Sigma B is thought to be a major regulator in bacterial stress. Release
of the protein can be triggered by many different and stressful
environmental conditions such as extreme temperatures or starvation.
Scientists studied the sigma B protein in bacterial cells. And found
that when released sigma B can activate over 150 genes. In the short
time lapse movie below the bacteria (B. subtilis) are modified
to glow green when sigma B springs into action. During growth they are
exposed to a stress causing chemical. Much as expected the sigma B
protein is activated. But then, to our surprise also, the protein is
quickly switched off again while the chemical is still present in the
environment. Instead of shifting from one steady state to another steady
state the sigma B regulatory protein is released in pulses. This
definitely requires more research, but for now, it is a fascination
short bacteria Time Lapse movie. Enjoy!
About the makers of this movie: Researchers at the California Institute of Technology have found a new kind of stress response in a bacterial species called B. subtilis. Instead of just shifting from one steady state to another and staying there, the cells deal with stress—such as the lack of food—by activating a regulatory protein in steady pulses. The cell cranks up the frequency of the pulses if there’s more stress. By attaching fluorescent proteins to the genetic circuit responsible for B. subtilis‘s stress response, the researchers observed each pulse as a green flash.
Posted by Tim Sandle
About the makers of this movie: Researchers at the California Institute of Technology have found a new kind of stress response in a bacterial species called B. subtilis. Instead of just shifting from one steady state to another and staying there, the cells deal with stress—such as the lack of food—by activating a regulatory protein in steady pulses. The cell cranks up the frequency of the pulses if there’s more stress. By attaching fluorescent proteins to the genetic circuit responsible for B. subtilis‘s stress response, the researchers observed each pulse as a green flash.
Posted by Tim Sandle
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