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The retromer complex

Solving the structure of retromer

Retromer’s 3D structure improves understanding of cellular sorting and packaging

By Guest author(s)

Science

By peering into the strands of the Ebola virus (pictured here), researchers were able to create a 3D model of the nucleocapsid.

High-res Ebola model could spark new questions

EMBL researchers create highest resolution 3D model of important structure within Ebola virus

By Sarah B. Puschmann

Science

capsids in HIV viruses

Structure of HIV capsid within virus visualised

EMBL scientists use new techniques to describe the architecture of conical HIV capsids

By Laura Howes

Science

How new HIV drugs lock virus in immaturity

Study provides insights into workings of new HIV drugs and how virus becomes resistant

By Sonia Furtado Neves

Science

How cells bag their rubbish

How cells eliminate protein deposits that can lead to neurodegenerative disorders

By Sonia Furtado Neves

Science

EMPIAR

Supporting the bioimaging revolution

Commentary in Nature Methods introduces the EMPIAR resource and gives glimpse of future developments

By Mary Todd Bergman

Science

Awards & Honours

EMBL scientists regularly receive prestigious awards – meet the latest honourees.

By Chloe Cross

Lab Matters

One hard pull

Fibres that pull membrane to form a vesicle exert a force that’s 2500 times a yeast cell’s own weight

By Sonia Furtado Neves

Science

Awards & Honours

EMBL scientists regularly receive prestigious awards – meet the latest honourees.

By Chloe Cross

Lab Matters

Clathrin proteins involved in endocytosis form a lattice that can dramatically change its shape to form the vesicle

Decades-old cell biology puzzle solved

Behaviour of clathrin proteins, crucial for endocytosis, is clarified using new imaging techniques.

By Isabelle Kling

Science

EMBLetc.

Read the latest Issues of our magazine - EMBLetc.

Looking for past print editions of EMBLetc.? Browse our archive, going back 20 years.

EMBLetc. archive
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