.
www.findaphd.com/phds/project...
www.swbio.ac.uk/biomolecular...
www.findaphd.com/phds/project...
www.swbio.ac.uk/biomolecular...
Reposted by Roger Rubio Sánchez
Ok, trying to bring my community back together... I created a starter pack for lipids and membrane protein aficionados!
Feel free to share, add and distribute, so we can come together again! 😍
go.bsky.app/AEeXh86
Feel free to share, add and distribute, so we can come together again! 😍
go.bsky.app/AEeXh86
November 16, 2024 at 3:53 AM
Ok, trying to bring my community back together... I created a starter pack for lipids and membrane protein aficionados!
Feel free to share, add and distribute, so we can come together again! 😍
go.bsky.app/AEeXh86
Feel free to share, add and distribute, so we can come together again! 😍
go.bsky.app/AEeXh86
Reposted by Roger Rubio Sánchez
I am excited to share our review published online with Nature Reviews MCB. Pilong Li, Gaofeng Pei, Heankel Lyons, and I review the current literature on the regulation of transcription by condensates, large length scale assemblies of complexes (Figure 1).
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Transcription regulation by biomolecular condensates - Nature Reviews Molecular Cell Biology
Transcriptional condensates, which are formed through dynamic multivalent interactions between proteins, RNA and chromatin, regulate transcription by compartmentalizing its machinery in the crowded nu...
www.nature.com
November 18, 2024 at 11:06 PM
I am excited to share our review published online with Nature Reviews MCB. Pilong Li, Gaofeng Pei, Heankel Lyons, and I review the current literature on the regulation of transcription by condensates, large length scale assemblies of complexes (Figure 1).
www.nature.com/articles/s41...
www.nature.com/articles/s41...