A new study of the genetic2 basis of circadian rhythms(生物周期节律) – the biological responses related to daily light exposure – has found that a few minutes of light exposure in a fungus3(真菌,菌类) directly affects a huge range of its biological functions, everything from reproduction to coloring and DNA4 repair. Prior to this, five "DNA binding5 sites" in this fungus were known to be responsible for gene1 activation6 by light exposure. Through advanced "high throughput" DNA sequencing, researchers discovered that light actually affects not just a few but more than 300 binding sites, ultimately controlling 2,500 of the 10,000 genes7 in the fungus Neurospora crassa(红面包菌) .
The research, done by four universities in the U.S. and Germany, has revealed for the first time how specific metabolic8(新陈代谢的) pathways can be directly activated10 by light in this fungus, which has long served as a model to understand gene regulation by light, and circadian rhythms in animals and humans.
"You have one factor, light exposure, to start with," said Michael Freitag, an assistant professor of biochemistry and biophysics at Oregon State University. "In just a few minutes, this turns on genetic mechanisms11 that influence everything from spore12 development to stress response, pigmentation(染色,色素淀积) , carbon metabolism13, the cell cycle, nitrogen regulation, DNA repair and many other functions."
This new research shows that light exposure affects 24 "transcription factors" that function as master genetic regulators, which in turn activate9 dozens of other genes that control everything from behavior to physiology14 in this fungus. For instance, if the fungus is grown in the dark, it will be white – but with just two minutes of exposure to light, it turns orange and stays that way permanently15, its gene for pigmentation having been activated.
Although not all of the genes involved are identical, many genes perform similar functions in humans, Freitag said, and the effect of light exposure on human metabolism is probably more similar to than different from this fungus.
Researchers are continuing to learn more about the phenomenal scope of biological and metabolic functions that are related to light and the natural rhythms of day and night. Disruptions in these rhythms can have a significant range of physical and health effects, scientists have found.
This fungus, Neurospora, has been studied for decades in genetic research, along with other model systems such as fruit flies, laboratory rodents16(啮齿动物) and other models. It was first identified as a "red bread mold" in the 1800s and studied by the famous French microbiologist Louis Pasteur, and is still especially useful for research on circadian rhythms and gene regulation.
The research was published in Eukaryotic Cell, a professional journal, in work supported by the National Institutes of Health, National Science Foundation, and the American Cancer Society. Collaborators on the study were from OSU, the University of California/Berkeley, University of California/Riverside, and the laboratories of Deborah Bell-Pedersen at Texas A&M University and Michael Brunner at Universität Heidelberg.
"Light signaling pathways and circadian clock are inextricably(逃不掉地,解不开地) linked and have profound effects on behavior in most organisms," the researchers wrote in their study. "Our findings provide links between the key circadian activator17 and effectors in downstream regulatory pathways."