Becoming a Scientist
Virus Fighter
Build a virus or fight a pandemic!
Maya's Marvellous Medicine
Battle Robots of the Blood
Just for Kids! All about Coronavirus
Thursday, June 8, 2017 at 9:54AM MutaMouse, our new genome engineering Core Facility, is now open! Come talk to us about making KO or KI mice for you!
Liston lab, genetics Saturday, June 3, 2017 at 9:57AM Our FACS Core is making major investments to equipment this year. We already have a new ImageStream, for image cytrometry, and a new Melody, for easy access sorting. Our latest arrival is the BD FACS Symphony, the pinnacle of flow cytometry, capable of 30-parameter single cell analysis!
Liston lab Wednesday, May 10, 2017 at 9:05PM If you can buy it out of a catalog, you can assume that all the obvious experiments have been done. You will not make a major discovery or make an impact in the field until you develop new tools. You need to be willing to take a risk and invest in designing and building new strategies to look at old questions.
Tuesday, May 9, 2017 at 11:03AM 
Visit our website and found out what we can do for you!
Liston lab, genetics Saturday, April 29, 2017 at 10:07AM 
Ethidium bromide is one of the most toxic chemicals found in a standard molecular biology lab, and should be used with extreme caution. Right? Actually, no. This interesting article pops the myth of ethidium bromide, which is actually safer than some of the "safe alternatives" on the market.
Tuesday, April 11, 2017 at 9:26PM
immunology Friday, April 7, 2017 at 11:18AM The smallest viruses can be just a few nanometres wide and contain two genes. Viroids can get even smaller. Recently, however, giant viruses have been found, 1000-fold larger and with more genetic content than some bacteria.
This raises a fascinating question as to the origin of viruses. The first model is that viruses were spawned out from some proto-bacteria-like cells. A bit of bacterial DNA, like a plasmid, that was able to survive cell-free and move from cell to cell. In this view, viruses don't really belong on the tree of life, and giant viruses are just abnormally large viruses that have captured more and more DNA from hosts.
Giant viruses raise a second model. What if the tree of life had an original fourth strand (bacteria, eukaryotes, Archaea and proto-viruses). The first three strands are still with us today, while the proto-viruses have devolved from a free-living cell to a dependent virus. Under this alternative view, giant viruses are ancient relics closest to the original proto-viruses, with the smaller viruses having gone further down the evolutionary pathway of becoming highly efficient replicators.
A paper published in Science this week argues for the first model, with evidence that some key machinery in giant viruses is directly stolen from other lineages of the tree of life. But the argument is not closed, and as more and more giant viruses are found, I look forward to seeing which direction the evidence moves.
evolution 
