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Notes -
250 IQ is 10 standard deviations from mean IQ 100, SD=15
If we have 1000 offspring per generation via egg harvesting embryos, taking the top 1% (10) they should be 2.33 SD from the mean
With 80% heritability, response to selection per generation is 1.86 SD
Thus it will take 5.36 (6) generations of selective breeding to get 250IQ with 1000 offspring per generation
Or 6 * 20 weeks = 2.3 years
If egg/sperm are from +3 SD donors, it's 3.76 (4) generations, or 1.53 years
Please consider donating towards my volcano lair lab on Kickstarter
Right, I'm suggesting that the mathematical model stops applying. Like, imagine humans are now cars. You can make a faster car than you did last time by copying the techniques of all the best car factories (this is sorta what embryo selection does). Maybe you could even go 10-20% faster than the fastest car ever by doing that, though I think non-additive effects will prevent that. But you can't make a car that goes at 1000 mph by picking out the best techniques from existing car factories. You'd need to do more technical design work than that, or have a LOT of new mutations and natural selection on them.
well if you somehow get established breed of sperm and eggcells that are 10-20% better than the best, wouldn't be that accomplishment by itself? You can have population of high IQ humans that can procreate naturally and their regression to mean is not to 100 or 105 but 160. Good?
Yes I agree that it would be good to do that, and have made many posts to that effect. Although we don't even need embryo selection for that since we can already identify smart parents, it's useful.
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It's possible to study nonlinearity... though of course you are right, it's difficult and one of problems here that due to ethics problem nobody gets dataset on million IQ - genome pairs (we need to oversample at edges of distribution too)
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You can't take half the components of a Ferarri and half the components of a Ford pickup, mix them together and have a working car. The piston of one wouldn't fit in the cylinder of the other.
But you can mix the genomes of males and females of the same species.
Cars have very few components so the variation is eg swapping out this brand of muffler for another one - they must all fit together. Genetic variation is extremely small (modifying less than a billionth of the system) - and mostly independent of other variation.
Imagine a car with 10,000 tunable components, that can vary without breaking the machine (life is robust to variation)
There are 8 billion cars, almost completely stock. Some have a few parts well tuned, and are fast, some have a few parts detuned and are slow
The fastest cars have 500 components perfectly tuned and are 4 or 5 standard deviations faster
What I'm saying is we look at millions of cars tuning matched to speed. We use this to work out what the best tuning is, then we select for that, making a car that uses existing components, but the combination has never existed before naturally.
We KNOW we can rapidly selectively breed animals that vary enormously from the natural stock. Look at racehorses, dogs, milk production in cows, the giant extremely fast growing chickens we eat today that lay eggs at phenomenal rates etc etc
Yes, that involves actually growing these animals to adults and testing them, but not hoping that our linear regression (19th century math) PGI is true.
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Your position here is not the mainstream one, if you asked a hundred researchers in genetics if they thought your method could reach 250 IQ they would disagree. I was trying to do the sort of broad explanatory analogy we do a lot of here because it's a general interest place, but there are technical reasons why you're wrong. If you want to convince anyone, you should use rhetoric that acknowledges you're in an unfavored position.
I am a geneticist - nobody talks about selectively breeding human IQ because it gives you bad press, your uni may fire you and you will no longer get any grants.
But humans are just animals, and IQ is just a normally distributed polygenic trait... so ask them about whether it would be possible to say breed +5SD weight or wing size in fruit flies or mice length and they will say "of course"
The rapid turn around of generations via embryonic eggs is science fiction, but it's much closer to "geostationary sattelite" than "warp drive".
Curious. Why people do genetics research at all if it's prohibited where it matters the most, or "EA PGS explains 4% of variance"? Do (some) geneticists secretly hold politically incorrect opinions?
Most work in human genetics is finding the cause of genetic disease (inherited and cancer)
In all western countries I can think of, they do prenatal screening tests, the results of which are used to kill the genetically less fit.
What is this if not government eugenics program that almost all scientists support? High 90% of people terminate down syndrome foetuses upon positive result.
