Rada-Iglesias Lab
@radaiglesiaslab.bsky.social
Enhancer biology in development and congenital disease.
Mushrooming and Birding.
Mushrooming and Birding.
Pinned
OFERTA DE EMPLEO (por favor difundir):
Ofrecemos un contrato predoctoral de 4 años asociado a nuestro proyecto PID2024-157249OB-I00. El objetivo del proyecto es evaluar un nuevo mecanismo patológico según el cual la competición entre promotores puede llegar a ocasionar enfermedades congénitas
👇
Ofrecemos un contrato predoctoral de 4 años asociado a nuestro proyecto PID2024-157249OB-I00. El objetivo del proyecto es evaluar un nuevo mecanismo patológico según el cual la competición entre promotores puede llegar a ocasionar enfermedades congénitas
👇
Reposted by Rada-Iglesias Lab
📣 Paper alert!
I am delighted that our paper exploring the impact of Neanderthal-derived variants on the activity of a disease-associated craniofacial enhancer has been published in Development today!
journals.biologists.com/dev/article/...
I am delighted that our paper exploring the impact of Neanderthal-derived variants on the activity of a disease-associated craniofacial enhancer has been published in Development today!
journals.biologists.com/dev/article/...
November 10, 2025 at 11:11 AM
📣 Paper alert!
I am delighted that our paper exploring the impact of Neanderthal-derived variants on the activity of a disease-associated craniofacial enhancer has been published in Development today!
journals.biologists.com/dev/article/...
I am delighted that our paper exploring the impact of Neanderthal-derived variants on the activity of a disease-associated craniofacial enhancer has been published in Development today!
journals.biologists.com/dev/article/...
Reposted by Rada-Iglesias Lab
Publico un obituario sobre James Watson, fallecido el 6 de noviembre, en mi blog #gen_ética en @naukas.bsky.social James Watson era complejo, un científico enorme e irrepetible que nos metió en la biología molecular, pero también difusor de ideas indefendibles.
montoliu.naukas.com/2025/11/09/j...
montoliu.naukas.com/2025/11/09/j...
James Watson: el Picasso del genoma - Gen-Ética
Estamos de luto en Biología, y también en Química y en la combinación de las mismas, en Bioquímica y su derivada, la Biología Molecular. El jueves 6 de noviembre falleció […]
montoliu.naukas.com
November 9, 2025 at 6:14 PM
Publico un obituario sobre James Watson, fallecido el 6 de noviembre, en mi blog #gen_ética en @naukas.bsky.social James Watson era complejo, un científico enorme e irrepetible que nos metió en la biología molecular, pero también difusor de ideas indefendibles.
montoliu.naukas.com/2025/11/09/j...
montoliu.naukas.com/2025/11/09/j...
Reposted by Rada-Iglesias Lab
La única figura del artículo de Watson & Crick publicado en @nature.com en 1953 con la estructura correcta de la doble hélice del ADN nos recuerda que:
1. el ADN es dextrógiro (gira a la derecha)
2. El ADN tiene surcos menores y mayores que se van sucediendo.
pubmed.ncbi.nlm.nih.gov/12569935/
1. el ADN es dextrógiro (gira a la derecha)
2. El ADN tiene surcos menores y mayores que se van sucediendo.
pubmed.ncbi.nlm.nih.gov/12569935/
November 9, 2025 at 8:33 PM
La única figura del artículo de Watson & Crick publicado en @nature.com en 1953 con la estructura correcta de la doble hélice del ADN nos recuerda que:
1. el ADN es dextrógiro (gira a la derecha)
2. El ADN tiene surcos menores y mayores que se van sucediendo.
pubmed.ncbi.nlm.nih.gov/12569935/
1. el ADN es dextrógiro (gira a la derecha)
2. El ADN tiene surcos menores y mayores que se van sucediendo.
pubmed.ncbi.nlm.nih.gov/12569935/
We recently reported that promoter competition can contribute to the robust insulation of gene regulatory domains (www.nature.com/articles/s41...).
We now offer a 4-years PhD contract to investigate whether the dirsuption of this regulatory mechanism can lead to congenital defects. More details 👇
We now offer a 4-years PhD contract to investigate whether the dirsuption of this regulatory mechanism can lead to congenital defects. More details 👇
November 6, 2025 at 6:37 PM
We recently reported that promoter competition can contribute to the robust insulation of gene regulatory domains (www.nature.com/articles/s41...).
