ISB researchers have found that a small, persistent increase in the expression of NOD1 could be responsible for higher cancer risks. The research team found that a slight 1.5-fold uptick in NOD1 expression can activate the protein and downstream signaling pathways in a manner similar to vast (30- to 200-fold) overexpression.
While scientists have long studied bacterial infections, less attention has been paid to how the host immune response affects bacterial gene expression in the body. In a just-published paper in PNAS, ISB researchers detailed how the bacterium Salmonella conceals itself from the host immune system.
Findings from the ISB-Swedish COVID-19 Immune Response Study suggest that treatments aimed at arresting the infection at the stage of moderate severity may be most effective. The team studied 139 patients and found that mild COVID-19 is very distinct from the moderate or severe forms of disease, which appear surprisingly similar.
In honor of National Postdoc Appreciation Week in late September, ISB’s staff recently gathered to honor and celebrate all of our devoted and hardworking postdocs. The event included speeches from a number of faculty members. “Postdocs are the heart of ISB,” Dr. Nathan Price, professor and associate director, told the gathering.
Study Utilizes Systems Approaches to Develop Diagnostics and Deeper Understanding of Chronic Lyme PRESS RELEASE, SEATTLE, March 26, 2015 – Institute for Systems Biology (ISB) has received $2.13 million in transformational gifts from Jeff and Liesl Wilke; Jeff and MacKenzie Bezos; and the Bay Area Lyme Foundation to tackle chronic Lyme disease, a highly complex and often misdiagnosed disease that can be debilitating for those who do not respond to…