All
life on Earth is related, which means we all must share a single common
evolutionary ancestor. And now it appears that this ancestor might have
been a single, planet-spanning organism that lived in a time that
predates the development of survival of the fittest.
That's
the idea put forward by researchers at the University of Illinois, who
believe the last universal common ancestor, or LUCA, was actually a
single organism that lived about three billion years ago. This organism
was unlike anything we've ever seen, and was basically an amorphous
conglomeration of cells.
Instead
of competing for resources and developing into separate lifeforms,
cells spent hundreds of millions of years freely exchanging genetic
material with each other, which allowed species to obtain the tools to
survive without ever having to compete for anything. That's maybe not an
organism as we would comprehend it today, but that's the closest term
we have for this cooperative arrangement.
All
that we know about LUCA is based on conjecture, and the most promising
recent research has been in figuring out what proteins and other
structures are shared across all three domains of life: the unicellular
bacteria and archaea and the multi-celled eukaryotes, which are where
all plants and animals evolved from. This isn't a foolproof method —
it's possible that two extremely similar but not identical structures
could evolve independently after LUCA split into the three domains — but
it's a good starting point.
Illinois
researcher Gustavo Caetano-Anollés says about five to eleven percent of
modern proteins could be traced back to LUCA. Based on the function of
these particular proteins, it appears LUCA had the enzymes needed to
break down nutrients and get energy from them, and it could also make
proteins, but it probably didn't have the tools necessary to make DNA.
This fits with other research that suggests LUCA fed upon many different
food sources, and that it had internal structures in its cells known as
organelles.
The
big difference between LUCA and everything that came after, of course,
is DNA. Because LUCA didn't have the tools to deal with DNA, it probably
used RNA instead, and it likely had very little control over the
proteins that it made. The research suggests the ability to precisely
control protein manufacture only came long after LUCA split apart, which
means that protein-making was probably always a big crapshoot.
That's
why LUCA had to be cooperative, with any cells that produced useful
proteins able to pass them on throughout the world without competition.
This was a weird variation on what we know as natural selections —
helpful proteins could go from a single cell to global distribution,
while harmful or useless proteins were quickly weeded out and discarded.
The result was the equivalent of a planet-spanning organism.
So
why did this paradise of cellular cooperation give way to the last
three billion years of cutthroat competition? The simple answer is that
some cells probably outgrew this arrangement, as they had finally
developed all the structures needed to survive without help. We don't
know quite why that happened, but it appears to coincide with the sharp
increase of oxygen in the atmosphere. Whatever the cause, cells began
eking out their own independent existences, ending the reign of LUCA
that had lasted hundreds of millions of years... while beginning a new
order that is still going strong 2.9 billion years later.
BMC Evolutionary Biology via New Scientist. Image by fusebulb, via Shutterstock.
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