In sexual reproduction there would be a large pool of correct copies out there and at some point these would be swapped back into this line. With cloning the information is lost for all descendants until random mutation recreates it.
I think I get your point here, though I think this assumes a lot about how much cross-over mechanisms can actually “detect” genetic damage.
If this damage can mostly be detected only once the organism is mature enough to be selected for/against by “environment” then I think that kind of goes back into the “red queen” style theory that I’m a fan of (i.e. “hidden traits” that occasionally manifest in the population instead of dying out)
If this damage can mostly be detected at cross-over time or when the organism is still very young or in the germ cells themselves… then I’d expect this is also the kind of damage that won’t be present in germ cells to being with, or not in many because there’s already intra and inter cellular mechanisms to correct for this by inducing apoptosis in the damaged cell.
But maybe I’m missing something and I don’t understand the finer details of cross over well enough.
I think I get your point here, though I think this assumes a lot about how much cross-over mechanisms can actually “detect” genetic damage.
If this damage can mostly be detected only once the organism is mature enough to be selected for/against by “environment” then I think that kind of goes back into the “red queen” style theory that I’m a fan of (i.e. “hidden traits” that occasionally manifest in the population instead of dying out)
If this damage can mostly be detected at cross-over time or when the organism is still very young or in the germ cells themselves… then I’d expect this is also the kind of damage that won’t be present in germ cells to being with, or not in many because there’s already intra and inter cellular mechanisms to correct for this by inducing apoptosis in the damaged cell.
But maybe I’m missing something and I don’t understand the finer details of cross over well enough.