Science Meets Art! Amazing to see our paper and my little cartoon-style illustration published in the latest issue of @angew_chem. Many thanks to @Vladi76320028 and @RedoxDKFZ.
Paper Alert! Our findings on the iron nitrogenase’s ability to reduce #CO2 to feedstock chemicals under physiological conditions are out today @ScienceAdvances. Read the full story here: https://t.co/5y0SzhYehc
Thanks a lot for the invitation. We were happy to explain why catenated sulfur chain species - supersulfides matter in biology! @STakaaki26424@HozumiMotohashi@TetsuroMat25054
Small summary bellow:
How are hydrogen peroxide messages relayed to affect cell signalling?
Delighted to share our latest review with @ElizabethVeal9!
Thank you for the opportunity to contribute while on bed rest. Also first publication with my new affiliation
@LivUniBCSB!🎉
https://t.co/uWhGnzBRDZ
Having loads of fun at the first #GReXS conference in #Sendai this week! It brings together the best people from the #Supersulfide and the #Ferroptosis field to foster international collaboration with the Japanese research community. Thank you for the invitation @Sulfur_Vladi!
Can one self-assemble containers the size of cells using a single DNA origami? Well, now we can.
Check out our preprint, where we present the underlying Dipid (DNA origami inspired by lipids) framework(https://t.co/oaUOybQzXC).
(TEM image of a collapsed container)
If you ever felt the need for a thiol-independent chemogenetic H2O2 probe, here is the answer @NatureComms!!🥳 Congratulations Mo, @Sulfur_Vladi and the rest of the @RedoxDKFZ team! https://t.co/qM40U3PAp7
Supersulfides contribute to longevity in yeast. The mechanism might be relevant in mammals as well. Check the recent paper from our lab in Redox Biology! Congratulations to all involved. #aging#supersulfides@STakaaki26424@HozumiMotohashi@VlietAlbert
Hot off the press! Our #cryoEM structure of the Fe #nitrogenase complex has been published today in @NatureSMB!
https://t.co/tL5o25gVkV
Check out the tweetorial by @schulluc for a summary of our findings!
Delighted to share this work @NatureComms lead by the amazing @SDenolly! Thank you for the opportunity to contribute! @RedoxDKFZ@Sulfur_Vladi
Zika virus remodelled ER membranes contain proviral factors involved in redox and methylation pathways
https://t.co/40k8wjwxDf
My paper is out! 🎉 Proteome-wide tagging with an H2O2 biosensor reveals highly localized and dynamic redox microenvironments | @PNASNews@dkfz@RedoxDKFZ https://t.co/9oyMDqGXGk
Check our fresh review on supersulfide biology and translational medicine for disease control. Many thanks to co-authors. @STakaaki26424@HozumiMotohashi
https://t.co/pX9NTK0bSV
Find out what are supersulfides in the comments, 1/n
It is the first report showing that cysteine persulfidation can change the catalytic function of the enzyme. ADH5 can switch between GSNOR and FDH activity by persulfidation. @ScienceAdvances#persulfides#minorcontibution