It would be a little disappointing if we didn't even find bacteria in our own solar system. I would be rather surprised to find what I would describe… - Nick Lane
" "It would be a little disappointing if we didn't even find bacteria in our own solar system. I would be rather surprised to find what I would describe as large, morphologically complex life. ...It only arose once on earth. That doesn't necessarily mean that it's improbable... but it does raise some interesting questions about why, and... I think we can apply principles to it, and those principles effectively are why do bacteria and , as assistive groups to the bacteria... They're biochemically very complex. They're genetically very complex. They're kind of structured in a different way where they have large, complex metagenomes, but... I doubt very much that we'll ever find anything of the [morphological] level of complexity of a flea, composed of bacterial cells.
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About Nick Lane
(born 1967) is a British and writer. He is a professor in evolutionary at University College London. He has published five books to date which have won several awards.
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Additional quotes by Nick Lane
These are all lifestyles that exist in bacteria anyway. ...Photosynthesis obviously. The only eukaryotic lifestyle that does not exist at all in bacteria is ... the ability to engulf other cells, to grow around them. That's never been found yet in bacteria. It seems to require... a lot of energy, a large complicated system capable of changing shape and moving around. ...For whatever reasons it never evolved. I would say the reason was that you need mitochondria to get that large and complex in the first place.
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[On the :] It's a bit of a sterile conversation. I suppose I think of it as the cell. That's not to say that it can't act at the level of s. Of course it can. It does all the time. Any selfish gene is acting in it's own interest. I think the trouble with looking at selection only at the level of genes is it tends to downplay the importance of genetic conflict in a strange way... [I]f you have levels of selection you can have, for example... mitochondria... They were bacteria once. They're the power packs inside eukaryotic cells... [O]nce they get inside another cell, inside another originally, then they have an agenda of their own. They're making copies of themselves, and it's the speed at which the bacterium as a whole is making a copy of itself that means whether it tends to dominate in the population or not. It's not the individual genes. They will tend to throw away genes that they don't really need. And the host cell itself has got its agenda. It needs to make sure that it's getting benefits from this symbiont. It's not being taken over. It's not being eaten, and so it's... more intuitive to think of the interests of the cells themselves. And if you simply think of all of them as genes then you don't have that discrimination between the layers. Again, if you're thinking about s at the origin of life, the unit of selection in my mind is, "Can a cell make a copy of itself?" If you have a pure RNA world...
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