Accurate Macromolecular Complex Modeling for Cryo-EM with CryoZeta pubmed.ncbi.nlm.nih.gov/41756897/ #cryoEM
28.02.2026 19:16
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A cryo-EM processing pipeline for microtubules using CryoSPARC https://www.biorxiv.org/content/10.64898/2026.02.24.703950v1
25.02.2026 16:48
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Original post on fediscience.org
RE: https://fediscience.org/@Guillawme/111534984107819771
Something really cool happened to me this year!
@HRBridges re-processed a #cryoEM dataset from some previous work of mine and colleagues (publicly available as EMPIAR-10739; see quoted post below for a summary of this work). She [β¦]
28.12.2025 16:32
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Our latest work is out in @science.org !!!!!!! We look into #chromatin condensates at near atomistic resolution to decipher its phase behaviour and material properties π©βπ¬π₯Όπ§¬
05.12.2025 14:34
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I am pleased to announce the release of ProteinDJ v2! This is a major update that integrates BindCraft into the pipeline as an alternative to RFdiffusion for binder generation. You can try it out here: github.com/PapenfussLab/proteindj
#ProteinDJ #BindCraft #ProteinDesign @wehi-research.bsky.social
25.11.2025 03:00
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π Introducing fully automated data processing for repeat-target #cryoEM.
Using new tools in #CryoSPARC, it is now possible to obtain resolutions & map quality equal to or better than manual processing, with zero user intervention.
Preprint: www.biorxiv.org/content/10.1...
20.10.2025 14:32
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Structures from AlphaFold3 - while often impressively good - tend to fail representing the dynamic ensembles accurately. And often parts of the structure are not correct.
Adding experimental data, directly in AlphaFold's diffusion step, provides physically realistic protein ensembles. This image shows two cases where AlphaFold3-only structures were largely improved by guiding with experimental data.
π’ New preprint:
Experiment-guided AlphaFold3 resolves accurate protein ensembles.
doi.org/10.1101/2025...
AlphaFold3 is incredible, but has crucial limitations: it typically collapses to a single conformation, ignoring the inherent dynamics of proteins. And it can be wrong. Here's a solution. π§΅π
18.10.2025 18:59
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Quote from Dr. Mingda Ye, University of Oxford, highlighting the collaborative breakthrough in cryo-EM imaging of small proteins: βThis idea was initiated when solving sub-50kDa protein structures by cryo-EM was almost impossible. To break this barrier, many world-class scientists in different fields have combined forces and it is a great honour to work with them to bring this game-changing tool into reality!β The background diagram outlines the scientific workflow used in the study.
Exciting work from the Franklin, @ox.ac.uk, and @diamondlightsource.bsky.social has led to a new method for imaging small proteins (<50 kDa) using cryoEM. By using bifunctional, bispecific nanobody scaffolds, the team have successfully solved the smallest protein structure to date (14 kDa).
18.08.2025 15:27
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Collagen VI microfibril structure reveals mechanism for molecular assembly and clustering of inherited pathogenic mutations
Nature Communications - Collagen VI microfibril cryo-EM structure resolves a cysteine-rich coiled-coil important for heterotrimerization and microfibril assembly, reveals a hotspot of collagen VI...
Amazing new paper from Clair Baldock's lab resolves the collagen VI microfibril structure by cryo-EM to reveal a cysteine-rich coiled-coil crucial for heterotrimerization & microfibril assembly. The structure also reveals a hotspot of collagen VI muscular dystrophy mutations that disrupt assembly.
15.08.2025 06:31
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We have written up a tutorial on how to run BindCraft, how to prepare your input PDB, how to select hotspots, and various other tips and tricks to get the most out of binder design!
github.com/martinpacesa...
30.06.2025 19:45
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π Excited to release BoltzDesign1!
β¨ Now with LogMD-based trajectory visualization.
