this post was submitted on 07 Feb 2024
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Junk DNA is repeating codons, or codons that occur in areas that are outside of the "start/stop" codon triplicate pairs. A DNA transcribing protein will read the genetic code from a start signal, until it gets to a stop signal. Then it clips itself off the chain and re-binds the chain together for the next transcriber to use. Sometimes there are extra codons between a stop signal and the next start signal, sometimes there are hundreds of thousands of extra codons. They aren't there for structural reasons, all DNA is the same 4 codons linked together over and over, all the different chromosomes are different sizes. All of this DNA is reported when the cells divide, that's the only time those regions between the stops and starts actually come into play. This is very easily proven, we know the structure of the reading proteins down to the molecule (indeed there are starts and stops and triplicate base pairs that design these transcribing proteins). The "important" junk DNA that has significance while not being in a "start->stop" zone are the codons that occur before the first start codon on either side of a DNA strand, when DNA is replicated the protein that starts replicating it has to start at 1 end of 1 side of the DNA in order to be able to read it, except it needs to find the end first, and to make sure it's all the end it "clips" the first 6 (? Maybe more maybe less, it's been decades since I've studied this) codons from the strand of DNA, this is lost for all future replications of the cell, your DNA actually gets shorter every time your cells reproduce (except your miosis division cells, they have a special replication process that keeps the full length of every chromosome).
Sorry for the wall of text, but there's plenty of examples of blatantly junk DNA, and there are known methods of how it occurs. Anyone who says every codon pair has a purpose has a screw loose and is ignorant to the mechanics of evolution.
Those sequences do things and have effects. In fact, the coding regions are often less functional than the non-coding ones.
Sometimes they ARE there for structural reasons? Read: enhancers, or CTCF binding sites? Among many other myriad examples of functional noncoding regions? Also, nucleotides =/= codons. There are 64 codons.
That's bull. You're out of your depth. A contemporary college molecular biology course would show your examples to the contrary.
I feel like a broken record but Enhancers! lncRNAs! siRNAs! Binding sites! Other gene regulatory regions! Epigenetic nucleosome modifications! Chromatin remodeler sites!
Oh, there's your problem. A lot has changed. You refuse to see the sea change happening around you because it means you're out of date.
I was happy to reply to you and engage pleasantly originally but you are only engaging with people that know less about biology than you do. You are not an expert if you last studied biology decades ago and can't remember the details. You certainly aren't enough of an authority on the subject to question a contemporary article published in Science or the work of other researchers currently in the field.
I really, really encourage you to read these papers thoroughly. You are the target audience-- people who learned the machine model of the cell and who are gripping it so tightly that they are blind to the nuance that we've uncovered. I also encourage you to not write insults about people who disagree with you, especially people with more domain knowledge than you have.
Every sperm isn't sacred and every piece of DNA isn't with purpose, otherwise explain ferns and plants having hundreds of times more DNA than higher functioning life forms.