Gabriel Mendoza-Rojas
@gabmrojas.bsky.social
PhD student at https://altegoerlab.de/, Heinrich-Heine University 🇩🇪 | Alumni Pohl Milon’s Lab - UPC 🇵🇪 | Biochemistry and Structural biology: Fungal GPCRs
Importantly, this research would not have been possible without funding from DFG, IRTG2466, CEPLAS & CRC1535
👀 Feedback and comments are warmly welcome!
@biorxivpreprint.bsky.social #GPCR #FungalBiology #PlantPathology #PhDLife
👀 Feedback and comments are warmly welcome!
@biorxivpreprint.bsky.social #GPCR #FungalBiology #PlantPathology #PhDLife
September 30, 2025 at 7:24 AM
Importantly, this research would not have been possible without funding from DFG, IRTG2466, CEPLAS & CRC1535
👀 Feedback and comments are warmly welcome!
@biorxivpreprint.bsky.social #GPCR #FungalBiology #PlantPathology #PhDLife
👀 Feedback and comments are warmly welcome!
@biorxivpreprint.bsky.social #GPCR #FungalBiology #PlantPathology #PhDLife
I’m so grateful to the amazing @faltegoer.bsky.social team behind this work, and big thanks to our international collaborators:
- Min & @billerbecks.bsky.social. Peptide–GPCR screening (Imperial College London)
- Orlando & Manav. Single-cell tracking & quantitative biology (NC State University)
- Min & @billerbecks.bsky.social. Peptide–GPCR screening (Imperial College London)
- Orlando & Manav. Single-cell tracking & quantitative biology (NC State University)
September 30, 2025 at 7:24 AM
I’m so grateful to the amazing @faltegoer.bsky.social team behind this work, and big thanks to our international collaborators:
- Min & @billerbecks.bsky.social. Peptide–GPCR screening (Imperial College London)
- Orlando & Manav. Single-cell tracking & quantitative biology (NC State University)
- Min & @billerbecks.bsky.social. Peptide–GPCR screening (Imperial College London)
- Orlando & Manav. Single-cell tracking & quantitative biology (NC State University)
The Gpe1–Pit2 system is conserved in smut fungi, suggesting a co-evolutionary arms race. A hint towards a broader relevance of peptide communication in fungi? We will find out, stay tuned!
(4/5)
(4/5)
September 30, 2025 at 7:24 AM
The Gpe1–Pit2 system is conserved in smut fungi, suggesting a co-evolutionary arms race. A hint towards a broader relevance of peptide communication in fungi? We will find out, stay tuned!
(4/5)
(4/5)
The system mimics the fungal pheromone signaling pathway (Ste2 in yeast). But with a twist: host enzymes control the activation.
(4/5)
(4/5)
September 30, 2025 at 7:24 AM
The system mimics the fungal pheromone signaling pathway (Ste2 in yeast). But with a twist: host enzymes control the activation.
(4/5)
(4/5)
We solved the crystal structure of Pit2 and found that it forms a homodimer that buries the activating peptide.
This explains why Gpe1 is only activated after host entry — a beautifully designed infection switch by nature, which drives fungal proliferation
(3/5)
This explains why Gpe1 is only activated after host entry — a beautifully designed infection switch by nature, which drives fungal proliferation
(3/5)
September 30, 2025 at 7:24 AM
We solved the crystal structure of Pit2 and found that it forms a homodimer that buries the activating peptide.
This explains why Gpe1 is only activated after host entry — a beautifully designed infection switch by nature, which drives fungal proliferation
(3/5)
This explains why Gpe1 is only activated after host entry — a beautifully designed infection switch by nature, which drives fungal proliferation
(3/5)
The story begins with Pit2, a previously described secreted protein from U. maydis. Once inside the plant, Pit2 is cleaved by apoplastic host proteases (PLCPs), releasing a hidden peptide.
This peptide directly activates Gpe1 — a previously uncharacterized GPCR and Pit2 genomic neighbour.
(2/5)
This peptide directly activates Gpe1 — a previously uncharacterized GPCR and Pit2 genomic neighbour.
(2/5)
September 30, 2025 at 7:24 AM
The story begins with Pit2, a previously described secreted protein from U. maydis. Once inside the plant, Pit2 is cleaved by apoplastic host proteases (PLCPs), releasing a hidden peptide.
This peptide directly activates Gpe1 — a previously uncharacterized GPCR and Pit2 genomic neighbour.
(2/5)
This peptide directly activates Gpe1 — a previously uncharacterized GPCR and Pit2 genomic neighbour.
(2/5)