A long journey which started more than 10 years ago and finally is out. Great team work with the Escobar-Henriques Lab.

Have a look at our joint study with the #Philipp Lang Lab @HHU_de @MedHHU @KondadiLab revealing how cristae morphology affects viral replication, immune metabolism and immunity. Thanks to all collaborators.

Have a look at our joint study with the #Philipp Lang Lab @HHU_de @MedHHU @KondadiLab revealing how cristae morphology affects viral replication, immune metabolism and immunity. Thanks to all collaborators.

Mitochondrial fumarate inhibits Parkin-mediated mitophagy https://t.co/Ip5mGKD47j

Noga Preminger @Noga_Preminger, Ben Zucker, Sarah Hassdenteufel, Michael Kozlov, Maya Schuldiner & colleagues identify mitochondrial inner membrane remodelling as a driving force of organelle shaping using their data-driven biophysical model. https://t.co/wtJwqtWape #OpenAccess

Also honored to see our work highlighted in @Nature! Huge thanks to Navdeep S. Chandel and Ram P. Chakrabarty for the fantastic News & Views piece, describing the unexpected role of Ogdh and alpha-ketoglutarate in intestinal healing https://t.co/UJM6ydFjdf

Thrilled to share our newest publication in Materials & Design https://t.co/MehZfLeWMx: combinational treatment of the antimalarial drug chloroquine and nanoceria selectively kills triple negative breast cancer (TNBC) cells in a 2D and 3D cell system. To all authors: well done

What is the fate of mitochondria shed in migrasomes? While disposal of dysfunctional mito promote cellular health, the process is responsible for DAMPs eg. N-formyl peptides & cardiolipin, that trigger innate immune responses. #Aging 👨🏼‍🦳#inflammation 🔥

What complex are you if you have the most versatile company in close proximity? The MICOS Complex. Presenting the MINDNet: Proximity Proteomics @ReichertLab @HHU_de @UniklinikDUS. The work was done by talented Yulia Schaumkessel.

Preconditioning of human iPSCs with doxorubicin causes genome-wide transcriptional reprogramming in iPSC-derived cardiomyocytes ... https://t.co/9YPoNJLd45 #biorxiv_cellbio

We show that preconditioning of iPSCs with low pulse- treatment with a chemotherapeutic drug, doxorubicin, alters the fate of cardiomyocytes that originated from such treated cells. They become transcriptionally reprogrammed in a way that impaires cardiac muscle regeneration.

Excited to share our latest paper in @ScienceAdvances! We finally dissected a new pathway for mitochondrial quality control upon mtDNA replication stress! Let’s start a short thread! 🧵 https://t.co/YPb6TMTitu

https://t.co/AhUwGJ7jyk

Are u tired of reading about tariffs? Then take a look to our last work! @ScienceAdvances https://t.co/YPb6TMTitu

Congrats! Very important study.

There is still the chance to register for the webinar with Nils Wiedemann, Agnieszka Chacinska, Toni Barrientos, Jan Riemer and myself next Tuesday! 250 mitochondria lovers already signed up! @Riemerlab @A_Chacinska @Antonio41949078 @Mito_News

The newly founded study group on Cellular Organelles of the German Society for Biochemistry and Molecular Biology @GBM_eV had its first symposium in Kaiserslautern. Exciting meeting with excellent talks and posters! So much fun! Next year, we organelle lovers meet in Düsseldorf!

Still time to register and join for this exciting meeting in Düsseldorf, Germany, on “Climate change: consequences and possible solutions“ organized by the #BMFZ @WeberLab_HHU @HHU_de @MedHHU #Klimaschutz https://t.co/0z26ljlaE9

For all the metabolism lovers, we are excited to demonstrate that mitochondrial apolipoprotein MIC26 is a metabolic rheostat regulating central cellular fuel pathways! @melissalubeck10 @WeberLab_HHU @ReichertLab @ruchikancbs @UniklinikDUS @HHU_de

Accumulating evidence indicates that #mitochondria are not only the powerhouses driving the heart’s function, but also play a critical role in regulating mammalian embryonic heart development through non-energetic #metabolic processes. https://t.co/8axjKinUZ5