We now offer a 4-years PhD contract to investigate whether the dirsuption of this regulatory mechanism can lead to congenital defects. More details 👇
We now offer a 4-years PhD contract to investigate whether the dirsuption of this regulatory mechanism can lead to congenital defects. More details 👇
OFERTA DE EMPLEO (por favor difundir):
Ofrecemos un contrato predoctoral de 4 años asociado a nuestro proyecto PID2024-157249OB-I00. El objetivo del proyecto es evaluar un nuevo mecanismo patológico según el cual la competición entre promotores puede llegar a ocasionar enfermedades congénitas
👇
Ofrecemos un contrato predoctoral de 4 años asociado a nuestro proyecto PID2024-157249OB-I00. El objetivo del proyecto es evaluar un nuevo mecanismo patológico según el cual la competición entre promotores puede llegar a ocasionar enfermedades congénitas
👇
November 6, 2025 at 5:24 PM
OFERTA DE EMPLEO (por favor difundir):
Ofrecemos un contrato predoctoral de 4 años asociado a nuestro proyecto PID2024-157249OB-I00. El objetivo del proyecto es evaluar un nuevo mecanismo patológico según el cual la competición entre promotores puede llegar a ocasionar enfermedades congénitas
👇
Ofrecemos un contrato predoctoral de 4 años asociado a nuestro proyecto PID2024-157249OB-I00. El objetivo del proyecto es evaluar un nuevo mecanismo patológico según el cual la competición entre promotores puede llegar a ocasionar enfermedades congénitas
👇
Reposted by Rada-Iglesias Lab
Our latest paper has just been published in Cell!
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
November 5, 2025 at 5:20 PM
Our latest paper has just been published in Cell!
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
Reposted by Rada-Iglesias Lab
To celebrate the most recently attributed José Luis Gomez Skarmeta prize #JLGS2024 we interviewed the prize winner @dariloops.bsky.social @cabd-upo-csic.bsky.social on his research and his thoughts on #DevBio youtu.be/eldKr4MIrIU?...
Premio José Luis Gómez Skarmeta a la excelencia científica 2024 a Dario Lupiáñez García
YouTube video by Sociedad Española de Biología del Desarrollo
youtu.be
November 3, 2025 at 2:19 PM
To celebrate the most recently attributed José Luis Gomez Skarmeta prize #JLGS2024 we interviewed the prize winner @dariloops.bsky.social @cabd-upo-csic.bsky.social on his research and his thoughts on #DevBio youtu.be/eldKr4MIrIU?...
Reposted by Rada-Iglesias Lab
➡️ Esta semana la Conexión Genoma #CSIC ha celebrado una jornada del Itinerario Cicerón para mostrar sus investigaciones en el campo de las ciencias genómicas
👩🔬El encuentro se ha centrado en su impacto en la agricultura, la alimentación, la industria y la salud
Descúbrelo!🧵
👩🔬El encuentro se ha centrado en su impacto en la agricultura, la alimentación, la industria y la salud
Descúbrelo!🧵
October 26, 2025 at 10:01 AM
➡️ Esta semana la Conexión Genoma #CSIC ha celebrado una jornada del Itinerario Cicerón para mostrar sus investigaciones en el campo de las ciencias genómicas
👩🔬El encuentro se ha centrado en su impacto en la agricultura, la alimentación, la industria y la salud
Descúbrelo!🧵
👩🔬El encuentro se ha centrado en su impacto en la agricultura, la alimentación, la industria y la salud
Descúbrelo!🧵
Reposted by Rada-Iglesias Lab
Reposted by Rada-Iglesias Lab
Come join us in Geneva for everything epigenetics and gene regulation. It will be a great meeting! Please repost!
www.keystonesymposia.org/conferences/...
www.keystonesymposia.org/conferences/...
Epigenetics and Gene Regulation in Health and Disease: Linking Basic Mechanisms with Therapeutic Opportunities | Keystone Symposia
Join us at the Keystone Symposia on Epigenetics and Gene Regulation in Health and Disease: Linking Basic Mechanisms with Therapeutic Opportunities, March 2026, in Geneva, with field leaders!
www.keystonesymposia.org
October 17, 2025 at 2:36 PM
Come join us in Geneva for everything epigenetics and gene regulation. It will be a great meeting! Please repost!
www.keystonesymposia.org/conferences/...
www.keystonesymposia.org/conferences/...
