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02.09.2020 11:00

Viruses on glaciers highlight evolutionary mechanism to overcome host defenses

Dr. Christian Flatz Büro für Öffentlichkeitsarbeit
Universität Innsbruck

    An international team of scientists led by Christopher Bellas from the University of Innsbruck, Austria, studying life on the surface of glaciers in the Arctic and Alps challenge assumptions on virus evolution. Their study, now published in the journal Nature Communications shows that, contrary to expectations, the viruses on glaciers in the Alps, Greenland and Spitsbergen are remarkably stable in the environment.

    Viruses are often thought of as a human problem, however they are the most abundant biological entities on the planet. There are millions of viruses in every teaspoon of river, lake or seawater, they are found everywhere there is life and probably infect all living organisms. Most are completely harmless to humans and infect microscopic animals, plants and bacteria, which they hijack and reprogram to produce new virus particles, most often destroying these cells in the process. Every day, viruses destroy huge number of microorganisms in the environment, which changes the flow of energy in food webs on global scales. “Understanding how viruses evolve and function allows us to predict their role in the environment and how they interact with their hosts”, says Christopher Bellas from the Department of Ecology at the University of Innsbruck. Together with colleagues from the Universities of Bristol, Reading and Aberystwyth in the UK, the University of Minnesota, USA, and Aarhus University in Denmark, he has sequenced and compared genomes (their total DNA) of viruses which infect microbes found on the surface of glaciers. The study, now published in the journal Nature Communications, shows that the viruses on glaciers in the Alps, Greenland and Spitsbergen have genomes which are nearly identical between these isolated locations, this contradicts what we know about the rapid evolution of viruses.

    Evolutionary arms race
    It is known from laboratory studies that viruses evolve rapidly in order to keep up with their hosts, which are also simultaneously evolving defenses against virus infection, this evolutionary arms race means that they should remain in balance relative to each other. This is known as the 'Red Queen' hypothesis after the character from Alice in Wonderland who states: It takes all the running you can do, to keep in the same place. “This means that when we sequence the genomes of viruses from two, long-term, isolated places, we should never find exactly the same virus genomes twice”, says Christopher Bellas. The viruses studied by the research team originate in very unusual habitats on the surface of glaciers and ice sheets, called cryoconite holes. These small pools of meltwater on glaciers are ideal places to test how viruses evolve because they are miniature, replicated communities of microbes which are found on widely separated glaciers around the world.

    A genetic fruit machine
    When the researchers looked at the virus genomes from isolated cryoconite holes, thousands of kilometers apart, they expected to find that they would each contain different viruses only distantly related to one another. What they actually found was that most bacterial infecting viruses (bacteriophages) were nearly identical between the Arctic and the Alps. However, when they looked closer at their stable genomes, they saw that there were many small sections in each genome where DNA from other related viruses was repeatedly swapped in and out, in a known process called recombination. In each different location, the viruses shuffled the genes present in these swappable regions like a kind of genetic fruit machine. “This means that in the natural environment, gene swapping between viruses by recombination creates much diversity in the virus population, specifically in genes which are involved in recognising and attaching to different hosts, this probably gives viruses the potential to quickly adapt to different hosts in the environment”, explains Christopher Bellas.


    Wissenschaftliche Ansprechpartner:

    Christopher Bellas
    Department of Ecology
    University of Innsbruck
    mobile: +44 7808 581503
    email: christopher.bellas@uibk.ac.at
    web: https://www.uibk.ac.at/ecology/


    Originalpublikation:

    Flexible genes establish widespread bacteriophage pan-genomes in cryoconite hole ecosystems. Christopher M. Bellas, Declan Schroeder, Arwyn Edwards, Gary Barker & Alexandre M. Anesio. Nature Communications 2020. DOI: 10.1038/s41467-020-18236-8 (https://doi.org/10.1038/s41467-020-18236-8)


    Bilder

    The viruses studied by the research team originate in very unusual habitats on the surface of glaciers and ice sheets, called cryoconite holes.
    The viruses studied by the research team originate in very unusual habitats on the surface of glacie ...

    Gary Barker

    The study shows that the viruses on glaciers in the Alps, Greenland and Spitsbergen have genomes which are nearly identical between these isolated locations.
    The study shows that the viruses on glaciers in the Alps, Greenland and Spitsbergen have genomes whi ...

    Christopher Bellas


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    Englisch


     

    The viruses studied by the research team originate in very unusual habitats on the surface of glaciers and ice sheets, called cryoconite holes.


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    The study shows that the viruses on glaciers in the Alps, Greenland and Spitsbergen have genomes which are nearly identical between these isolated locations.


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