[jasonmar]

A single neuron has hundreds to hundreds of thousands of synapses and at each synapse there is a number of receptors and channels on the receptor end and neurotransmitter molecules and vesicles on the transmitter end. Synapses are far from the nucleus so there are reservoirs of mRNA hanging out waiting to be transcribed that needed to be staged there. There's epigenetic state affecting how much and what type of mRNA is produced. All of these are continuously affected by the combination inputs. How much of this needs to be included in the model? I'd like to see them comment on which parts of the original system they consider out of scope.

[netizen-936824]

That's not even mentioning the fact that most receptors are quaternary structures in which the subunits can be switched out. This allows a single receptor to have many variations which means many variations on receptor behavior. Pardon my language, but the complexity is fucking mind boggling. It's beautiful.

[amelius]

But how much of that complexity is "observable"?

[prox]

You mean what is absolutely necessary?

[amelius]

Imagine you have a 2-input NAND gate, but for some reason it is implemented with 1000 transistors (perhaps for redundancy in case one of the transistors gets hit by a cosmic ray, or perhaps for other reasons). That gate still behaves the same, so for all an (external) observer could measure, it is a NAND-gate, which is a simple device. Internal complexity does not always mean external (observable) complexity.

[glopes]

> or perhaps for other reasons

This is exactly where complexity hides. Simplicity of models relies on abstractions, which in the real world are invariably leaky. The complexity of making a robust NAND gate is very much observable at some level, and only goes away once you ignore the messy details. The more we look, the more this seems to hold for pretty much everything in our observable universe, from galaxies to quarks. The more you dig the more worms you find. There are thousands of sub-fields of molecular biology which try to understand how a single cell actually works, and we still are not done by a large margin. Of course we will always ignore what we can to make workable human models that we can actually reason about.

[Dylan16807]

But does the complexity actually matter for the end result? Only in some systems.

[josefx]

> Internal complexity does not always mean external (observable) complexity.

Yet you mention observable reasons at the beginning, before abstracting it right past spherical cows on friction less planes to its purely mathematical concept.

Especially with attacks like row hammer one could argue that redundancy or the lack thereof has a significant observable impact on how modern systems behave.

[a-dub]

i was first introduced to the brain as primarily an electrical entity, but a few years back saw a fantastic talk about how there's an entire biological substrate of computation that takes place in the genetic cell signaling that electrical recordings and activity don't even capture.

it was fascinating. :)

[cobertos]

Curious if that talk is public/if you have a link to it? I'd be interested

[a-dub]

https://www.youtube.com/watch?v=_kac0_DDVw0&list=PLBHioGD0U1...

one of my favorite talks at a really fun conference.

[Koala_ice]

There's also evidence of mRNA transmission (packaged into capsids) between neurons!

[mmmrtl]

waiting to be transcribed

*translated