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ISB researchers

Unveiling the Guerrilla Warfare Tactics of Mycobacterium Tuberculosis

ISB researchers have unveiled new insights on how Mycobacterium tuberculosis, the pathogen that causes tuberculosis, enters and exits a dormant state in human hosts. About a quarter of the world’s population has latent TB, so these important findings will enable and accelerate the discovery of more effective TB drugs.

Baliga Lab: New Publication in ‘Nature Microbiology’

The Baliga Lab and colleagues at Center for Infectious Disease Research published (online in advance of print) this landmark study today in the journal Nature Microbiology: Seattle researchers created a genetic blueprint of the cunning tuberculosis bacteria, then used it to predict and rank potential drug targets 3 Bullets: Researchers at the Institute for Systems Biology and Center for Infectious Disease Research have deciphered how the human pathogen Mycobacterium tuberculosis…

Learning From Microalgae as ‘Biofactories’

In a newly published research, members of the Baliga and Price labs share discoveries from their studies of Chlamydomonas reinhardtii – Chlamy for short. Excerpt: To the casual observer, algae may appear to be a nuisance. But for researchers, photosynthetic microalgae and other microbes have the potential to become sustainable biofactories that can economically produce renewable biofuels and a wide variety of other valuable commodities. One such group of microalgae…

The Most Powerful Tool for Reconstructing a Gene Network

Scanning EM of bacteria being eaten by white blood cell Photo Credit: Adrian Ozinsky 3 Bullets: Nearly a decade ago, ISB’s Baliga Lab published a landmark paper describing cMonkey, an innovative method to accurately map gene networks within any organism from microbes to humans. Two new papers describe the benchmark results of cMonkey and also the release of cMonkey2, which performs with higher accuracy. Using this approach, genetic and molecular…

Baliga Lab: A Global Map To Fight Tuberculosis

3 Bullets: The disease progression of tuberculosis is extremely complex and it’s poorly understood. ISB and Seattle BioMed researchers have made an important step by developing a comprehensive map of gene regulation in tuberculosis. A resulting open-access web portal offers any scientist the ability to mine the collected data. By ISBUSA Tuberculosis (TB) remains a top global health threat due to its remarkable complexity in disease progression. To help understand…

Tuberculosis Research: A ‘Molecular Road Map’ to Help Understand Gene Regulation

The journal “Trends in Microbiology” recently published a spotlight article on a tuberculosis research collaboration between scientists at Institute for Systems Biology and Seattle BioMed. The paper “The DNA-binding network of Mycobacterium tuberculosis” was published in the journal “Nature Communications” (Jan. 12, 2015): “MTB employs about 200 different molecular switches to sense and respond to the shifting, hostile landscape of the host. To identify and understand the intertwining gene regulatory…