The Inscrutable Genetics of Crusader Kings III

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If you're here looking for an understanding of gameplay mechanics, it's hard to image a less helpful video about genetics in Crusader Kings III • But all you want to do is prioritise positive congenital traits along a few cousin lines (without inheritance, to maintain total control) where you can pursue the Pure-Blooded trait, while ensuring enough genetic diversity is introduced into your direct line, to avoid the Inbred trait. I recommend this, due to it being far more likely that your characters gain negative traits than the Pure-Blooded trait. Once Pure-Blooded is gained in a cousin line, inbreeding with your direct line shouldn't be problematic due to the significant number of ancestor differences if you've continually sought non-related marriages for the direct line (obviously you should still be prioritising the good congenital traits in your non-related, direct line marriages). • Furthermore, I don't think you should be trying to min-max congenital traits every playthrough, it gets boring imo. • Regardless, I probably should have made this video when CK3 was released. • In the CK2 video, all of the jargon is explained, but none of it is here, this is what I call cutting down the amount of effort and has saved my life. • Usually in the description, I cite a whole bunch of interesting, but ultimately irrelevant publications and sometimes comply with attribution requirements. • This time, only one citation is worth mentioning: at about 4:12 I show an image with a bunch of dogs. I nabbed this little beauty from the blog 'Science and Dogs' https://dogbehaviorscience.wordpress.... • It seems like the blog is no longer active. • Ahh, who am I kidding, any little piggie rolling around in the muck of a LarsPorsenna description deserves some treats, oink for your treats, piggie! • Wistedt, A., et al. (2019) Age-related changes in the shell gland and duodenum in relation to shell quality and bone strength in commercial laying hen hybrids. Acta Veterinaria Scandinavica, 61, 4. https://doi.org/10.1186/s13028-019-04... • Just a little paper about eggshell quality across laying life-span, that just touches on features of eggshell formation, bone quality and calcium absorption that very loosely hints at the reasonableness of the hypothetical raised in the video. • Lindsay, S. J., et al. (2019) Similarities and differences in patterns of germline mutation between mice and humans. Nature Communications, 10, 4053. https://doi.org/10.1038/s41467-019-12... • Paternal mutation shenanigans + one of many mutation rate estimations you can find. • Wong, W. S. W., et al. (2016) New observations on maternal age effect on germline de novo mutations. Nature Communications, 7, 10486. https://doi.org/10.1038/ncomms10486 • Just for that stupid paternal and maternal mutation graph I did, I don't think the maternal line should cross the paternal line, but oh well, it's in the video now. (Also, another mutation rate estimation). • Xia, J., et al. (2012) Investigating the relationship of DNA methylation with mutation rate and allele frequency in the human genome. BMC Genomics, 13, S7. https://doi.org/10.1186/1471-2164-13-... • Some stuff on DNA methylation. • Wei, S., et al. (2018) Histone methylation in DNA repair and clinical practice: new findings during the past 5-years. J Cancer, 9, 12. https://doi.org/10.7150/jca.23427 • And this one's on histone methylation and repair mechanisms. (I despise the Journal of Cancer's website, but at least this paper is open access.) • Someone writing ironically in a published scientific paper about something that is not ironic is a truly terrible thing. Hopefully it's just an accident and doesn't imply something about their intention or reveal their prejudices and biases...

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