The Mammalian Ribo-interactome Reveals Ribosome …

The genetic code and ribosome operation principles also seem to have been investigated in detail.

In protein production, what is the role of ribosomes? - …

A ribosome enzymatically “de jure” fixes the peptide covalent bonds of amino acid sequences, selected “de facto” in a polyaminoacid-poly-tRNA-associate, the predecessor of the protein.

Role of Ribosomes in Protein synthesis..? | Yahoo Answers

Laser-like radiations, emitted by the participants in this process and correcting the order of insertion of the amino acid components into a peptide, also function on the ribosome in addition to and/or together with the resonance regulations of a mutual dislocation of the codon-anticodon continuums.

This permits to significantly amplify a signal under which the correct choice (wave identification) is made of one in two homonymous aminoacylated tRNAs, where only one of the two is to be incorporated in a protein correct “phrase”. This selection is only possible after a ribosome has managed to split a coherent component in the form of repeats of the same recognitions of one of the two similar doublets in codons.


Protein Synthesis Steps - Protein Synthesis

So a copy was made, called mRNA.
The mRNA moves into the cytoplasm where the code will be on a ribosome by (tRNA) molecules.
Each tRNA carries one specific which will be needed to build the protein.

What Is Protein Synthesis - Protein Synthesis

An intermediate in this process, called mRNA (messenger ribonucleic acid), is made from the DNA template and serves as a link to molecular machines called ribosomes.

Internal ribosome entry site - Wikipedia

Inside every cell, ribosomes read mRNA sequences and hook together protein building blocks called amino acids in the order specified by the code: Groups of three nucleotides in mRNA code for each of 20 amino acids.

From RNA to Protein Synthesis - YouTube

To understand, what kind of mechanism resolves this typically linguistic problem of removing homonym indefiniteness, it is necessary firstly to postulate a mechanism for the context-wave orientations of ribosomes in order to resolve the problem of a precise selection of amino acid during protein synthesis [Maslow, Gariaev 1994].

Protein Synthesis -Translation and Regulation

Cloning of this kind has already been carried out on higher biosystems, for example, sheep.

The 4th level is the molecular level: here, the ribosome "would read" mRNA not only on the separate codons, but also on the whole and in consideration of context.
The 5th level is the chromosome-holographic: at this level, a gene has a holographic memory, which is typically distributed, associative, and nonlocal, where the holograms "are read" by electromagnetic or acoustic fields.

Drag-and-Drop Protein Synthesis: Protein Synthesis 2

This continuity or non-locality (which is the same) ensures that the ribosome apparatus recognizes and correctly chooses an actual codon from the two available doublet-homonymous ones, the codon, pseudo-noised with a background (context).

Drag-and-Drop Protein Synthesis: Translation - zeroBio

On the other side, if we know the principles of ribosome operation in a context orientation mode, then we can successfully fight HIV in a ribosomal wave (laser, solitonic, polarization and radio wave) regulation zone.