Marcos Gil-Garcia
@marcosgil-garcia.bsky.social
Postdoc at ETH Zurich in the Prof. Paolo Arosio Lab at D-CHAB. Interested in protein aggregation and phase separation.
Will be recorded? I'm very interested! Thanks!
September 23, 2025 at 1:49 PM
Will be recorded? I'm very interested! Thanks!
This pH buffering represents a possible function of biological enzymatic condensates and opens attractive applications of synthetic condensates in biocatalytic engineering and optimization of cascade reactions.
July 16, 2025 at 1:59 PM
This pH buffering represents a possible function of biological enzymatic condensates and opens attractive applications of synthetic condensates in biocatalytic engineering and optimization of cascade reactions.
This pipeline could represent a promising strategy for the rational design of interface-localizing peptides and the identification of the corresponding molecular grammar.
May 15, 2025 at 3:07 PM
This pipeline could represent a promising strategy for the rational design of interface-localizing peptides and the identification of the corresponding molecular grammar.
-This approach was validated by targeting 3 distinct condensates (hnRNPA1, Laf-1 and Ddx4 IDRs), observing that for the three cases, peptides display surfactant-like structures.
-The net charge of the scaffold is a key physicochemical parameter for designing these peptides.
-The net charge of the scaffold is a key physicochemical parameter for designing these peptides.
May 15, 2025 at 3:06 PM
-This approach was validated by targeting 3 distinct condensates (hnRNPA1, Laf-1 and Ddx4 IDRs), observing that for the three cases, peptides display surfactant-like structures.
-The net charge of the scaffold is a key physicochemical parameter for designing these peptides.
-The net charge of the scaffold is a key physicochemical parameter for designing these peptides.
Very interesting for an experimentalist working on biomolecular condensates! Congrats!!
February 28, 2025 at 4:09 PM
Very interesting for an experimentalist working on biomolecular condensates! Congrats!!
Very nice talk! Congrats for such beautiful work!
February 26, 2025 at 9:50 PM
Very nice talk! Congrats for such beautiful work!
Here, we studied the structural duality of TRIAP1, where a redox-controlled structural transition resolves a folding kinetic trap by the assistance of the mitochondrial chaperone MIA40. (2/2)
www.sciencedirect.com/science/arti...
www.sciencedirect.com/science/arti...
MIA40 circumvents the folding constraints imposed by TRIAP1 function.
The MIA40 relay system mediates the import of small cysteine-rich proteins into the intermembrane mitochondrial space (IMS). MIA40 substrates are synt…
www.sciencedirect.com
February 7, 2025 at 8:14 AM
Here, we studied the structural duality of TRIAP1, where a redox-controlled structural transition resolves a folding kinetic trap by the assistance of the mitochondrial chaperone MIA40. (2/2)
www.sciencedirect.com/science/arti...
www.sciencedirect.com/science/arti...
Congratulations Xavier and team for such a beautiful work!
January 31, 2025 at 3:23 PM
Congratulations Xavier and team for such a beautiful work!