RiemerLab @ UoCologne
@riemerlab.bsky.social
Interested in Redox, Mitochondria and much more…
Reposted by RiemerLab @ UoCologne
Interaction with AK2A links AIFM1 to cellular energy metabolism
Interaction with AK2A links AIFM1 to cellular energy metabolism
AIFM1 is crucial for mitochondrial function. Here, Rothemann, Pavlenko et al. show that AK2A interacts with NADH-dependent AIFM1 dimers. They demonstrate that this interaction stabilizes AIFM1 dimers and enhances their activity. Given the proximity to ADP/ATP translocases and ATP synthase, the AIFM1-AK2A complex may contribute to metabolic adaptation.
dlvr.it
July 7, 2025 at 3:19 PM
Interaction with AK2A links AIFM1 to cellular energy metabolism
New work in a great team effort with the @poepsel-lab.bsky.social. We identified novel interactors of AIFM1 and found that this protein once only associated with cell death is a master organizer of the mito-IMS: By interaction with AK2 and SLC25 family members ensuring metabolic adaptation.
June 26, 2025 at 7:32 PM
New work in a great team effort with the @poepsel-lab.bsky.social. We identified novel interactors of AIFM1 and found that this protein once only associated with cell death is a master organizer of the mito-IMS: By interaction with AK2 and SLC25 family members ensuring metabolic adaptation.
Reposted by RiemerLab @ UoCologne
@dfg.de retreats are great, especially when they come with a foosball table with integrated shot glasses - best networking!
Cheers to that, SPP2453
@warscheidlab.bsky.social
@cmunch.bsky.social
@herrmannlab.bsky.social
@riemerlab.bsky.social
@jaelab.bsky.social
Cheers to that, SPP2453
@warscheidlab.bsky.social
@cmunch.bsky.social
@herrmannlab.bsky.social
@riemerlab.bsky.social
@jaelab.bsky.social
June 10, 2025 at 7:39 PM
@dfg.de retreats are great, especially when they come with a foosball table with integrated shot glasses - best networking!
Cheers to that, SPP2453
@warscheidlab.bsky.social
@cmunch.bsky.social
@herrmannlab.bsky.social
@riemerlab.bsky.social
@jaelab.bsky.social
Cheers to that, SPP2453
@warscheidlab.bsky.social
@cmunch.bsky.social
@herrmannlab.bsky.social
@riemerlab.bsky.social
@jaelab.bsky.social
Reposted by RiemerLab @ UoCologne
Join us at the EMBO/FEBS lecture course:
The evolving role of mitochondria in metabolism
14 – 18 September 2025 | Belgrade, Serbia:
meetings.embo.org/event/25-mit...
The evolving role of mitochondria in metabolism
14 – 18 September 2025 | Belgrade, Serbia:
meetings.embo.org/event/25-mit...
The evolving role of mitochondria in metabolism
The history of mitochondria begins with their recognition as distinct cellular organelles in 1888 by Walther Flemming and the introduction of the term mitochondrion from the Greek roots meaning ‘thre…
meetings.embo.org
May 29, 2025 at 3:51 AM
Join us at the EMBO/FEBS lecture course:
The evolving role of mitochondria in metabolism
14 – 18 September 2025 | Belgrade, Serbia:
meetings.embo.org/event/25-mit...
The evolving role of mitochondria in metabolism
14 – 18 September 2025 | Belgrade, Serbia:
meetings.embo.org/event/25-mit...
A new tool from our lab :-). Together with the Brachvogel, Bogeski and Mielenz labs. We developed a genetically encoded sensor to monitor activity of the dipeptidases DPP8 and DPP9 in cells allowing us to ask fundamental questions about their spatiotemporal regulation. DOI: 10.26508/lsa.202403076
May 12, 2025 at 3:39 PM
A new tool from our lab :-). Together with the Brachvogel, Bogeski and Mielenz labs. We developed a genetically encoded sensor to monitor activity of the dipeptidases DPP8 and DPP9 in cells allowing us to ask fundamental questions about their spatiotemporal regulation. DOI: 10.26508/lsa.202403076
A new study from the @riemerlab.bsky.social and the bange lab. We found a new mode how specific degradation motifs become unmasked by DPP8/9. Really nice work by Kim, Konstantin and Franziska. As usual accompanied by a special graphical abstract. doi.org/10.1038/s443...
May 1, 2025 at 4:43 PM
A new study from the @riemerlab.bsky.social and the bange lab. We found a new mode how specific degradation motifs become unmasked by DPP8/9. Really nice work by Kim, Konstantin and Franziska. As usual accompanied by a special graphical abstract. doi.org/10.1038/s443...
