When you hear someone say their biological clock is ticking, this probably isn’t what they meant! Bioengineers at UC San Diego Jacobs School of Engineering have created a programmable clock based on E. Coli bacteria. The clock blinks at a predictable rate in response to its environmental conditions. By carefully controlling or measuring those conditions, the researchers are able to use the blinking to tell time, or even create new types of biosensors.
The researchers created the flashing clocks by carefully manipulating the genes inside the cell and actually “reading” the relationship between the genetic material, known as “mRNA”, and other proteins, as each are produced.
According to Scientificcomputing.com, “At the core of the new clock is a negative feedback loop that includes a two-minute delay between when the mRNA is made and when the functional proteins are made. On top of this is the positive feedback loop which makes the clock more regular and robust.”
That’s a fairly technical way of saying that, by measuring the surrounding conditions, they can now predict how fast the cells will blink so they can be used as a clock.
“One next step is to synchronize the clocks within large numbers of E. coli cells so that all the cells in a test tube would blink in unison. "This would start to look a lot like the makings of a fascinating environmental sensor," said Jeff Hasty, a UC San Diego bioengineering professor and senior author on the Nature paper.”via
The researchers created the flashing clocks by carefully manipulating the genes inside the cell and actually “reading” the relationship between the genetic material, known as “mRNA”, and other proteins, as each are produced.
According to Scientificcomputing.com, “At the core of the new clock is a negative feedback loop that includes a two-minute delay between when the mRNA is made and when the functional proteins are made. On top of this is the positive feedback loop which makes the clock more regular and robust.”
That’s a fairly technical way of saying that, by measuring the surrounding conditions, they can now predict how fast the cells will blink so they can be used as a clock.
“One next step is to synchronize the clocks within large numbers of E. coli cells so that all the cells in a test tube would blink in unison. "This would start to look a lot like the makings of a fascinating environmental sensor," said Jeff Hasty, a UC San Diego bioengineering professor and senior author on the Nature paper.”via
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