Antonio Serrano
@antonioserrano.bsky.social
Researcher in Fungal Biology 🍄🔬. Currently Postdoctoral Researcher at @CBGP_Madrid 🇪🇸 Former MSCA IF Postdoc at @ibvnice 🇫🇷 PhD from @tuBraunschweig 🇩🇪
PhD position avaiable at the CBGP with Clara Sánchez in Madrid, Spain. Share to anyone interested please! Open to international and national students.
December 8, 2024 at 10:13 PM
PhD position avaiable at the CBGP with Clara Sánchez in Madrid, Spain. Share to anyone interested please! Open to international and national students.
In summary, our results reveal a substantial fluidization of the cytoplasm during morphogenesis, a key process for fungal virulence, via a reduction in ribosome concentration and that importantly inhibition of ribosome biogenesis triggers filamentous growth (8/11)
November 19, 2024 at 2:47 PM
In summary, our results reveal a substantial fluidization of the cytoplasm during morphogenesis, a key process for fungal virulence, via a reduction in ribosome concentration and that importantly inhibition of ribosome biogenesis triggers filamentous growth (8/11)
Depletion of a protein critical for ribosome biogenesis resulted in a reduction of rRNA levels and an increase in GEM Deff. Strikingly this also resulted in the induction of the yeast-to-filament transition (both morphologically and of hyphal specific genes) w/o serum. (7/11)
November 19, 2024 at 2:47 PM
Depletion of a protein critical for ribosome biogenesis resulted in a reduction of rRNA levels and an increase in GEM Deff. Strikingly this also resulted in the induction of the yeast-to-filament transition (both morphologically and of hyphal specific genes) w/o serum. (7/11)
Mass spectrometry revealed that ribosomal protein levels drop during filamentation. To directly visualize this, we carried out Cryo-EM+2D template matching and observed that filamentous cells have a lower ribosome concentration, which was proportional to their length. (6/11)
November 19, 2024 at 2:47 PM
Mass spectrometry revealed that ribosomal protein levels drop during filamentation. To directly visualize this, we carried out Cryo-EM+2D template matching and observed that filamentous cells have a lower ribosome concentration, which was proportional to their length. (6/11)
🧮 Mathematical modeling (both theoretical predictive equations and simulations) recapitulate our observations, that is the ~2-fold increase in Deff as cell volume increases. This supports our initial hypothesis: there is a substantial dilution of a cytoplasmic crowder. (5/11)
November 19, 2024 at 2:47 PM
🧮 Mathematical modeling (both theoretical predictive equations and simulations) recapitulate our observations, that is the ~2-fold increase in Deff as cell volume increases. This supports our initial hypothesis: there is a substantial dilution of a cytoplasmic crowder. (5/11)
We found GEM Deff increases 2x during filamentation, indicating that the cytoplasm becomes more fluid and likely less crowded. Fluidity correlates very nicely with filament length/volume, suggesting a substantial dilution of molecular crowders e.g. ribosomes. (4/11)
November 19, 2024 at 2:47 PM
We found GEM Deff increases 2x during filamentation, indicating that the cytoplasm becomes more fluid and likely less crowded. Fluidity correlates very nicely with filament length/volume, suggesting a substantial dilution of molecular crowders e.g. ribosomes. (4/11)
The cytoplasm is highly crowded, and this affects a range of biological functions. We tracked how crowded the cytoplasm is during morphogenesis by using genetically encoded GEMs. Lower GEM effective diffusion (Deff) = higher crowding. This is the cytoplasm at 30 fps 🎥 (3/11)
November 19, 2024 at 2:47 PM
The cytoplasm is highly crowded, and this affects a range of biological functions. We tracked how crowded the cytoplasm is during morphogenesis by using genetically encoded GEMs. Lower GEM effective diffusion (Deff) = higher crowding. This is the cytoplasm at 30 fps 🎥 (3/11)
Using a passive fluorescent microrheological probe (GEMs), we reveal how cytoplasmic fluidity changes during yeast-to-filament morphogenesis, a key process for fungal virulence. (2/11)
November 19, 2024 at 2:47 PM
Using a passive fluorescent microrheological probe (GEMs), we reveal how cytoplasmic fluidity changes during yeast-to-filament morphogenesis, a key process for fungal virulence. (2/11)
November 16, 2024 at 4:31 PM
PhD position in cell biology to work at the CBGP in Madrid, Spain. Project: Dynamic Cell Wall remodeling during plant-microbe interaction. To apply: clara.sanchez@csic.es (subject: CWPM-PhD). #PhDposition #sciencejobs. Share please!
October 23, 2023 at 6:59 AM
PhD position in cell biology to work at the CBGP in Madrid, Spain. Project: Dynamic Cell Wall remodeling during plant-microbe interaction. To apply: clara.sanchez@csic.es (subject: CWPM-PhD). #PhDposition #sciencejobs. Share please!
Farewell to summer!
September 18, 2023 at 9:57 PM
Farewell to summer!