Reposted by Rada-Iglesias Lab
The TArgeted Cohesin Loader (TACL) paper was just published. Happy that we were able to contribute to this really exciting project!
If you want to learn how targeting cohesin to defined loci in the genome affects the local chromatin environment and transcription, look no further!
rdcu.be/eLiT5
If you want to learn how targeting cohesin to defined loci in the genome affects the local chromatin environment and transcription, look no further!
rdcu.be/eLiT5
Characterization of induced cohesin loop extrusion trajectories in living cells
Nature Genetics - This study introduces a system called TArgeted Cohesin Loader (TACL) that recruits cohesin complexes at defined genomic regions and induces loop extrusion events in living cells,...
rdcu.be
October 16, 2025 at 8:17 PM
The TArgeted Cohesin Loader (TACL) paper was just published. Happy that we were able to contribute to this really exciting project!
If you want to learn how targeting cohesin to defined loci in the genome affects the local chromatin environment and transcription, look no further!
rdcu.be/eLiT5
If you want to learn how targeting cohesin to defined loci in the genome affects the local chromatin environment and transcription, look no further!
rdcu.be/eLiT5
Reposted by Rada-Iglesias Lab
What is a promoter? And how does it work?
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
Enhancer-promoter compatibility is mediated by the promoter-proximal region
Gene promoters induce transcription in response to distal enhancers. How enhancers specifically activate their target promoter while bypassing other promoters remains unclear. Here, we find that the p...
www.biorxiv.org
October 16, 2025 at 3:06 PM
What is a promoter? And how does it work?
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
Reposted by Rada-Iglesias Lab
We are very pleased to announce our joint meeting with the German @gfeev.bsky.social and the Dutch Developmental Biology Societies, which will take place in Potsdam from the 10-13th of March 2026. Registration is now open! www.uni-potsdam.de/en/gfe-meeti...
October 6, 2025 at 4:21 PM
We are very pleased to announce our joint meeting with the German @gfeev.bsky.social and the Dutch Developmental Biology Societies, which will take place in Potsdam from the 10-13th of March 2026. Registration is now open! www.uni-potsdam.de/en/gfe-meeti...
Reposted by Rada-Iglesias Lab
⚠️ Paper alert: Using a novel CRISPR screening approach, we mapped the entire regulatory network controlling Xist—key for X-chromosome inactivation.
👉 We discover how sex and development signals are decoded at a single gene locus.
www.nature.com/articles/s41...
👇 Bluetorial
👉 We discover how sex and development signals are decoded at a single gene locus.
www.nature.com/articles/s41...
👇 Bluetorial
Reporter CRISPR screens decipher cis-regulatory and trans-regulatory principles at the Xist locus - Nature Structural & Molecular Biology
Here Schwämmle et al. develop CRISPR reporter screens to map transcription-factor-regulatory element interactions at the Xist locus, revealing a two-step mechanism integrating developmental and X-dosage signals to initiate X-chromosome inactivation.
www.nature.com
October 6, 2025 at 1:02 PM
⚠️ Paper alert: Using a novel CRISPR screening approach, we mapped the entire regulatory network controlling Xist—key for X-chromosome inactivation.
👉 We discover how sex and development signals are decoded at a single gene locus.
www.nature.com/articles/s41...
👇 Bluetorial
👉 We discover how sex and development signals are decoded at a single gene locus.
www.nature.com/articles/s41...
👇 Bluetorial
Reposted by Rada-Iglesias Lab
⚡⚡Excited to announce I'll be starting my lab at the Max Planck Institute of Molecular Genetics (@molgen.mpg.de) in Berlin in December! Leaving sunny California to join a fantastic environment with colleagues who do super cool work.
🔬🦠I'm hiring at all levels! 🔬🦠Check: www.molgen.mpg.de/fueyo-lab
🔬🦠I'm hiring at all levels! 🔬🦠Check: www.molgen.mpg.de/fueyo-lab
October 6, 2025 at 1:46 PM
⚡⚡Excited to announce I'll be starting my lab at the Max Planck Institute of Molecular Genetics (@molgen.mpg.de) in Berlin in December! Leaving sunny California to join a fantastic environment with colleagues who do super cool work.
