This is a unique opportunity to work in a stimulating environment with one of the best mentor in the field @smead2 on a project that's super exciting. You'll make a contribution to the field of rare neurodegenerative diseases, and work with talented people. APPLY!
MRC Prion Unit at UCL, Fitzrovia, London. We are looking to recruit a temp Research Support worker to work on sulfatides in prion diseases. A short term post for staff between jobs, pre-PhD / post doc. Will involve DNA/RNA work, tissue culture, WB. DM me https://t.co/S0ka7eJ7pc
MRC Prion Unit at UCL, Fitzrovia, London. We are looking to recruit a temp Research Support worker to work on sulfatides in prion diseases. A short term post for staff between jobs, pre-PhD / post doc. Will involve DNA/RNA work, tissue culture, WB. DM me https://t.co/S0ka7eJ7pc
@MRC_Prion Privileged to work with these talented colleagues. Incredibly grateful for the continuous support and kindness from everyone at the @MRC_Prion
Today we celebrate Women in Science. Here’s a nod to women @MRC_Prion who are changing the world through their acts of courage & determination to tackle the most challenging problems in the field of Prion diseases & dementia.
#WomenInScience#UCLwomenInScience
62 days since I first contacted @SandfordsLondon about the heating problem.
Many emails and reporting forms filled. Absolutely nothing has been done. It's currently 7C in the main room.
What now?
#coldweather#propertymanagement
62 days since I first contacted @SandfordsLondon about the heating problem.
Many emails and reporting forms filled. Absolutely nothing has been done. It's currently 7C in the main room.
What now?
#coldweather#propertymanagement
Get ready for the launch of Women in Neuroscience (WiN UK)! 🧠💗
We are thrilled to have our incredible speaker @EmmanuelleVire, Associate Professor at University College London, speak about her career journey as a female academic 👩🔬
#WiNUK#Womeninneuroscience
Now online: our single nuclei transcriptomics study of prion disease. Longitudinally in mice. At end stage in human.
A tour de force from @ThanosDim3
And Twitterless Fuquan Zhang.
https://t.co/9bJTTER1mb
@cureffi@ThanosDim3 Dauting indeed.
Yes we did. All credit to @ThanosDim3
The struggle was real. Also lots of support and discussions with internal safety committee.
That was one of the reasons for using splitseq, it was potentially compatible with bsl3 environment. Happy to share specifics
@tjm_sci helped visualizing these findings using spatial technology.
And finally we performed RNAseq in frontal cortex from sCJD patients and healthy controls and found overlapping signatures between mice and human diseases.
29 resurgent genes show an oscillating pattern of dysregulation whereby affected at 20dpi and then again at 120dpi and onwards.
Early genes are only affected at 20dpi.
Late genes showed dysregulation at 120dpi and onwards.