Genetically modified animals are designed to contain the spread of pathogens. One prerequisite for the release of such organisms into the environment is that the new gene variant does not spread uncontrollably, suppressing natural populations. Scientists at the Max Planck Institute for Evolutionary Biology in Plon, Germany, have now established that certain mutations are maintained over an extended period if two separate populations exchange individuals with one another on a small scale. The new gene variant may remain confined to one of the two populations. The migration rate between the populations determines how long the new gene variant is expected to survive in the environment. These new findings may help to achieve greater safety when conducting release experiments involving genetically modified animals.
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