In polls, most westerners are ok with termination to stop disease, just not ok with anything that looks like making super babies
Though of course, if you look at sperm donation stats I am sure the average chosen donor is above average IQ, height, attractiveness etc
Do you think there are alleles than benefit individual's intelligence when they are found in their mother but not themselves?
Yes:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8456157/
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Thanks.
There are still studies ilke EA3, EA4... which is only barely related to finding disease. Why do researchers do that?
I think you're missing something here, a large fraction (or majority in many countires) doesn't test of Down syndrome even if they can afford it.
I'm afraid IQ might be higher than average mostly due to positive correlations with EA and income. Height isn't neccessarily good.
Can you tell if you work in human genetics or not? What can you say about MAOA 2R allele (and 1.5 R allele)?
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... okay
As you said, 250 IQ is 10 SD. 5 SD and 10 SD are very different. If you had said 175 IQ, I would not have said that was categorically impossible. While I still do think that IQ is going to have construct issues, if you just assume a normal distribution there will be people who have + 5 SD out of 9 billion people.
The thing, though, is that intelligence isn't like muscle mass. In two ways. One (pretty confident), it's not just a thing you can measure. We genuinely do not know what the capabilities of '250 IQ' would refer to. No such people exist, not even close. IQ is defined by rank ordering an existing distribution and mapping it to a normal. If you carried out your method, and the 250 IQ person wasn't actually practically smarter than the 160 IQ person, you could still say - well, he's 250 IQ, because of the distribution of test scores we inferred the way we did the selection! And there wouldn't actually be anything wrong with that, other than the person not actually being usefully smarter.
Two, (much less confident, plausible but not more likely than not imo that the scientific consensus disagrees with this) intelligence isn't something where there's an obvious disadvantage to more of it. For muscle mass, past a certain point there's some fitness advantage from being stronger but it's more than compensated for by things like energy / diet requirements. So in an artificial environment with infinite food, it's really easy for natural selection to just modify whatever regulates how much muscles grow and grow more and have them get massive. I think intelligence is just hard, though. It's just a very complicated thing, and there's no simple way to have more of it if some other tradeoff is fixed. More intelligence mostly isn't a matter of increasing the number of neurons, plenty of people with the same head size as von Neumann just weren't von Neumann. And at von Neumann's scale non-additive effects probably play a significant role in getting you from 'very smart' to 'top 100', and natural selection just won't work as well on those.
We can get freakish results via artificial selection, but yes we hit limits, eg greyhounds are only like 30% faster than wolves.
But look at corn vs teosinte, or milk yields per cow doubling in the last 50 years... or von Neumann in 1000 years from a hybrid of Middle easterners and Europeans...
I think we could make IQ tests that went further than the current highest scores ie reverse digit span tests, reaction times etc. If you can reliably get the same answers as someone with 160 IQ but faster... you're smarter than them
But yeah the real proof would be accomplishment, IQ is just the best measure we have for intelligence and the goal would be better output eg important original research etc
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What if we asked them 'how fast we could genetically engineer 300 IQ humans if genetics budgets were >10% from military spending"?
I think they'd still say roughly what I'm saying - we'd need to actually understand how intelligence works to make changes that go that far from natural designs and we don't. There's a decent amount of funding in genetics and neuroscience, not 60B/year but decent. They'd also probably say that IQ might not mean anything at 300 and that being that smart might not actually be physically possible even if it did mean something.
Are there examples of actual geneticists speaking about limits of linear regression PGI?
Depends on what you mean by "that far".
there isn't, say, IQ genetics study with sample of 10 million with full genome sequencing.
Because what? Smaller animals significantly outperform larger animals with same brain size, their brains are more tightly packed. Why wouldn't be elephant sized brain with density of sparrow be smarter? Cooling might be a problem, though.
(wrote in a hurry) IQ is basically defined to be a normal distribution. 250 iq is 10 standard deviations above the mean, and the probability of being >= that is like 1 in 10^23. We can't sample from the distribution of 10^23 humans, and even if we could it's not obvious what distribution to pick or why, so even in theory I'm not sure what 250 would mean.
10^10 data points is still a lot of data. I think it would be enough to crack nonlinearity to process to human twice further from baseline than existing best individuals. It's unknown nonlinearity, but not cryptographically secure nonlinearity.
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