Interested in protein self-organization. We rebuild the bacterial cell division machinery and small GTPase networks in vitro. https://looselab.ist.ac.at
Martin Loose
Time to say goodbye đź‘‹
After finishing his paper and defending his thesis, Marko is starting a new chapter as a postdoc at @cemess.bsky.social (Uni Wien). We’ll miss having you around! Congrats and all the best!
Photosynthetic bacteria helped shape Planet Earth. Among them cyanobacteria—microbes that produced the oxygen in Earth’s atmosphere & made complex life possible. They have captivated scientists for decades by offering insights into how life evolved from single cells into multicellular organisms.
Out now in @science.org
Repurposing of a DNA segregation machinery into a cytoskeletal system controlling cell shape | Science www.science.org/doi/10.1126/...
Bacteria, like eukaryotes, use conserved cytoskeletal systems for intracellular organization. The plasmid-encoded ParMRC system forms actin-like filaments that segregate low–copy number plasmids. In m...
One of the most exciting discoveries from our lab so far is now online as a preprint!
Read a story on how the ParMR and Min systems started to collaborate to create the CorMR cytoskeleton, which now controls cell shape in multicellular cyanobacteria:
www.biorxiv.org/content/10.1...
Happy to share a new preprint from the lab: Marko became interested in whether the disordered linker of FtsZ might influence how the protein organizes into the Z-ring. And this led to some surprising findings!
Preprint: www.biorxiv.org/content/10.1...
Bacterial cytokinesis is orchestrated by the Z-ring, a cytoskeletal structure formed by treadmilling filaments of the tubulin-like GTPase FtsZ. During assembly, filament curvature must match the cell ...
www.biorxiv.org
Bacteria, despite their diversity, use conserved cytoskeletal systems for their intracellular organization. In unicellular bacteria, the ParMRC DNA partitioning apparatus is well known for forming act...
