Thrilled to announce that our paper on Glycan Atlassing is officially published in Nature Nanotechnology!🧬🍭
We developed "Glycan Atlassing," a method to map the glycocaly at nanometer resolution. This allows us to trace cellular states and opens new avenues for diagnostics and therapy..
A massive thank you to my dearest friend, colleague and together we share first co-authorship with @dijo-mj.bsky.social and our supervisor @lmoeckl.bsky.social, and our fantastic team and collaborators for the hard work that went into this!
#NatureNanotechnology #Microscopy #Glycotime #DNA-PAINT
Multiplexed super-resolution microscopy of DNA-barcoded lectins and metabolically incorporated unnatural sugars quantitatively links the nanoscale spatial relationships of glycocalyx organization and ...
dlvr.it
On Monday 1 June, Prof. Dr. med. Stefan Uderhardt will join us to present 'Towards a tissue-level understanding of homeostasis and inflammation'. Our external seminars are open to all members of the University of Oxford. Don't miss it! events.ox.ac.uk/oxford_event...
Supplementary. Fig. 6-7
Nazlican Yürekli
Thrilled to announce that our paper on Glycan Atlassing is officially published in Nature Nanotechnology!🧬🍭
We developed "Glycan Atlassing," a method to map the glycocaly at nanometer resolution. This allows us to trace cellular states and opens new avenues for diagnostics and therapy..
Preprinted! Been working on this for ~1 year w wonderful coauthors Nancy & Mark:
> Understanding Artificial Neural Networks: Mysterianism about Known Mechanism is Mysticism
doi.org/10.5281/zeno...
Have you noticed many experts say they don't understand AI? What's going on? 🤯 Let us tell you...
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Hello #world, meet 1,000× Expansion Microscopy.
A small gel would grow to the size of an Olympic swimming pool, while amino-acid-scale distances become visible with ordinary light microscopy.
Led by Helena Hu from @eboyden3.bsky.social's lab, in collab with us.
Story: www.biorxiv.org/content/10.6...
Nature Nanotechnology, Published online: 14 May 2026; doi:10.1038/s41565-026-02151-yMultiplexed super-resolution microscopy of DNA-barcoded lectins and metabolically incorporated unnatural sugars quantitatively links the nanoscale spatial relationships of glycocalyx organization and cellular state.
“Academic science is not only about productivity, it is also about deep understanding, exploring creative solutions and training critical thinkers to be the next generation of researchers.”
www.nature.com/articles/d41...
Ali Shaib
Ali Shaib
New in Nature: LLMs give "the party line" in the languages of authoritarian regimes. This works when they control the media, which feeds pretraining data. We show more state control over the media means less critical LLMs. 6 studies spanning 38 languages & 13 models. Details ↓
Artificial intelligence is rapidly accelerating scientific output, but risks narrowing inquiry, weakening judgement and undermining how scientists are trained.
www.nature.com
Nature Nanotechnology, Published online: 14 May 2026; doi:10.1038/s41565-026-02151-yMultiplexed super-resolution microscopy of DNA-barcoded lectins and metabolically incorporated unnatural sugars quantitatively links the nanoscale spatial relationships of glycocalyx organization and cellular state.
Nature Nanotechnology, Published online: 14 May 2026; doi:10.1038/s41565-026-02154-9Glycan atlassing is a method for the detection of the spatial organization of cell-surface glycosylation patterns at nanoscale. It shows that such patterns reflect the functional state of the cell, providing direct evidence that the cell-surface glycome encodes biological information via its spatial organization.
