The findings have implications for all aspects of medical and scientific research
because laboratory mice underpin studies whose results have a transformative effect on human and animal lives through vaccination and other immune - based therapies.
This could also be the reason why some laboratory strains seem to have lost the ability to produce darcin:
Because laboratory mice are usually group - housed, they have been selected to be less aggressive, and not producing darcin could help reduce tensions.
Not exact matches
In this study, published in the October 31 issue of the Proceedings of the National Academy of Sciences, Sudhir Yadav PhD, a neuroimmunology post-doctoral fellow in the
laboratories of Drs. Kouichi Ito, associate professor of neurology, and Suhayl Dhib - Jalbut, professor and chair of neurology, tested
mice that were engineered to have a pre-disposition for MS.
Because mice would not normally develop MS, researchers used MS - associated risk genes from real patients to genetically engineer
mice for this study.
Most animal studies of the disease are conducted with
laboratory mice that have been genetically engineered and bred to model ALS, but for this research, investigators used rats with ALS
because they more accurately portray the disease's variable course in humans.
Because the
mouse is so well studied, its sequence will speed the understanding of how our own genes work, says
mouse geneticist Barbara Knowles, director of research at the Jackson
Laboratory in Bar Harbor, Maine.
That's
because most studies on single human brain cells use dead rather than living tissue, and many others rely on cells from common
laboratory animals, especially
mice.
Reagents: antibodies, plasmids, cell lines, RNA libraries, and more Organisms and viruses: model organisms of disease,
mouse models, and more Biological specimens Software Protocols Core
laboratories eagle - i is different from traditional web publications that list resources (websites, journals, etc.)
because the tool allows researchers to: Share resources
Because he holds a dual appointment with The Jackson
Laboratory, which studies
mice, he is also seeking insight into how to reverse - engineer the process of regeneration in humans by comparing the genetics of the axolotl, which can regenerate, with those of the
mouse, which for the most part can not.
George Q. Daley, a stem cell biologist at Boston Children's Hospital, said Dr. Niakan's study of human embryos was «critical
because we know them to be quite different from embryos of
mice» and other mammals studied in
laboratories.
Because there has been next to nothing published on the relationship of veterinary vaccines to autoimmune / autoinflammatory disease, I rely on the experiences of
laboratory animals like
mice (ref) and the experiences of humans.