The transcription factor regulatory network in Pseudomonas aeruginosa is complex and involves multiple regulators that respond to various environmental signals and physiological cues by regulating ...

Understanding bacterial growth mechanisms can potentially help uncover novel drug targets that are crucial for maintaining cellular viability, particularly for bacterial pathogens. In this important ...

In 2009, she moved to MGH and Harvard Stem Cell institute in Boston to unravel epigenetic mechanisms that drive somatic cell reprograming to iPSCs. Since 2014, she leads her own research team in Weill ...

School of Chemistry and Biochemistry, Georgia Institute of Technology, 950 Atlantic Drive, Atlanta, Georgia 30332, United States Center for Microbial Dynamics and Infection, Georgia Institute of ...

Conjugative plasmids utilize a protein structure pilus to make a link with the recipient cell so as to move them into the recipient cell that ultimately transfers the copy of entire bacterial ...

to output (what the cell does in response). What the research team realized -- and set out to prove -- was that each cycle in a cascade can be treated as an elementary unit, and these units can be ...

This developmental plasticity requires a strict temporal and spatial control of the cell cycle. Cell-cycle activation in quiescent cells is correlated with a change in chromatin structure and ...

First, yeast feed on the sugar or starch of any liquid from fruits, whole grains, potatoes or rice. The liquid ferments into alcohol. The alcohol must then be exposed to oxygen and acetic acid ...

The extracts were analyzed using a UV-visible spectrophotometer (UV-1601, Shimadzu, Japan) according to the method of Porra (2002). To monitor bacterial propagation in the leaves, two leaf disks ...