The Hammerhead Ribozyme (HHR) is a ubiquitous RNA enzyme that catalyzes site-specific intramolecular cleavage. While mutations to its catalytic core have traditionally been viewed as detrimental to its activity, several discoveries of naturally occurring variants of the full-length ribozyme challenge this notion, suggesting a deeper understanding of HHR evolution and functionality. By systematically introducing mutations at key nucleotide positions within the catalytic core, we generated single-, double-, and triple-mutation libraries to explore the sequence requirements and evolution of a full-length HHR. In vitro selection revealed many novel hammerhead variants, some of which possess mutations at nucleotides previously considered to be essential. We also demonstrate that the evolutionary trajectory of each nucleotide in the catalytic core directly correlates with their functional importance, potentially giving researchers a novel method to assess the sequence requirements of functional nucleic acids.
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