I'm saying there's no reason to equate something like hep-c constantly creating cytotoxic virus bits for the rest of someone's life and mrna that makes the cytotoxic virus bits for a few days. The former is continuous damage over time presumably increasing the mortality rate over time and the latter is a fixed amount of damage and you'd expect the mortality rate to drop over time.
There's existing research into how long mRNA lasts in cells. It varies but without a mechanism to replace it all of it will eventually break down and then it will be further broke down into peptides and then animo acids by recycling mechanisms in your cells.
So are you saying it will be lower?
I'm saying there's no reason to equate something like hep-c constantly creating cytotoxic virus bits for the rest of someone's life and mrna that makes the cytotoxic virus bits for a few days. The former is continuous damage over time presumably increasing the mortality rate over time and the latter is a fixed amount of damage and you'd expect the mortality rate to drop over time.
Do we know that the mRNA wears off?
There's existing research into how long mRNA lasts in cells. It varies but without a mechanism to replace it all of it will eventually break down and then it will be further broke down into peptides and then animo acids by recycling mechanisms in your cells.
Ok everyone, it's time for your booster shots.
Some people lack the enzyme to break it down effectively so it has a longer life in the cell for them