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tag autoimmune disease culture

The Search for Persisters
Amanda B. Keener | Aug 11, 2015 | 4 min read
Lyme disease–causing bacteria can outmaneuver antibiotics in vitro and manipulate the mouse immune system.
Top 10 Innovations 2021
2021 Top 10 Innovations
The Scientist | Dec 1, 2021 | 10+ min read
The COVID-19 pandemic is still with us. Biomedical innovation has rallied to address that pressing concern while continuing to tackle broader research challenges.
The Proteasome: A Powerful Target for Manipulating Protein Levels
John Hines and Craig M. Crews | May 1, 2017 | 10+ min read
The proteasome’s ability to target and degrade specific proteins is proving useful to researchers studying protein function or developing treatments for diseases.
Immune System Maintains Brain Health
Amanda B. Keener | Nov 1, 2016 | 10+ min read
Once thought only to attack neurons, immune cells turn out to be vital for central nervous system function.
Top 10 Innovations 2013
The Scientist | Dec 1, 2013 | 10+ min read
The Scientist’s annual competition uncovered a bonanza of interesting technologies that made their way onto the market and into labs this year.
TSG101: An Antiviral Target with a Murky Past
Ricki Lewis | Jan 18, 2004 | 5 min read
Viruses hijack a host protein that normally sorts the trash
No Barriers to Entry: Transfection tools get biomolecules in the door
Mitra Ostresh | May 23, 1999 | 8 min read
Date: May 24, 1999Relative Transfection Efficiency Transfection Reagents Table and Electroporation Systems Table Model of the Effectene principle. The enhancer first condenses the plasmid DNA and the effectene reagent, non- liposomal lipid, subsequently coats the condensed DNA for efficient uptake into cells. Supplied by QIAGEN. Cell transformation is an essential tool for molecular, cellular, and genetic research. Introducing specific molecules--DNA, RNA, drugs, and small molecules such as ca
The Rodent Wars: Is a Rat Just a Big Mouse?
Ricki Lewis | Jul 4, 1999 | 5 min read
Sometimes it seems as if genome projects are cropping up everywhere.1 But until costs come down, limited resources are being largely concentrated into what Joseph Nadeau, professor of genetics at Case Western Reserve University School of Medicine, calls "the genome seven," an apples-and-oranges list of viruses, bacteria, fungi, Arabidopsis thaliana, Drosophila melanogaster, Caenorhabditis elegans, and mouse, with Homo sapiens in its own category.2 Researchers widely acknowledge that in the rod

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