A research team at MIT has found out the mechanisms that ensure specificity when bacteria decipher and communicate messages from their environment.
A research team at MIT has found out the mechanisms that ensure specificity when bacteria decipher and communicate messages from their environment.
The researchers also successfully rewired the cellular communications pathways that control those responses, raising the possibility of engineering bacteria that can serve as biosensors to detect chemical pollutants.Led by MIT biology professor Michael Laub, the team studied genomes of nearly 200 bacteria, which can have hundreds of different pathways that respond to different types of external stimuli.
Nutrients, antibiotics, temperature or light can evoke a variety of responses, including transcription of particular genes.
In most cases, the pathways involve two proteins. The first protein, an enzyme known as a histidine kinase, receives the external signal and then activates the second protein, known as a response regulator.
It's critical that each histidine kinase activate only the appropriate response regulator. Different histidine kinases are often very structurally similar, as are the response regulator proteins, so scientists have wondered how cells prevent signals from getting crossed.
"If an organism has tons of this class of signaling pathway, why do we not get a lot of crosstalk? How does the kinase pick out the right target? " said Laub.
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To confirm their theory, they looked for patterns of amino acid co-evolution in pairs of histidine kinases and their target response regulators.
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After searching a vast database of nearly 1,300 protein pairs, they identified a small set of co-evolved amino acids.
They then confirmed that these amino acids govern signaling specificity by successfully rewiring five of the pathways by mutating the target amino acids.
Such manipulation could allow scientists to engineer bacteria that exhibit novel behavior such as glowing when they detect the presence of a pollutant such as toluene, said Laub.
The findings appear in the June 13 issue of Cell.
Source-ANI
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