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MibiNet aims to understand microbial networking in its full complexity to explain how organelles evolve and how the microbiome functions. https://www.sfb1535.hhu.de/

MibiNet

Please RT: Registration is ongoing for our International Symposium "Microbial Networking - from organelles to cross-kingdom communities" organized as highlight of the first funding period of CRC 1535 @mibinet.bsky.social www.sfb1535.hhu.de/internationa... @dfg.de, @hhu.de, @fz-juelich.de

🎉 Big congrats to Rudvi Pednker! She just won a Poster Prize at the EMBL Symposium ‘The cellular mechanics of symbiosis’! 🏆 Rudvi rocked the stage with a quick talk on using synthetic biology & optogenetics in mammalian cells to reconstruct host-endosymbiont interactions. #MibiNet

Congratulations Florian!! @mibinet.bsky.social

Burden-aware feedback control of microbial consortia www.nature.com/articles/s41... Could be of interest for @mibinet.bsky.social

A peek behind the scenes! For the 3rd time, MibiNet opened its lab doors for #Girlsday. From cheese fungi to palm oil substitutes from corn smut and fluorescence microscopy, proving that the smallest organisms can have the biggest impact. 🔬 @hhu.de

🌱Borjana Arsova @borjana-a.bsky.social vom @fz-juelich.de ist die 3. Forscherin, die wir zum #fascinationofplantsday vorstellen möchten. Sie arbeitet u.a. daran, die Widerstandsfähigkeit/Leistungsfähigkeit von Pflanzen zu verbessern und nutzt dafür Mikroorganismen, die das Pflanzenwachstum anregen.

Happy to share our finding on Lys-toxicity in #cyanobacteria @plantphys.bsky.social by talented PhD #AndreasEnkerlin A collaboration w/ @linkmetabolism.bsky.social @mfeldbruegge.bsky.social @dfg.de @sfb1381.bsky.social @cmfi.bsky.social @hhu.de @mibinet.bsky.social academic.oup.com/plphys/artic...

Predicting competition & substrate preferences for targeted #microbiome alteration. Microbial interaction & niche determination (MIND) infers microbial niches from mRNA translation to predict competition & guide interventions. www.sciencedirect.com/science/arti... #microbiota #MicroSky

Delighted to see this work out in #ScienceAdvancesResearch @science.org where we uncover a surprising evolutionary origin of fungal effector proteins as ancient antimicrobials. Led by the super-star @mesny.bsky.social in the frame of @ceplas.bsky.social @mibinet.bsky.social & @madfungi.bsky.social

Thanks to @mibinet.bsky.social for hosting this edition of INSPIRE with Prof. Annegret Wilde @freecyano.bsky.social from @uni-freiburg.de! At INSPIRE, a collab between CEPLAS, MibiNet and @trr341.bsky.social we invite women scientists to share their research and personal career journey. Great talk!

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Maintaining a defined community composition of engineered microbial consortia over time remains challenging. Here the authors develop a multicellular RNA-based feedback control system that stabiliszes...

www.nature.com

Burden-aware feedback control of microbial consortia - Nature Communications

Metabolomic analyses revealed that lysine rapidly disrupts the cell wall, energy homeostasis, amino acid balance, and photosynthesis in cyanobacteria, expl

academic.oup.com

Deciphering the metabolic details of L-lysine toxicity in cyanobacteria

MibiNet

Julia Frunzke

MibiNet

Khaled_Selim Lab

CEPLAS - Cluster of Excellence on Plant Sciences

Current Research in Microbial Sciences

Team Thomma

CEPLAS - Cluster of Excellence on Plant Sciences

Der Biologe Dr. Florian Altegoer vom Institut für Mikrobiologie der Heinrich-Heine-Universität Düsseldorf (HHU) erhält einen mit 210.000 Euro dotierten „Exploration Grant“ der Boehringer Ingelheim Stiftung (BIS).

🍂🌱 An international research team led by @teamthomma.bsky.social has discovered the surprising evolutionary origin of fungal effector proteins: molecules that pathogens use today to infect their hosts appear to have evolved from ancient antimicrobial proteins. More: ➡️ uni.koeln/UCMWQ #UniCologne

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