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University of Cambridge
Gurdon Institute University of Cambridge
Department of Biochemistry | - University of Cambridge
Gallop Lab
Gallop Lab

Discovering how proteins and lipids control the actin cytoskeleton

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Gallop Lab
Gallop Lab

Discovering how proteins and lipids control the actin cytoskeleton

  • Home
  • Research
  • Publications
  • People
  • Contact
  • News

Membrane composition and curvature in SNX9-mediated actin polymerization

Membrane composition and curvature in SNX9-mediated actin polymerization Read More »

Publications

The open to closed D-loop conformational switch determines length in filopodia-like actin bundles

The open to closed D-loop conformational switch determines length in filopodia-like actin bundles Read More »

Publications

Filopodial protrusion driven by density-dependent Ena–TOCA-1 interactions

Filopodial protrusion driven by density-dependent Ena–TOCA-1 interactions Read More »

Publications

Filopodia In Vitro and In Vivo

Filopodia In Vitro and In Vivo Read More »

Publications

Stochastic combinations of actin regulatory proteins are sufficient to drive filopodia formation

Stochastic combinations of actin regulatory proteins are sufficient to drive filopodia formation Read More »

Publications

The phosphoinositide 3-kinase inhibitor alpelisib restores actin organization and improves proximal tubule dysfunction in vitro and in a mouse model of Lowe syndrome and Dent disease

The phosphoinositide 3-kinase inhibitor alpelisib restores actin organization and improves proximal tubule dysfunction in vitro and in a mouse model of Lowe syndrome and Dent disease Read More »

Publications

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Recent Posts

  • Membrane composition and curvature in SNX9-mediated actin polymerization
  • Talk: Alpelisib & alterations in the actin cytoskeleton
  • Gallop Lab and Gurdon Institute host the Dent Disease Foundation’s UK patient meeting
  • The open to closed D-loop conformational switch determines length in filopodia-like actin bundles
  • Talk: Membrane adaptor protein TOCA-1 interacts with Ena to drive filopodial protrusion

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