Joined August 2011
- Tweets 3,927
- Following 1,778
- Followers 2,386
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279 Photos and videos
Marco Trujillo retweeted
May 21
Excited to share our newly published "A Multidimensional View of Biomolecular Condensates in Plant Biology" in the Annual Review of Plant Biology!
We discuss emerging mechanisms, biological functions, and future directions. 🌱🔬 - go.shr.lc/43rf7Zj
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Marco Trujillo retweeted
May 20
Check out our latest work! AlphaFold 3 revealed a transient immune receptor complex that eluded biochemical studies for almost a decade🤯 We describe a conserved structural logic underlying sensor–helper communication in an NLR immune receptor network 🧵👇
biorxiv.org/content/10.64898…
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Marco Trujillo retweeted
May 21
Just published: The Hidden Handshake: How AlphaFold Solved a Decade-Long Mystery in Plant Immunity
Over ten years in the making - generations of students and postdocs, countless false starts, and others were chasing this too. Here's the structural basis of NLR activate-and-release, and, yes, we can engineer it.
medium.com/p/the-hidden-hand…
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Marco Trujillo retweeted
May 20
Really proud of this collaborative work exploring how fungal effectors exploit prion-like domains to access plastids and influence plant metabolism during symbiosis. Great to see the PEPSI–DXR story come together. @neto_flames @JohanaMisas @TheVilchezLab
biorxiv.org/content/10.64898…
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Marco Trujillo retweeted
Apr 24
🚨 Paper out now in #ScienceAdvances @ScienceMagazine
🌱🦠 Pathogens don’t just target protein degradation—they also hijack host translation. "Bacteria use P-body condensates to attenuate host translation during infection" ⚖️♻️
science.org/doi/10.1126/scia…
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Marco Trujillo retweeted
新作です! 植物の気孔の数を決める受容体キナーゼERECTAのK63ユビキチン修飾部位を同定。修飾不可な受容体は細胞膜上に残存するため活性が亢進し、その結果、気孔の数が減少することを示しました。おめでとう@NewPhyt 🥳🌱
nph.onlinelibrary.wiley.com/…
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Marco Trujillo retweeted
Pinner and Dietz made DNA origami shells which mimic biological clathrin proteins by grabbing onto lipid membranes and pulling out roughly spherical buds! Link "Programmable DNA shell scaffolds for directional membrane budding": nature.com/articles/s41467-0…
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Marco Trujillo retweeted
Really proud of this work led by Ruben Eichfeld! We show how a CBM domain gain/loss can rewire fungal chitinases, turning them from antifungal enzymes into immune-suppressing effectors that support plant symbiosis. nature.com/articles/s41467-0…
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Super interesting work! UFMylation moving up from a local ribosome repair signal to a systems-level coordinator of ER-nucleus #proteostasis
Mar 31
New #preprint 😍‼️ led by 2 incredible postdocs Ni Zhan & @ranjithbio: transforming #UFMylation from a local ribosome rescue pathway to systems level regulator of mRNA splicing biorxiv.org/content/10.64898… A short 🧵
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Mar 24
Interesting paper on the degradation of DELLAS (gibberellin pathway) by a plasma membrane localized E3 ubiquitin ligase to regulate growth under C/N imbalance #proteostasis
academic.oup.com/plcell/arti…
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Marco Trujillo retweeted
Mar 24
Cell-surface receptors play key roles across many biological processes.
In plants, these receptor families have undergone remarkable expansion. Here, we systematically review these receptors in @ThePlantJournal.
Happy to see this out!
onlinelibrary.wiley.com/doi/…
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Marco Trujillo retweeted
Mar 23
New review out! This might be the most up-to-date textbook on plant surface receptors and signaling. Great job, @BrunoNgou !
dx.doi.org/10.1111/tpj.70800
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Marco Trujillo retweeted
Mar 16
Plant MAPKs: Killers or protectors?
Find more here: sciencedirect.com/science/ar…
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Marco Trujillo retweeted
Targeting redundant gene families: A multiplexed, tissue-specific CRISPR toolbox for Arabidopsis genetic screens.
cell.com/cell-reports/fullte…
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Marco Trujillo retweeted
Feb 18
We are pleased to announce that CEPLAS has open research positions for both doctoral and postdoctoral researchers. Please help in spreading the word:
ceplas.eu/en/training-career…
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Feb 19
Looking forward to visiting Taiwan
and meeting alumni Ooi-Kock Teh now group leader @AcadSinica ipmb.sinica.edu.tw/en/people…
[@IPMBSinica Seminar]
2026-02-25 10:30; A134, Ag Tech Bldg
Speaker:Prof. Marco Trujillo @TrujilloLab (Head, Department of Plant Immune Biology, University of Hamburg, Germany)
Title:Protein homeostasis networks - challenges and opportunities for stressed plants
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Exciting work from @SpoelLab
Ubiquitin recognition integrates plant immune signaling by cell-surface and intracellular receptors @PPStasis
biorxiv.org/content/10.64898…
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Jan 30
The proteasome organization into fibers and other supramolecular arrangements contributes to its regulation #yeast
sciencedirect.com/science/ar…
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Marco Trujillo retweeted
Jan 27
Raman spectroscopy can be used to predict cellular physiology and proteome composition in E. coli.
🔗 elifesciences.org/articles/1…
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Marco Trujillo retweeted
Jan 23
Phosphorylation and ubiquitination synergistically promote the degradation of OsRbohB to modulate rice immunity (Hui Tao , Ruyi Wang , Feng He , Chongyang Zhang , et al) doi.org/10.1093/plcell/koaf2… @ASPB #PlantSci
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