🔬🦠I'm hiring at all levels! 🔬🦠Check: www.molgen.mpg.de/fueyo-lab
🔬🦠I'm hiring at all levels! 🔬🦠Check: www.molgen.mpg.de/fueyo-lab
Reposted by Rada-Iglesias Lab
🧵1/ Excited to share our new paper introducing a new #singlecell assay: scTF-seq, a high-throughput single-cell approach to explore how transcription factor (TF) dose shapes cell identity and reprogramming outcomes. 🔗 www.nature.com/articles/s41... Big congrats to the entire team @EPFL & @SIAT_China
Dissecting the impact of transcription factor dose on cell reprogramming heterogeneity using scTF-seq - Nature Genetics
This study introduces single-cell transcription factor (TF) sequencing, a single-cell barcoded and doxycycline-inducible TF overexpression approach that reveals dose-sensitive functional classes of TFs and cellular heterogeneity by mapping TF dose-dependent transcriptomic changes during the reprogramming of mouse embryonic multipotent stromal cells.
www.nature.com
October 6, 2025 at 6:57 AM
🧵1/ Excited to share our new paper introducing a new #singlecell assay: scTF-seq, a high-throughput single-cell approach to explore how transcription factor (TF) dose shapes cell identity and reprogramming outcomes. 🔗 www.nature.com/articles/s41... Big congrats to the entire team @EPFL & @SIAT_China
Reposted by Rada-Iglesias Lab
Kickstarting our Bluesky🦋 account with great news!
Our REPAIRome study finally out today in
@science.org
www.science.org/doi/10.1126/...
Our REPAIRome study finally out today in
@science.org
www.science.org/doi/10.1126/...
A comprehensive genetic catalog of human double-strand break repair
The analysis of DNA sequence outcomes provides molecular insights into double-strand break (DSB) repair mechanisms. Using parallel in-pool profiling of Cas9-induced insertions and deletions (indels) w...
www.science.org
October 4, 2025 at 7:27 AM
Kickstarting our Bluesky🦋 account with great news!
Our REPAIRome study finally out today in
@science.org
www.science.org/doi/10.1126/...
Our REPAIRome study finally out today in
@science.org
www.science.org/doi/10.1126/...
Reposted by Rada-Iglesias Lab
Today in @nature.com, we present our work leveraging functional genomics and human blastoids to uncover a human-specific mechanism in preimplantation development driven by the endogenous retrovirus HERVK.
Special thanks to the reviewers whose comments improved our manuscript a lot! rdcu.be/eI3tD
Special thanks to the reviewers whose comments improved our manuscript a lot! rdcu.be/eI3tD
A human-specific regulatory mechanism revealed in a pre-implantation model
Nature - Genetic manipulation of blastoids reveals the role of recently emerged transposable elements and genes in human development.
rdcu.be
October 1, 2025 at 6:08 PM
Today in @nature.com, we present our work leveraging functional genomics and human blastoids to uncover a human-specific mechanism in preimplantation development driven by the endogenous retrovirus HERVK.
Special thanks to the reviewers whose comments improved our manuscript a lot! rdcu.be/eI3tD
Special thanks to the reviewers whose comments improved our manuscript a lot! rdcu.be/eI3tD
Reposted by Rada-Iglesias Lab
Really excited to share our latest work led by @mattiaubertini.bsky.social and @nesslfy.bsky.social: we report that cohesin loop extrusion creates rare but long-lived encounters between genomic sequences which underlie efficient enhancer-promoter communication.
www.biorxiv.org/content/10.1...
A🧵👇
www.biorxiv.org/content/10.1...
A🧵👇
September 24, 2025 at 9:45 PM
Really excited to share our latest work led by @mattiaubertini.bsky.social and @nesslfy.bsky.social: we report that cohesin loop extrusion creates rare but long-lived encounters between genomic sequences which underlie efficient enhancer-promoter communication.
www.biorxiv.org/content/10.1...
A🧵👇
www.biorxiv.org/content/10.1...
A🧵👇
Reposted by Rada-Iglesias Lab
Happy to share the Biodiversity Cell Atlas white paper, out today in @nature.com. We look at the possibilities, challenges, and potential impacts of molecularly mapping cells across the tree of life.
www.nature.com/articles/s41...
www.nature.com/articles/s41...
September 24, 2025 at 3:12 PM
Happy to share the Biodiversity Cell Atlas white paper, out today in @nature.com. We look at the possibilities, challenges, and potential impacts of molecularly mapping cells across the tree of life.