π Demo: rcsb.ai/ff9c2b1ee8
Feedback & collabs welcome! π
π: GitHub: github.com/yehlincho/Bo...
π: Colab: colab.research.google.com/github/yehli...
@sokrypton.org @martinpacesa.bsky.social
03.06.2025 01:30
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Amazing #cryoEM structures and incredible community here at @cniostopcancer.bsky.social for the βmachines acting on DNA and RNAβ congress!
28.05.2025 12:53
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I also had fun in making gummy GLT25D1 making #notthecover using #blender
22.04.2025 09:33
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This was a massive work from @fornerislab.bsky.social fellows to ehihc I contributed when I was Postdoc, and great #teamwork with Giorgio Colombo lab, @claudio-iacobucci.bsky.social and Alberta Pinnola lab.
22.04.2025 09:33
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we found that the GT1 domain, while not catalytic, is surprisingly capable of binding CaΒ²βΊ and UDP-Ξ±-galactose. This was intriguing to us, but all the mutants in the GT1 site did not produce folded protein, consistent with a structural role for the GT1 (also confirmed by MD).
22.04.2025 09:33
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And here the question: are they both active? which one is the responsible for the GalT activity? We combined #mutagenesis with #biophysics and #moleculardynamics to show that only the GT2 domain exhibits catalytic activity, facilitated by an unusual Glu-Asp-Asp motif critical for MnΒ²βΊ binding.
22.04.2025 09:33
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Each monomer contains two domains (GT1 and GT2) connected by a long but ordered linker. Surprisingly, both domains are capable of binding metal ions and the donor substrate UDP-Ξ±-galactose.
22.04.2025 09:33
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We solved the #Xray structure of GLT25D1/COLGALT1 via experimental phasing (yes, it was before #Alphafold) showing that it forms an elongated head-to-head homodimer
22.04.2025 09:33
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Collagen's function are ensured by essential post-translational modifications including galactosylation.
GLT25D1 is the galactosyltransferase enzyme responsible for initiating the glycosylation of hydroxylysine in collagen. but its structure was missing until now
22.04.2025 09:33
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Super happy to share the final shape of our work describing the molecular #structure and #enzymatic mechanism of human #collagen #galactosyltransferase #GLT25D1 published in @natcomms.nature.com. Want to know how collagen become sweet? read the 𧡠below!
22.04.2025 09:33
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Image processing for cryo-electron microscopy
Cryo electron microscopy (cryo EM) is a major structural biology method for studying macromolecular complexes and cellular structures in their native states. Stable high resolution cryo microscopes, β¦
We are thrilled to announce the 2025 EMBO practical course in cryo-em image processing, Birkbeck College, London, 9-16 Sept 2025. More info & apply: meetings.embo.org/event/25-cry... Organisers Giulia Zanetti & Helen Saibil. Beautiful image from co-organizer @carolynmoores1.bsky.social lab.
18.03.2025 19:06
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This is a masterpiece ! #cryoEM
Structures of H2A.Z-associated human chromatin remodelers SRCAP and TIP60 reveal divergent mechanisms of chromatin engagement
www.biorxiv.org/content/10.1...
04.03.2025 08:47
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Did you make our cryo-EM webinar last week? Dive into pre-processing, how to interpret 2D classes, 3D reconstructions from the initial map to final structure with CSO Giovanna Scapin.
Catch it here: youtu.be/2dBnPVkaoFs
Sign up for Overcoming Limitations, on 3/25: nimgs.zoom.us/webinar/regi...
04.03.2025 18:34
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Been thinking about creating a collection of good protein structure figures, as inspiration for my own work.
#1 www.nature.com/articles/s41...
03.03.2024 08:37
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#SIRT7 is a histone deacetylase with highly specific activity on #chromatin substrates.
We just published mechanism-based #cryoEM structures of #SIRT7 on nucleosomes to understand its activity π
www.nature.com/articles/s41...
(1/8) #ChemBio #ChemSky
04.02.2025 13:13
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