Just to be well and truly fuckin clear. I am not now nor have I ever been nor will I ever be contemplating shagging a family member.

  • Th4tGuyII@kbin.social
    link
    fedilink
    arrow-up
    33
    ·
    edit-2
    9 months ago

    I’ll try to keep it relatively simple - your cells contain chromosomes that contain your genes. You usually* have two sets of every chromosome.

    These genes come in different variations/mutant forms called alleles. Most alleles function more or less the same, but some malfunctions result in deformities.

    If a malfunctioning allele results in errant gene inactivation, it is known as recessive, which means as long as your other copy works, you’re all good.

    If a malfunctioning allele results in an errant gene activation, it is known as dominant, which means if you have the allele you get the deformity regardless of if your other copy works or not.

    Fortunately for life, most malfunctioning alleles are recessive, so as long as you’ve got high genetic variance (a lot of alleles) in a population, the chance of two people meeting with the same recessive malfunction is low.

    Incest can result in a drastic decrease in genetic variation, which can result in malfunctioning alleles becoming much more prevalent than they usually would be, resulting in many more cases of recessive deformities than in the wider population.


    *For males this is not true of their sex chromosomes. Many genes present on the X chromosome are missing on the Y chromosome, which can lead to sex exclusive traits and diseases.

    For example, it is the reason why there are almost no calico/tri-colour male cats, as the genes for it are in X but not Y chromosomes.

    • VindictiveJudge@lemmy.world
      link
      fedilink
      English
      arrow-up
      8
      ·
      9 months ago

      For example, it is the reason why there are almost no calico/tri-colour male cats, as the genes for it are in X but not Y chromosomes

      And the male calicos that exist actually have Klinefelter syndrome, where they wound up with an extra X chromosome, making them XXY instead of XY.

    • where_am_i@sh.itjust.works
      link
      fedilink
      arrow-up
      1
      ·
      9 months ago

      And so the reason for malfunctioning alleles not to be dominant is probably natural selection. E.g. you select away bad dominant alleles, but if we assume a low pct of inbreeding, the recessive ones are irrelevant and so they stay.

      • Th4tGuyII@kbin.social
        link
        fedilink
        arrow-up
        2
        ·
        9 months ago

        Pretty much…

        Recessive malfunctions can hide away amongst carriers for generations before manifesting any deformities, during which time they have no effect on the carrier’s survival, so there’s very little selective pressure against them.

        Dominant malfunctions which cause deformities simply can’t hide away, so have enormous selective pressure against them.

        Interestingly enough though, there are times where dominant malfunctions can survive that pressure…
        For example, having Sickle cell disorder increases your resistance to Malaria, so even though the full form is rarely passed on, the single allele form (which caused partial disorder) is passed on due to a slight positive selection pressure.