Rapid and reliable RNA resonance assignment by combining chemical and enzymatic stable isotope labeling

•Fast and reliable resonance assignment of aromatic CH and imino NH resonances of RNAs comprising up to 65 nucleotides.•RNA resonance assignment is possible even if spectral quality is low.•NMR measurement times for RNA resonance assignment can be cut by a factor of 4.•An expedient expansion to existing RNA NMR protocols and competitive in terms of workload, NMR measurement times and costs. In this work a rapid RNA assignment approach by combining chemical and enzymatic 13C and 15N stable isotope labeling is introduced. We exemplify the assignment strategy for imino N1H1 purine and N3H3 pyrimidine and aromatic C6H6 pyrimidine, C8H8 purine and C2H2 adenine resonances for a non-coding RNA comprising 66 nucleotides. The assignment strategy is based on position specific labeling by chemical solid phase synthesis and dilute stable isotope 13C/15N-labeling by mixing labeled and commercially available unlabeled RNA phosphoramidites. The assignment process is further facilitated by nucleotide specific labeling using T7 RNA polymerase in vitro transcription with in house produced atom specific 13C labeled ribonucleotide triphosphates. The approach is fast with a total NMR measurement time of only 22 h and also competitive in terms of costs as compared to the standard methodology relying on in vitro transcription using 2H, 15N and 13C/15N uniformly labeled ribonucleotide triphosphates. Furthermore, the assignment procedure revealed a slow exchange process on the NMR chemical shift time scale in the 66 nt non-coding RNA with possible biological implications in the regulation of bacterial competence. [Display omitted]