That they say it existed in the middle Hadean is striking. It was grabbing a toehold even when our world was a literal hellscape.
I think it increasingly likely that DNA first formed in space when the ambient temperature of the universe allowed liquid water. How else does a LUCA appear as if life on earth was a fait accompli, in the wake of a collision with another planet no less.
Edit: probably not
Planet: is actively boiling rock
Life: Its free real estate!
Microbes usually like it warm. Actively boiling rock seems like it would be pretty warm.
Among all the shit this [insert time period here], your comment got me to fully belly laugh. So thank you.
It was grabbing a toehold even when our world was a literal hellscape.
Actually this makes sense in the context of autocatalytic sets hypothesis - you’d need large variety of inorganic compounds and a strong energy gradient to kickstart a metabolism.
There’s great video on the subject from Sabine Hossenfelder https://www.youtube.com/watch?v=7yOiZLHDV3U
Part I’m talking about starts at 15:48
well, we need RNA before DNA. and we already have rna origin theories, so no, space dna doesn’t seem to fit there as an emergent property of rna to self replicate.
here’s a good one https://en.m.wikipedia.org/wiki/RNA_world
MMm… Probably not, at least in mechanism.
The issue is that of concentration. You need some kind of biogeochemical cycle that creates a concentration gradient. Otherwise the basic components are too diffuse to do anything meaningful.
I still lean into the “volitile ice balls” theory. NHx, NOx, Ox, etc. as volatile ices on asteroids in orbits where the iterate between freezing and melting. Moving between freezing and melting creates the biogeochemical cycle necessary to concentrate the basic elements sufficiently to be meaningful.
What do you mean liquid water in space? Liquid water doesn’t exist at low pressures, so you also need a somewhat pressurized environment like an atmosphere
I could be mistaken but I believe the hypothesis is that at one point the universe had an average temperature and matter distribution (pressure) to make it so that in most or at least a large portion of the universe it was significantly easier for organic molecules to start forming including the building blocks of DNA and then when it cooled/expanded some of that organic matter made its way to earth to eventually turn into life.
i don’t see how this could work, DNA degrades fairly quickly.
For those conditions you’re looking at a hilariously long time in the past, presumably closer to the big bang than now, and DNA can’t even last 100 million years.
Granted it probably lasts longer if frozen, but it’s not like things just stay frozen forever, and when we’re talking about thousands and thousands and thousands of years it seems incredibly difficult to believe that life would have started that way, especially compared to the relatively easy to imagine “water built up on an almost-molten earth, minerals leeched into it, and the heat caused chemical reactions that eventually ended up forming RNA or something”.
Suspect #1:
Is there any Trek lore that points to this moment as the source of humanity? Or is Q just being a little shit in front of Picard to piss him off?
Definitely the latter. Eventually, Picard comes to realize the situation he helped create and makes decisions that stop any of what he witnessed occur. Q was just “nudging” him in the right direction.
I dunno if I’d say definitely. I don’t really doubt Q’s ability to pinpoint an appropriate spot in time and space, so it seems reasonable that he would actually take him there rather than just try to find a spot in space time that seems good enough to lie about it.
Further studies will need to dive deeper into this primordial history and uncover exactly how you, me, and every other living thing, came to be.
That’s an understatement.
Lets do it after lunch then?
Any way of estimating when the last lineages of organisms not descended from the LUCA died out?
No, since everything we know about the LUCA is from its descendants. Microorganisms without descendants wouldn’t leave behind any evidence of their existence.
Using genetics alone, sure. But maybe there’s fossil or geochemical evidence of early organisms not belonging to any of the three surviving domains—or maybe we could estimate it just from statistics.
Maybe but I don’t think fossil evidence has enough information to confirm something isn’t from the main branch of the tree of life.
especially when some of that stuff took a while for us to realize it’s even part of the same organism, or an organism at all.
Wouldn’t LUCA by definition be the last common ancestor of every organism of which we have evidence? If so then by definition we wouldn’t have evidence of those other lineages.
The definition I’ve seen is the last common ancestor of procaryotes, eucaryotes, and archaea—which doesn’t strictly rule out the possibility of extinct domains whose existence we might infer.
And actually, there’s evidence of non-LUCA-descended organisms mentioned right in the paper: the other organisms that constituted the ecosystem of which LUCA was a part, whose existence (and some of whose characteristics) could be inferred from LUCA’s metabolism and immune system.