1. Highly specific aptamer trap for extremophilic RNA polymerases.
- Author
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Petushkov, Ivan, Feklistov, Andrey, and Kulbachinskiy, Andrey
- Subjects
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NUCLEIC acids , *BACTERIAL RNA , *ARTIFICIAL chromosomes , *MESSENGER RNA , *GENETIC transcription , *RNA polymerases , *APTAMERS - Abstract
During transcription initiation, the holoenzyme of bacterial RNA polymerase (RNAP) specifically recognizes promoters using a dedicated σ factor. During transcription elongation, the core enzyme of RNAP interacts with nucleic acids mainly nonspecifically, by stably locking the DNA template and RNA transcript inside the main cleft. Here, we present a synthetic DNA aptamer that is specifically recognized by both core and holoenzyme RNAPs from extremophilic bacteria of the Deinococcus-Thermus phylum. The aptamer binds RNAP with subnanomolar affinities, forming extremely stable complexes even at high ionic strength conditions, blocks RNAP interactions with the DNA template and inhibits RNAP activity during transcription elongation. We propose that the aptamer binds at a conserved site within the downstream DNA-binding cleft of RNAP and traps it in an inactive conformation. The aptamer can potentially be used for structural studies to reveal RNAP conformational states, affinity binding of RNAP and associated factors, and screening of transcriptional inhibitors. • Aptamer T5 forms highly stable complexes with Thermus - Deinococcus RNA polymerases. • Aptamer T5 binds both core and holoenzyme forms of RNA polymerase. • Aptamer T5 can precipitate RNA polymerase from cell lysates. • Aptamer T5 inhibits the interactions of RNA polymerase with the DNA template. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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