Searching HN for "mirror cells", I see at least 1 article warning of the dangers from more than 10 years ago. So, this has been a thing for a while. Any biologists here that can chime in on just how big of a risk they do pose? Is there a general consensus throughout the community that this research should end? Is this something that could be developed for bio-terrorism? Should work be started on developing mirror immune system cells, just in case?
throwawaymaths|1 year ago
there is currently ~no risk because generating mirror life is such a monumental task. we dont have a full biological bootstrap sequence currently. even syn1.0 which was a synthetic genome transplant and rebooting operation, required a living host cell to transplant the DNA into, and the genomic dna does go from a computer file, but only the smallest ~100 bp fragments are made by robots and chemistry; intermediate fragments are assembled and amplified in enzyme reactions, bacteria, and yeast.
in principle you could get these to be entirely in vitro, but the yields would be nearly nil. and the expense of mirror dna monomers is... i can't even imagine. you'd probably bankrupt a midsize nation on that. and theres no motivation to decrease the cost because there's not really any other practical use for mirror dna outside of fucking around scientifically. and thats just the DNA. our ability to synthetically make proteins taps out at around 150-200 residues (maybe 2-4x that if you can get clever with native chemical ligation) and the purification and isolation at that length is truly a nightmare, not to mention refolding longer sequences is also hard.
ninininino|1 year ago
M95D|1 year ago
- It would still have antigenic properties, just not the ones we are familiar with, because antigens are proteins or proteins bound to sugars. Both have "left" vs "right" variants.
- It can't eat any ordinary food, except simple fats. Common proteins and sugars won't fit it's enzymes. That means it can't digest sugars, proteins or any combination that contains them. It also means it can't attack and decompose our tissues, so it would have no way to enter our bodies.
- With only simple lipids as food, it would need to take all Nitrogen from the atmosphere or inorganic compounds, which means it can't really be a pathogen for humans (or any animals) even if it could somehow enter our organisms. However, it could live on the soil and possibly be a plant pathogen.
- It's "mirrored" toxins won't have any effect on us. (But compounds that are normally benign possibly could be toxic if "mirrored" - I can't say for sure if it's possible.)
foobiekr|1 year ago
Qem|1 year ago
ethbr1|1 year ago
Most critically, metabolic pathways.
But that isn't to say there isn't already varied chirality in nature [0]. The primary reason life is generally aligned to one chirality is because its very purpose is to interoperate with the living environment around it.
[0] https://en.m.wikipedia.org/wiki/Chirality#Biology
phkahler|1 year ago
That sounds like a good thing but... Our food chain starts at the bottom with bacteria turning nutrients into bio-molecules right? These bacteria are eaten by other things going up the food chain ultimately to us. What if some bacteria got loose at that bottom level and started eating all the nutrients with no natural predators? What if it out-competed those with predators? That might be game over for life as we know it.
I'm NOT saying this would happen, just that it one of thousands of possible scenarios one can come up with that go very badly. No one can say with certainty which things would or would not happen.
GenerocUsername|1 year ago
The parts would be similar enough to form bonds and trigger receptors, but different enough to become permanently stuck, unable to be processed.