CryoEM | Anaerobic structural biology | Bioenergetics | CO2 fixation and energy conservation
SYNMIKRO Marburg
Anuj
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We just received funding for a 2yr postdoc position on cryoEM of fungal gpcrs. Official call will open soon.
Contact me if you‘re interested!
Cool to see our recent paper among the "Editors' Highlights" in @natcomms.nature.com that "aim to showcase the 50 best papers recently published" 🥰
www.nature.com/collections/...
Now online with @natcomms.nature.com 🤩
doi.org/10.1038/s414...
Very happy to share my first preprint from my PhD 🎉
doi.org/10.64898/202...
We develop an αHL-based framework to engineer and quantify selective diffusion across synthetic membranes using controlled nanopore chemistry. 1/7
Across scales from cells🦠 to atoms⚛️ – We reveal how anaerobic #bacteria break down very stable aromatic compounds found e.g. in oil spills 🛢️ #Bioremediation #TeamTomo 🧪 🧶🧬 🔬
Awesome collab with Lena, Matthias, @schullerjm.bsky.social @rnfr2d2.bsky.social @tomaspascoa.bsky.social @tamb-o.bsky.social
1/ Excited to share our preprint! 🥳
Degradation of aromatic compounds, including BTEX pollutants, requires highly endergonic aromatic ring reduction. Using #cryoEM and in situ #cryoET, we show how BCRII couples electron bifurcation modules in one giant redox machine
www.biorxiv.org/content/10.6...
Endlich wieder Massephase! 🙏🏻
Hier der Presseartikel für unsere neue Publikation:
www.uni-potsdam.de/de/nachricht...
@unipotsdam.bsky.social @unimarburg.bsky.social @schullerjm.bsky.social @natcomms.nature.com
Thanks for the fun collaboration into this fascinating “oil eating” biomachine. I learned a lot! 🧪 #TeamTomo
Check out our latest paper – today out in JACS - on proton gates in the antiporter modules of Complex I! So proud of my amazing lab – Sofia Badolato, Sarah Rossmann & Hyunho Kim – and thank you @kawresearch.bsky.social for long-term support of our work. pubs.acs.org/doi/10.1021/...
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).
1/ Excited to share our preprint! 🥳
Degradation of aromatic compounds, including BTEX pollutants, requires highly endergonic aromatic ring reduction. Using #cryoEM and in situ #cryoET, we show how BCRII couples electron bifurcation modules in one giant redox machine
www.biorxiv.org/content/10.6...
Ville Kaila
The respiratory Complex I is a highly intricate redox-driven proton pump that powers oxidative phosphorylation across all domains of life. Yet, despite major efforts, its long-range energy transductio...
Carbonic anhydrase catalyses the interconversion of CO2 and HCO3- and helps increasing the net-CO2 concentration inside cells. Why? CO2-reducing enzymes like RuBisCO are notoriously slow and ineffective. However, import of HCO3- is typically coupled to ATP consumption...
How do “LEGO-like” electron-bifurcating modules combine to drive degradation in BTEX-contaminated ecosystems?
Check out our latest preprint, where we use cryo-EM and cryo-ET to reveal how the 1 MDa BCRII complex powers extremely endergonic aromatic ring reduction.
www.biorxiv.org/content/10.6...
