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11d

One week left to apply for two 3-year postdocs in the lab on molecular mechanisms of Burkholderia pathogenesis. Posts associated with Magdalen College. Our lab is based in the Dunn School of Pathology with amazing collaborators at Oxford and MORU magdalencareers.pinpointhq.com/postings/c90...

magdalencareers.pinpointhq.com

Job Opening: Calleva Centre Postdoctoral Researchers- The deadly enigma of melioidosis: Decoding the pathogenesis of Burkholderia pseudomallei. at Magdalen College in Central Oxford.

Calleva Centre Postdoctoral Researchers- The deadly enigma of melioidosis: Decoding the pathogenesis of Burkholderia pseudomallei.

Teresa Thurston

Excited to share a preprint which is currently under revision! Together with the amazing @ymzhan.bsky.social in @patrick-cramer.maxplanck.de lab, we describe that the +1 nucleosome actively regulates the transition from transcription initiation to elongation www.biorxiv.org/content/10.6... 1/

Video

1mo

How do #tubulin dimers assemble and disassemble to form the #microtubule #cytoskeleton? Our recent #cryo-EM structures, published in #ScienceAdvances, demonstrate the processes of tubulin biogenesis and degradation. Click on the video and link below to learn more! www.science.org/doi/10.1126/...

1mo

Julio Abril Garrido

Thrilled to share the updated video of my paper in Nature with Maciej (under supervision of @simonemattei.bsky.social & @jomaalab.bsky.social) Proud to use Cryo-ET to uncover how hibernation factors are key to translation restart! To model PTMs in situ and render animations fulfilled my PhD dream!🥹🎉

Our latest study of the scavenger receptor CD163, led by Richard Zhou. This follows our previous study of how CD163 uses its remarkable molecular architecture to bind haptoglobin-haemoglobin. We now show how its flexible arms allow haemoglobin binding, revealing how ligand promiscuity works.

Cellular Structural Biology Wellcome DPhil Student at The University of Oxford. Working in Peijun Zhang’s lab at The Oxford Division of Structural Biology. Passionate about biomedical animation and science communication: Batisio.co.uk

28d

Matthew Clark

Aryan Taheri

26d

Video

Interested in molecular motors? Don’t miss this wonderful symposium in Salamanca on "The Structure and Workings of Molecular Machines" with an outstanding lineup of speakers. 📍 Salamanca, Spain 📅 Monday, June 22, 2026 🎟️ Attendance is free, but registration is required 👇👇👇

Join us at the 24th Workshop Cell Biology of Viral Infections @gesvirologie.bsky.social, Schöntal Monastery, 28–30.10.2026 cellviro.g-f-v.org “Cellular Routes and Roadblocks in Viral Genome Trafficking” Speakers: @beatesodeiklab.bsky.social · Alba Diz-Muñoz · @carogoujon.bsky.social · Redmond Smyth

Out today - structure of the human HIRA histone chaperone complex bound to nucleosomes. Ever wondered how nucleosomes are assembled in the wake of transcription? It takes a 'hulk of a protein complex'. Work by the amazing Wei Tian weetian558.bsky.social. www.biorxiv.org/content/10.6... 🧵

1mo

24d

Higor Rosa

Our story on RNA recognition by Egl-BicD is now published! Also delighted to share the accompanying News & Views article by Florence Besse and Andres Ramos, which beautifully highlights the work. Paper: www.nature.com/articles/s41... News & Views: www.nature.com/articles/s41...

Matt Higgins

1mo

Video

Structural basis for recognition of diverse localizing mRNAs by Egl–BicD - Nature Structural & Molecular Biology

Singh et al. combine cryo-electron microscopy and functional studies to reveal how a single protein complex selects diverse mRNAs for subcellular localization using a combination of shape, positional ...

www.nature.com

Raimon Sunyer

Chlanda lab

Karolin Luger

Carter Lab

Despite its name, SNOR, a newly discovered protein, is hardly asleep on the job. EMBL researchers’ newest technologies allowed their scientific collaboration to discover a tiny protein with a big role in awakening cells from dormancy to restart protein synthesis. www.embl.org/news/science...

28d

The hidden rules behind mRNA transport. A collaborative study between @simonbullock11.bsky.social & @carter-lab.bsky.social’s groups has found a structural code that explains how cells selectively transport mRNAs. Read more: mrclmb.ac.uk/news-events/... #LMBNews @cellbiol-mrclmb.bsky.social 🧪

Newly identified protein, SNOR, seems to help cells in a starvation-induced dormancy restart protein synthesis once nutrients are available.

www.embl.org

Providing a cellular ‘all-clear’ signal to resume protein synthesis | EMBL

1mo

EMBL

MRC Laboratory of Molecular Biology

With the recent news about the Andes hantavirus (ANDV), here is a drawing to show its structure: ssRNA genome divided into 3 segments for the RNA polymerase, glycoprotein precursor and nucleocapsid genes. ANDV contains an additional NS protein that inhibits immune response. #hantavirus #sciart

1mo

Matthew Clark