Cells eating DNA composite materials! Live footage in the new paper spearheaded by Alessa Schipperges. Also: using the materials for protein production :) mdpi.com/1197370 via MDPI

Flow into #Biotechnology - our visions on flow reactors and their applications for biocatalysis and beyond. Shmoopy Zoom – Microfluidic reactors | The future of biocatalysis youtu.be/P5LYhKfCkmQ

Modeling-Assisted Design of Thermostable Benzaldehyde Lyases from Rhodococcus erythropolis for Continuous Production of alpha-Hydroxy Ketones (Rabe) Niemeyer-Lab Kersten Rabe #OpenAccess onlinelibrary.wiley.com/doi/10.1002/cb…

Check out this article from ChemBioChem titled "Modeling-Assisted Design of Thermostable Benzaldehyde Lyases from Rhodococcus erythropolis for Continuous Production of α-Hydroxy Ketones." Read here: ow.ly/MqfO50GIvwL #OpenAccess (Rabe) Niemeyer-Lab, Kersten Rabe

How do you quickly find out which membrane anchor is suitable for presenting a passenger protein on the cell surface? Great work from PhD students Sabrina Gallus and Esther Mittmann Shmoopy now online in ChemBioChem Chemistry Europe More details below …mistry-europe.onlinelibrary.wiley.com/doi/10.1002/cb…

A Modular System for the Rapid Comparison of Different Membrane Anchors for Surface Display on Escherichia coli (Kersten Rabe) Niemeyer-Lab #OpenAccess onlinelibrary.wiley.com/doi/10.1002/cb…

You want to install more than one protein on a DNA nanostructure? Sandra Kröll has developed an orthogonal system, which precisely couples to two chemical handles with high efficiency. Check out her great paper 👇 onlinelibrary.wiley.com/doi/10.1002/sm… Shmoopy

Starting into the final weeks of the year 🧑‍🎄 Shmoopy In the background the wall of fame - the PhD alumni 🧑‍🎓

#OnTheCover: Modeling-Assisted Design of Thermostable Benzaldehyde Lyases from Rhodococcus erythropolis for Continuous Production of alpha-Hydroxy Ketones (Rabe) Niemeyer-Lab Kersten Rabe onlinelibrary.wiley.com/doi/10.1002/cb…

MicroMatrix tackling cultivation - Interview on Campus Radio KIT with Coordinator Kersten Rabe (sorry, only german) 🧪🦠 #microbiology

Congratulations to Dr. Gallus from all of IBG-1! Looking forward to what's next 😀

🥇Congrats to alexander.belyy from MPI Dortmund Stefan Raunser, Svenja Moench from Niemeyer-Lab Shmoopy and Jaime Fernandez Sobaberas from BZH/Nickel Group for receiving the GBM Poster Awards at #GBMFallConference Heinrich-Heine-Universität Düsseldorf🎉

Great job Svenja! And well deserved recognition of the great science you are doing at IBG-1 👍🥳

Nice new work from IBG-1 from Kersten Rabe and Ahmed Zoheir!

Intracellular Assembly of Interacting Enzymes Yields Highly-Active Nanoparticles for Flow Biocatalysis (Niemeyer et al.) Niemeyer-Lab Kersten Rabe #openaccess thanks to #projektDEAL onlinelibrary.wiley.com/doi/10.1002/ch…

Nanoparticles for flow biocatalysis made in cells and exclusively from biocatalytically active enzymes - check out our new publication in ChemEurJ: Chemistry - A European Journal

Great novel material for Microbial Dark Matter decoding👇

An Immobilised Silicon-Carbon Bond-Forming Enzyme for Anaerobic Flow Biocatalysis by Kersten S. Rabe and co-workers (Niemeyer-Lab, Kersten Rabe). #OpenAccess thanks to #ProjektDEAL. onlinelibrary.wiley.com/doi/10.1002/cc…

📢Check out Issue 9: bit.ly/CCTC_09_2023 Featuring cover articles by Emiel Hensen & Chularat Wattanakit and Mariateresa.Giustiniano & Davide Ravelli. Including work by LESE_Group, @RoseGroup1, Jedrzej Walkowiak, Jose M Palomo, PalkovitsLab, Niemeyer-Lab & Kersten Rabe, and many more.

Imagine you could visualize the stress of microbes using a rainbow of fluorescent proteins! Our RGB-S reporter, a plasmid that monitors different stress types in real-time is now available through addgene: addgene.org/207841/ The paper: rdcu.be/dGdOX