CortésLab
@corteslab.bsky.social
We study DNA topology, the action of topoisomerses and DNA break repair to understand genome organization, dynamics and stability @cniostopcancer.bsky.social
https://repairome.bioinfo.cnio.es
https://repairome.bioinfo.cnio.es
Looking forward to reading that!
October 9, 2025 at 7:29 AM
Looking forward to reading that!
In this screen the system is blind to HR. Repeating with an homologous template is in the pipeline.
Muchas gracias! 😘
Muchas gracias! 😘
October 6, 2025 at 8:14 AM
In this screen the system is blind to HR. Repeating with an homologous template is in the pipeline.
Muchas gracias! 😘
Muchas gracias! 😘
Thanks a lot Benjamin. Glad you like it!
October 6, 2025 at 8:10 AM
Thanks a lot Benjamin. Glad you like it!
Thanks Iván! I also hope so 😀
October 6, 2025 at 8:09 AM
Thanks Iván! I also hope so 😀
Thanks so much, Juanma! Excited to discuss the paper in a couple of weeks at the Social DNAing Webinar Series. Grateful for the invitation!
October 6, 2025 at 8:08 AM
Thanks so much, Juanma! Excited to discuss the paper in a couple of weeks at the Social DNAing Webinar Series. Grateful for the invitation!
Thanks Nuria! Hope it's a useful resource for the cancer genomics field
October 6, 2025 at 8:00 AM
Thanks Nuria! Hope it's a useful resource for the cancer genomics field
Check out our web tool to see interactive networks of DSB repair genes, browse your gene of interest for its contribution to DSB repair profiles and analyze functional relationships based on similarities in repair patterns
Enjoy!!!
repairome.bioinfo.cnio.es
Enjoy!!!
repairome.bioinfo.cnio.es
REPAIRome
repairome.bioinfo.cnio.es
October 4, 2025 at 7:27 AM
Check out our web tool to see interactive networks of DSB repair genes, browse your gene of interest for its contribution to DSB repair profiles and analyze functional relationships based on similarities in repair patterns
Enjoy!!!
repairome.bioinfo.cnio.es
Enjoy!!!
repairome.bioinfo.cnio.es
Congratulations to all the people involved, also in
Ana Losada's
@rfleiro.bsky.social
@gmaci.bsky.social
labs
@cniostopcancer.bsky.social
Specially leading authors
Ernesto López de Alba
@israelsalguero.bsky.social
Daniel Giménez Llorente
Very proud of you!!!
Ana Losada's
@rfleiro.bsky.social
@gmaci.bsky.social
labs
@cniostopcancer.bsky.social
Specially leading authors
Ernesto López de Alba
@israelsalguero.bsky.social
Daniel Giménez Llorente
Very proud of you!!!
October 4, 2025 at 7:27 AM
Congratulations to all the people involved, also in
Ana Losada's
@rfleiro.bsky.social
@gmaci.bsky.social
labs
@cniostopcancer.bsky.social
Specially leading authors
Ernesto López de Alba
@israelsalguero.bsky.social
Daniel Giménez Llorente
Very proud of you!!!
Ana Losada's
@rfleiro.bsky.social
@gmaci.bsky.social
labs
@cniostopcancer.bsky.social
Specially leading authors
Ernesto López de Alba
@israelsalguero.bsky.social
Daniel Giménez Llorente
Very proud of you!!!
We provide:
- A catalog of how more than 18K genes affect DSB repair sequence outcomes induced by CRISPR-Cas9
- Examples of how it can be used at different levels, from identifying novel factors and functional relationships, to explaining mutational signatures in cancer
- A catalog of how more than 18K genes affect DSB repair sequence outcomes induced by CRISPR-Cas9
- Examples of how it can be used at different levels, from identifying novel factors and functional relationships, to explaining mutational signatures in cancer
October 4, 2025 at 7:27 AM
We provide:
- A catalog of how more than 18K genes affect DSB repair sequence outcomes induced by CRISPR-Cas9
- Examples of how it can be used at different levels, from identifying novel factors and functional relationships, to explaining mutational signatures in cancer
- A catalog of how more than 18K genes affect DSB repair sequence outcomes induced by CRISPR-Cas9
- Examples of how it can be used at different levels, from identifying novel factors and functional relationships, to explaining mutational signatures in cancer