A small polymerase ribozyme that can synthesize itself and its complementary strand
Summary
The emergence of a chemical system capable of self-replication and evolution is a critical event in the origin of life. RNA polymerase ribozymes can replicate RNA, but their large size and structural complexity impede self-replication and preclude their spontaneous emergence. Here, we describe QT45, a 45-nucleotide polymerase ribozyme, discovered from random sequence pools, that catalyzes general RNA-templated RNA synthesis using trinucleotide triphosphate (triplet) substrates in mildly al
Content
# A small polymerase ribozyme that can synthesize itself and its complementary strand
*Published: 2026 Mar 5*
The emergence of a chemical system capable of self-replication and evolution is
a critical event in the origin of life. RNA polymerase ribozymes can replicate
RNA, but their large size and structural complexity impede self-replication and
preclude their spontaneous emergence. Here, we describe QT45, a 45-nucleotide
polymerase ribozyme, discovered from random sequence pools, that catalyzes
general RNA-templated RNA synthesis using trinucleotide triphosphate (triplet)
substrates in mildly alkaline eutectic ice. QT45 can synthesize both its
complementary strand using a random triplet pool at 94.1% per-nucleotide
fidelity and a copy of itself using defined substrates, both with yields of
~0.2% in 72 days. The discovery of polymerase activity in a small RNA motif
suggests that polymerase ribozymes are more abundant in RNA sequence space than
previously thought.
DOI: 10.1126/science.adt2760