I am currently a post-doc at the University of Bristol working on intracellular trafficking of procollagen in the lab of Prof David Stephens. I moved here in 2013 to work on the Golgi resident protein giantin and this research has led me on a varied cell biological journey through the fields of ciliogenesis, Golgi biology and now extracellular matrix secretion. Before this I studied Weibel Palade body biogenesis in the laboratory of Prof Dan Cutler at UCL.
In situ architecture of the ciliary base reveals the stepwise assembly of IFT trains
Selected by
Nicola Stevenson
A ciliopathy complex builds distal appendages to initiate ciliogenesis
Selected by
Nicola Stevenson
Rab34 GTPase mediates ciliary membrane biogenesis in the intracellular ciliogenesis pathway
Selected by
Nicola Stevenson
Structure of the complete, membrane-assembled COPII coat reveals a complex interaction network
Selected by
Nicola Stevenson
The molecular structure of primary cilia revealed by cryo-electron tomography
Selected by
Nicola Stevenson
DYRK3-Controlled Phase Separation Organizes the Early Secretory Pathway
Selected by
Helen Zenner, Nicola Stevenson
The nucleus acts as a ruler tailoring cell responses to spatial constraints
AND
The nucleus measures shape deformation for cellular proprioception and regulates adaptive morphodynamics
Selected by
Nicola Stevenson
Lis1 regulates Phagocytosis by co-localising with actin in the Phagocytic cup
Selected by
Nicola Stevenson
The histone chaperone FACT induces Cas9 multi-turnover behavior and modifies genome manipulation in human cells
Selected by
Nicola Stevenson
LTK is an ER-resident receptor tyrosine kinase that regulates secretion
Selected by
Nicola Stevenson
ENDOSOMAL MEMBRANE TENSION CONTROLS ESCRT-III-DEPENDENT INTRA-LUMENAL VESICLE FORMATION
Selected by
Nicola Stevenson
Multi-color single molecule imaging uncovers extensive heterogeneity in mRNA decoding
AND
Live-cell single RNA imaging reveals bursts of translational frameshifting
Selected by
Nicola Stevenson