Many attempts have been made to find a definition of life that co

Many attempts have been made to find a definition of life that could be operational not only for terrestrial life, but for any form of “life” present in the universe, a definition selleck compound that could help us to recognize a bona fide extraterrestrial “life” if we encounter it one day. In my opinion, such a definition is by essence biased by an idealist prejudice, reminiscent of Plato and Socrates’ ideas. It seems to imply that life is an ideal

form, concrete examples of life being various “shadows” of this ideal. I will adopt here the view that, up to now, life is only a terrestrial phenomenon, a characteristic of terrestrial “living organisms”. In fact, there is no life without living organisms and all presently known living organisms are thriving on planet Earth. If one day we hopefully meet friends from another world, it will then be possible to define “life” in term of the common properties shared by organisms from both planets. For the moment, the only materialistic way to define life is to start from the objects that exhibit

this extraordinary property: being alive (or having been Selleckchem JQ1 alive, once such objects are dead). In that sense, the question, “are viruses alive?” is clearly at the heart of the debate. The answers to this question have varied in time, depending of our knowledge about viruses and our definition of life. Over the last decades, the answer has been often negative and viruses have been usually relegated to the periphery of the living world, being mainly considered as « dangerous » curiosities. They have been considered as by-products of cellular life, having probably originated as escaped genes from cellular organisms. However, this situation is rapidly changing, following

several discoveries made either by chance or by the effort of a few pioneers, and general advances in molecular biology (including the outcome of the genomic and post-genomic era) that have recently contributed to revise the position of viruses in the living world. Times are changing and viruses, once only considered as side-products of cellular ROS1 evolution, are now at the selleckchem center of many debates on the early evolution of life on our planet (Forterre 2002, 2005, 2006a, b; Brosius 2003; Bamford 2003; Bamford et al. 2006; Claverie 2006; Koonin et al. 2006; Ryan 2007; Raoult and Forterre 2008). Viral Particles Are the Most Abundant Biological Entities in the Biosphere It has been realized quite recently that viral particles are by far the most abundant biological entities on our planet (Suttle 2007). Indeed, they are ten times more abundant than bacterial cells in the upper ocean. This has been deduced in the nineties from examination of water samples by electron microscopy or epifluorescence optical microscopy.

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