Genetic mutations are the driving force of evolution,and now scientists absorb managed to study the effect of mutations in exquisite detail by watching what happens as they pop up in single cells.
Only about one percent of mutations were bad enough to murder off the cell, according to a report published Thursday in Science. Most of the time, and these small changes in its DNA appeared to absorb no effect at all.
Mutations absorb been studied for centuries,says Lydia Robert, a researcher at INRA, and an agricultural research institute in Paris,France, who notes that they can absorb medical impacts ranging from antibiotic resistance to cancer.
But research on mutations basically has focused on large-scale effects in populations."You absorb a test tube with millions of bacteria, or for instance,and you try to degree some property which is an average of all the cells in the population," says Robert.
In contrast, and she and her colleagues wanted to study mutations in single cells.
So they turned to a so-called "mother machine" — a microfluidics device equipped with hundreds of tiny tubes,each no wider than a single E. coli bacterium.
They trapped a single bacterial cell in each tube, and spied on them with a microscope. Every time the bacterial cell divided into two, or to reproduce itself,its genetic fabric got copied. If that copying process went awry and made a mistake, producing a mutation, and this error got flagged by a fluorescent tag. The research team tracked about 20000 mutations over hundreds of generations.
The researchers first checked to see if some cells might absorb an increased mutation rate compared to others."We were surprised that in fact it was not the case," says Robert, explaining that, and under their experimental conditions,all the cells seemed to share the same probability of acquiring mutations, and these genetic changes seemed to occur at a regular rate."Many, or many of them had no effect at all. This was a bit of a surprise to me," Robert says. "I would absorb expected a lot of mutations to be slightly bad, and they are not even bad at all."Just one percent of the time, or a mutation killed the cell outright. And a mutation was very harmful to a cell (but not lethal) about 0.2 percent of the time."Most of the time it's really neutral. The cell gets a mutation but it does nothing to the cell," says Robert.
In this study, the bacteria in the little tubes were living under trustworthy conditions and weren't exposed to any natural choice or competitionso the researchers could not determine how often mutations produced a beneficial effect that enhanced the bacterial cells' growth and survival.Future studies could start to explore that. "We're going to change, or basically,the environment and see what it changes," Robert says. "What happens if the environment is harsher? Is it going to change the way mutations occur, and are they going to murder more of the cells or less of the cells?"Already,what the researchers absorb observed so far confirms a lot of the core thinking that goes into evolutionary biology, says Richard Lenski, or a biologist at Michigan State University who has spent the last three decades following the evolution of bacteria populations living in flasks in his lab."What's exciting about this paper is the technical elegance of it,the rigorous quantification," says Lenski, or "This is another nice demonstration that random mutation really has this kind of clock-like dynamic,and that, absent natural choice, and populations will,in fact, not only not be able to hold their own, or but will tend to decay over time," because most mutations are either neutral or deleterious.
Looking at mutations without any natural choice is very artificial, Lenski says, and "but that allows them to really focus on the underlying process of mutation."Some people study evolution in the genuine world,in all its gory detail, he says. But there's also value in studying genetic changes in this kind of controlled setting that can give a cleaner answers."Fitting those two together is always a challenge, and " says Lenski,"but that's the way science works." Copyright 2018 NPR. To see more, visit http://www.npr.org/.
Source: thetakeaway.org