- Environmental Sciences - May 24
Intel invests in UK institute to create Global Centre for Research in Sustainable Connected Cities - Literature - May 24
Queen Victoria's personal journals put online - Literature - May 24
Boat Race bragging rights remain with Manchester - Life Sciences - May 24
Team off to the Far East - Business - May 24
Engineering a better society - Medicine - May 24
Stopping drug- induced liver injury - History - May 24
Aung San Suu Kyi to be awarded honorary degree - Business - May 24
Holidays inspire disadvantaged children to learn, says study - Life Sciences - May 24
Think big, think seahorse - History - May 24
Everything, everywhere, ever’ – a new door opens on the history of humanity - Business - May 23
Supercomputing set to boost region’s competitiveness - Medicine - May 23
’How- to’ video tutorials could boost hearing aid use, say researchers
Administration
Chemistry
Physics
Environmental Sciences
Earth Sciences
Life Sciences
Medicine
Business
Literature
History
Pedagogy
Social Sciences
» » more
Under the Microscope #6 – Killer T-cells
T-cell killing Credit: CIMR
Under the Microscope is a collection of videos that show glimpses of the natural and man-made world in stunning close-up. They are released every Monday and Thursday for the next few weeks and you can see them here: http://bit.ly/A6bwCE
Professor Gillian Griffiths:
“Cells of the immune system protect the body against pathogens. If cells in our bodies are infected by viruses, or become cancerous, then killer cells of the immune system identify and destroy the affected cells. Cytotoxic T-cells are very precise and efficient killers. They are able to destroy infected or cancerous cells, without destroying healthy cells surrounding them. The Wellcome Trust funded laboratory of Professor Gillian Griffiths, at the Cambridge Institute for Medical Research, investigates just how this is accomplished. By understanding how this works, we can develop ways to control killer cells. This will allow us to find ways to improve cancer therapies, and ameliorate autoimmune diseases caused when killer cells run amok and attack healthy cells in our bodies.”
Cytotoxic T-cells are just 10 microns in length: approximately one-tenth the width of a human hair. These movies are 92 times real time.
The original footage shown was made by Alex Ritter, a PhD student on the NIH-OxCam programme, in the laboratory of Professor Gillian Griffiths at the Cambridge Institute for Medical Research and the Department of Medicine of the Clinical School of the University of Cambridge. The images were acquired using an Andor Revolution spinning disk system with an Olympus microscope. Professor Griffiths is a Wellcome Trust Principal Research Fellow.
Links :
http://www.cimr.cam.ac.uk
http://www.cimr.cam.ac.uk/investigators/griffiths/index.html
http://www.cellpics.cimr.cam.ac.uk/
http://www.immunology.cam.ac.uk/about
Music by Intercontinental Music Lab
http://www.intercontinentalmusiclab.com
Find more Cambridge research here:
http://www.cam.ac.uk/research
Last job offers
- Law - 21.5
Doctoral Programme at the Law School of the University of Basel - Life Sciences - 19.4
Senior Expert - Genetic Biomarker Oncology (PhD) m/f - Literature - 23.5
Research Fellow (Australia) - Environmental Sciences - 23.5
Coordinator of the All Party Parliamentary Group on Food and Agriculture for Development / Policy Research... - Life Sciences - 23.5
Research Fellow 47469 - Life Sciences - 22.5
Post-doctoral Research Fellow - Physics - 21.5
Postdoctoral Research Associate : GAIA Project - Life Sciences - 18.5
Postdoctoral Research Assistant
» Share this page: