Publications by authors named "Pauline Ruffiot"
Article Synopsis
- The study investigates the membranous nanotubular network (MNN) in the parasitophorous vacuole (PV) where Toxoplasma gondii thrives, highlighting its unclear function.
- It focuses on two proteins, GRA2 and GRA6, known to influence the MNN's formation, suggesting that their specific structural features (like alpha-helices) play a key role in their interactions with membranes.
- Experimental results using methods like circular dichroism and electron microscopy reveal that GRA2 has a distinct alpha-helical structure, while variations of GRA2 and GRA6 result in smaller particle formations, pointing to the importance of GRA2's structural characteristics in the nanotubular network
Most Apicomplexa reside and multiply in the cytoplasm of their host cell, within a parasitophorous vacuole (PV) originating from both parasite and host cell components. Trafficking of parasite-encoded proteins destined to membrane compartments beyond the confine of the parasite plasma membrane is a process that offers a rich territory to explore novel mechanisms of protein-membrane interactions. Here, we focus on the PVs formed by the asexual stages of two pathogens of medical importance, Plasmodium and Toxoplasma.
View Article and Find Full Text PDFWe study the spike statistics of neurons in a network with dynamically balanced excitation and inhibition. Our model, intended to represent a generic cortical column, comprises randomly connected excitatory and inhibitory leaky integrate-and-fire neurons, driven by excitatory input from an external population. The high connectivity permits a mean field description in which synaptic currents can be treated as gaussian noise, the mean and autocorrelation function of which are calculated self-consistently from the firing statistics of single model neurons.
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