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Reposted by Rada-Iglesias Lab
Our study on the role of LTR5HS and SVAs in regulation of human neural crest migration is now published as peer-reviewed paper on @molsystbiol.org!
Congrats to first author brilliant postdoc Laura Deelen, and all the authors involved! @imperialsci.bsky.social
www.embopress.org/doi/full/10....
Congrats to first author brilliant postdoc Laura Deelen, and all the authors involved! @imperialsci.bsky.social
www.embopress.org/doi/full/10....
September 22, 2025 at 11:24 AM
Our study on the role of LTR5HS and SVAs in regulation of human neural crest migration is now published as peer-reviewed paper on @molsystbiol.org!
Congrats to first author brilliant postdoc Laura Deelen, and all the authors involved! @imperialsci.bsky.social
www.embopress.org/doi/full/10....
Congrats to first author brilliant postdoc Laura Deelen, and all the authors involved! @imperialsci.bsky.social
www.embopress.org/doi/full/10....
Reposted by Rada-Iglesias Lab
🧬 How can we navigate the genetic complexity of inherited retinal diseases?
Our new paper in @ajhgnews.bsky.social presents RetiGene, a curated atlas of IRD genes, built with @erdc-team.bsky.social, to support diagnosis, research and therapy.
👉 bit.ly/467U1S9
#AcademicBlueSky #IRDs #VisionResearch
Our new paper in @ajhgnews.bsky.social presents RetiGene, a curated atlas of IRD genes, built with @erdc-team.bsky.social, to support diagnosis, research and therapy.
👉 bit.ly/467U1S9
#AcademicBlueSky #IRDs #VisionResearch
September 18, 2025 at 1:00 PM
Reposted by Rada-Iglesias Lab
Many conserved exons in the heart and brain utilize weak 5 ′ splice sites, yet they are accurately spliced. But how? We show that splicing fidelity is actively enforced through a QKI-U6 checkpoint at the U1→U6 handover in essential cardiac genes during organogenesis.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
QKI ensures splicing fidelity during cardiogenesis by engaging the U6 tri-snRNP to activate splicing at weak 5ʹ splice sites
During organogenesis, precise pre-mRNA splicing is essential to assemble tissue architecture. Many developmentally essential exons bear weak 5'splice sites (5'SS) yet are spliced with high precision, ...
www.biorxiv.org
September 8, 2025 at 6:12 AM
Many conserved exons in the heart and brain utilize weak 5 ′ splice sites, yet they are accurately spliced. But how? We show that splicing fidelity is actively enforced through a QKI-U6 checkpoint at the U1→U6 handover in essential cardiac genes during organogenesis.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
Reposted by Rada-Iglesias Lab
Become our colleague at @fmiscience.bsky.social! The FMI is a very special place to start your lab: a vibrant international institute with world-class research groups and facilities, core funding, fantastic trainees, great colleagues😅, and a collegial culture. Get in touch if you're interested!
🚨 We're hiring, please share! The FMI seeks a tenure-track Group Leader (Assistant Prof) in Structural Biology 🔬
Innovative scientists in genome regulation, RNA metabolism, or protein homeostasis—especially using cutting-edge approaches—apply now at www.fmi.ch/education-ca...
Innovative scientists in genome regulation, RNA metabolism, or protein homeostasis—especially using cutting-edge approaches—apply now at www.fmi.ch/education-ca...
September 8, 2025 at 8:41 AM
Become our colleague at @fmiscience.bsky.social! The FMI is a very special place to start your lab: a vibrant international institute with world-class research groups and facilities, core funding, fantastic trainees, great colleagues😅, and a collegial culture. Get in touch if you're interested!
Reposted by Rada-Iglesias Lab
This preprint is now a published peer-reviewed paper! Thanks to all the co-authors involved, to the funders and to @reviewcommons.org and @embopress.org @emboreports.org for a smooth editorial process! Excited to see this in press! www.embopress.org/doi/full/10....
@imperiallifesci.bsky.social
@imperiallifesci.bsky.social
August 20, 2025 at 1:23 PM
This preprint is now a published peer-reviewed paper! Thanks to all the co-authors involved, to the funders and to @reviewcommons.org and @embopress.org @emboreports.org for a smooth editorial process! Excited to see this in press! www.embopress.org/doi/full/10....
@imperiallifesci.bsky.social
@imperiallifesci.bsky.social