In this study, the scientists simulated the process of spaced learning by examining two types of non-brain human cells — one from nerve tissue and one from kidney tissue — in a laboratory setting.

These cells were exposed to varying patterns of chemical signals, akin to the exposure of brain cells to neurotransmitter patterns when we learn new information.

The intriguing part? These non-brain cells also switched on a “memory gene” – the same gene that brain cells activate when they detect information patterns and reorganize their connections to form memories.

    • Atelopus-zeteki@fedia.io
      link
      fedilink
      arrow-up
      4
      ·
      5 days ago

      Yes, that is also true. Many things make up the mind, and changing a major input, e.g. the microbiota that make a particular mix of short chain fatty acids and other neuro effective compounds, is going to change the cognitive outputs.

      • Cataphract@lemmy.ml
        link
        fedilink
        English
        arrow-up
        1
        ·
        5 days ago

        You really should affix the possible reasoning to your comment up the chain

        changing a major input, e.g. the microbiota that make a particular mix of short chain fatty acids and other neuro effective compounds, is going to change the cognitive outputs.

        This post is wildly running into speculation and I fear several users are taking the wrong implications that “conscious memory” is scientifically being validated as stored in the bodies several organs.