欧美口爆视频

Skip to main content

Bacteria have feelings, too

Bacteria microscope image

For humans, our sense of touch is relayed to the brain via small electrical pulses. Now, 欧美口爆视频 Boulder scientists have found that individual bacteria, too, can feel their external environment in a similar way.

In a new study, 欧美口爆视频 Boulder researchers have demonstrated that听E. coli听bacteria cells get excited when poked, sending out voltage induced calcium ion signals鈥攖he same way a vertebrate鈥檚 sensory nervous system works. The results are believed to be the first documented observation of electrical excitability in individual bacteria cells.

The findings, which could advance fundamental bacteria research and may eventually aid drug development for infectious diseases, were听听in the journal听Proceedings of the National Academy of Sciences.

鈥淧eople typically think that [bacteria] are these little things, that all they are doing is trying to divide and create more energy,鈥 said Giancarlo Bruni, a doctoral candidate in 欧美口爆视频 Boulder鈥檚听听and the lead author of the new research. 鈥淸But] we鈥檙e not all that different.鈥

Scientists have long known that bacteria respond to certain chemical cues. Feed them sugar, and their populations explode. Douse them in antibiotics and their cell walls rip apart. More recently, though, scientists have noticed that physical signals, too, seem to activate these microbes. For example,听Salmonella听become more efficient at infecting human cells when placed on a stiff surface as opposed to a soft one.

鈥淲hat we think could be happening is that they鈥檙e using these electrical signals to modify their lifestyle,鈥 said Joel Kralj, the senior author of the study and an assistant professor in MCDB and the听.

To study how bacteria feel their surroundings, the team inserted special genes into听E. coli听bacteria that glow when calcium ions or electricity pulse through them. The cells were placed in a sticky substrate under a microscope. Left alone, the cells remained dim. But when the scientists pushed a pad against them, the bacteria lit up. The sparks of light indicated that proteins, ions and electricity were moving around in the bacteria.

The results indicate that bacteria and other creatures share a common tool for sensing their environment鈥攁n electrical pathway with the same functionality as human sensory neurons. From an evolutionary perspective, this signaling trait could be billions of years old and used by some of the oldest organisms on Earth.

The study also sheds new light on bacterial activity with regard to infection. For example, when exposed to antibiotics, a few bacteria cells with unique electric signals usually survive. These survivors then go on to reproduce and share their drug-resistant capabilities with other bacteria, eventually rendering the antibiotic useless.

The 欧美口爆视频 Boulder researchers now plan to study how bacteria鈥檚 electric pulses are used to sense when to infect human cells. In the future, they hope to test for small, masking molecules that can dull these signals when introduced. Such molecules could eventually translate into drugs that help treat bacterial infections and overcome antibiotic resistance.

鈥淚f we can block bacterial electrical activity, they may be less likely to infect, because now they don't know that they have landed on your soft delicious gut cell,鈥 said Kralj. 鈥淲e could cut their hands off so they can no longer feel.鈥

Additional co-authors of the new study include Andrew Weekley and Benjamin Dodd of MCDB and BioFrontiers. The National Institutes of Health and the Searle Scholars Program provided funding for the research.