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Abstract
The ribosome is a ribozyme whose active site, the peptidyl transferase center (PTC), is situated within a highly conserved universal symmetrical region that connects all ribosomal functional centers involved in amino acid polymerization. The linkage between this elaborate architecture and A-site tRNA position revealed that the A-> P-site passage of the tRNA terminus in the peptidyl transferase center is performed by a rotatory motion, synchronized with the overall tRNA/mRNA sideways movement. Guided by the PTC, the rotatory motion leads to stereochemistry suitable for peptide bond formation, as well as for substrate-mediated catalysis, consistent with quantum mechanical calculations elucidating the transition state mechanism for peptide bond formation and indicating that the peptide bond is being formed during the rotatory motion.
Analysis of substrate binding modes to inactive and active ribosomes illuminated the significant PTC mobility and supported the hypothesis that the ancient ribosome produced single peptide bonds and non-coded chains, utilizing free amino acids. Genetic control of the reaction evolved after poly-peptides capable of enzymatic function were created, and an ancient stable RNA fold was converted into tRNA molecules. As the symmetry relates only the backbone fold and nucleotide orientations, but not nucleotide sequence, it emphasizes the superiority of functional requirement over sequence conservation, and indicates that the PTC has evolved by gene fusion, presumably by taking advantage of similar RNA fold structures.