Reposted by RiemerLab @ UoCologne
Monitoring subcellular NADP redox state with NAPstar biosensors @riemerlab.bsky.social @morganlab-saarland.bsky.social
@jan-oleniemeier.bsky.social
www.sciencedirect.com/science/arti...
@jan-oleniemeier.bsky.social
www.sciencedirect.com/science/arti...
Monitoring subcellular NADP redox state with NAPstar biosensors
www.sciencedirect.com
April 17, 2025 at 6:58 AM
Monitoring subcellular NADP redox state with NAPstar biosensors @riemerlab.bsky.social @morganlab-saarland.bsky.social
@jan-oleniemeier.bsky.social
www.sciencedirect.com/science/arti...
@jan-oleniemeier.bsky.social
www.sciencedirect.com/science/arti...
Reposted by RiemerLab @ UoCologne
A new biosensor is born 👼
The NAPstar family of genetically-encoded sensors for live NADP redox monitoring🔋🪫
Jointly with the Morgan lab & @riemerlab.bsky.social we looked in vitro, in yeast, plants & mammalian cells 🧪🦠🧫🌱
Where to go next? @naturecomms.bsky.social
doi.org/10.1038/s414...
The NAPstar family of genetically-encoded sensors for live NADP redox monitoring🔋🪫
Jointly with the Morgan lab & @riemerlab.bsky.social we looked in vitro, in yeast, plants & mammalian cells 🧪🦠🧫🌱
Where to go next? @naturecomms.bsky.social
doi.org/10.1038/s414...
A family of NADPH/NADP+ biosensors reveals in vivo dynamics of central redox metabolism across eukaryotes - Nature Communications
This article presents NAPstars, a family of genetically-encoded biosensors that enable real-time monitoring of NADP redox dynamics across species. The sensors reveal robust NADP redox regulation, cell...
doi.org
December 19, 2024 at 4:43 PM
A new biosensor is born 👼
The NAPstar family of genetically-encoded sensors for live NADP redox monitoring🔋🪫
Jointly with the Morgan lab & @riemerlab.bsky.social we looked in vitro, in yeast, plants & mammalian cells 🧪🦠🧫🌱
Where to go next? @naturecomms.bsky.social
doi.org/10.1038/s414...
The NAPstar family of genetically-encoded sensors for live NADP redox monitoring🔋🪫
Jointly with the Morgan lab & @riemerlab.bsky.social we looked in vitro, in yeast, plants & mammalian cells 🧪🦠🧫🌱
Where to go next? @naturecomms.bsky.social
doi.org/10.1038/s414...
Again, glutathione comes to the rescue. In yeast, Tsa1 oxidizes glutathione at moderate H2O2 concentrations when the TRX system becomes inactivated by oxidation. A study together with the Morganlab and the Depontelab. doi.org/10.1016/j.fr...
November 29, 2024 at 8:15 AM
Again, glutathione comes to the rescue. In yeast, Tsa1 oxidizes glutathione at moderate H2O2 concentrations when the TRX system becomes inactivated by oxidation. A study together with the Morganlab and the Depontelab. doi.org/10.1016/j.fr...
We just published a study on the first endogenous cysteine-free interactor of the mitochondrial disulfide relay - HAX1. HAX1 relies on MIA40 for folding and stability and does not require the redox fxn of MIA40. Nice collaboration w/ #ulrichlab. doi.org/10.1111/febs...
November 29, 2024 at 7:30 AM
We just published a study on the first endogenous cysteine-free interactor of the mitochondrial disulfide relay - HAX1. HAX1 relies on MIA40 for folding and stability and does not require the redox fxn of MIA40. Nice collaboration w/ #ulrichlab. doi.org/10.1111/febs...
Reposted by RiemerLab @ UoCologne
This week, the @crc1678 kick-off retreat brought all the project leaders together! 🚀 A fantastic opportunity to dive into projects, spark collaborations, and lay the groundwork for an exciting journey ahead. On our way to innovation, teamwork and impactful discoveries! 💡👩🔬🧑🔬 #Research #Collaboration
November 28, 2024 at 9:43 AM
This week, the @crc1678 kick-off retreat brought all the project leaders together! 🚀 A fantastic opportunity to dive into projects, spark collaborations, and lay the groundwork for an exciting journey ahead. On our way to innovation, teamwork and impactful discoveries! 💡👩🔬🧑🔬 #Research #Collaboration