The automorphism group $Aut(E_1)$ of the $E_1$ operad is the cyclic group of order 2, $C_2$, and thus $C_2$ acts on any category of algebras (by reversing the multiplication). The seeming coincidence that $Gal(\mathbb C/\mathbb R) = C_2$ as well allows one to define such notions as $C^\ast$ algebras, where one asks for an appropriate interaction between the actions of $Gal(\mathbb C / \mathbb R)$ and $Aut(E_1)$.
It goes without saying that by the law of small numbers, many mathematical objects will have automorphism group $C_2$, and in general one shouldn't expect to read too much into such coincidences. But the simple fact that $C^\ast$-algebras and other sorts of $\mathbb C$-algebras with involution turn out to be so incredibly useful in mathematics (and physics, for that matter) suggests to me that maybe in this case, it's not a coincidence that $Gal(\mathbb C/\mathbb R) = Aut(E_1)$. However, I can't really think of a "good reason" that these two groups are isomorphic. So I'll ask
Questions:
Is there some "good reason" why $Gal(\mathbb C / \mathbb R)$ acts on the category of $\mathbb C$-algebras in two different ways -- both canonically and by reversing multiplication?
Even better, is there a "good reason" why $Gal(\mathbb C / \mathbb R)$ acts on the $E_1$ operad?
Is there some generalization of the notion of algebra with involution that makes sense for other Galois extensions? Or is there another direction of generalization which sheds light on the usefulness of $\mathbb C$-algebras with involution?
If there's not really a "good reason" for all of this, then is there some other way to explain the usefulness of the notion of a $C^\ast$ algebra, or a $\mathbb C$-algebra with involution?
In (1) and (2), roughly by a "good reason" for an action I mean: could you construct this action without having done the computation to show that $Gal(\mathbb C / \mathbb R) = C_2$.
I'm tempted to frame this in the more general context of the notion of duality in mathematics, and to ask "Which mathematical dualities are "related", and which ones are "unrelated"?" -- but I think I may need to sharpen the question a bit before asking something like that here on MO.