2018
DOI: 10.1002/anie.201807125
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Chemo‐Enzymatic Synthesis of Position‐Specifically Modified RNA for Biophysical Studies including Light Control and NMR Spectroscopy

Abstract: The investigation of non-coding RNAs requires RNAs containing modifications at every possible position within the oligonucleotide. Here, we present the chemo-enzymatic RNA synthesis containing photoactivatable or C, N-labelled nucleosides. All four ribonucleotides containing ortho-nitrophenylethyl (NPE) photocages, photoswitchable azobenzene C-nucleotides and C, N-labelled nucleotides were incorporated position-specifically in high yields. We applied this approach for the synthesis of light-inducible 2'dG-sens… Show more

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Cited by 45 publications
(46 citation statements)
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References 66 publications
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“…Herein, we provide a protocol for the chemo-enzymatic synthesis of RNAs that contain a single modified/labeled nucleotide at a desired position without any size limitation. By the site-specific incorporation of 13 C, 15 N labeled or unnatural modified nucleosides, such as 19 F or 13 C-methoxy groups, the signal abundance is dramatically reduced and spectra with single signals can be obtained (Keyhani et al, 2018). Using this method, it is even possible to incorporate modified nucleosides carrying sterically demanding modifications such as photoremovable protecting groups (e.g., ortho-nitrophenylethyl) or photoswitches (e.g., azobenzene).…”
Section: Preparation Of Site-specific Labeled Rnas Using a Chemo-enzymentioning
confidence: 99%
See 1 more Smart Citation
“…Herein, we provide a protocol for the chemo-enzymatic synthesis of RNAs that contain a single modified/labeled nucleotide at a desired position without any size limitation. By the site-specific incorporation of 13 C, 15 N labeled or unnatural modified nucleosides, such as 19 F or 13 C-methoxy groups, the signal abundance is dramatically reduced and spectra with single signals can be obtained (Keyhani et al, 2018). Using this method, it is even possible to incorporate modified nucleosides carrying sterically demanding modifications such as photoremovable protecting groups (e.g., ortho-nitrophenylethyl) or photoswitches (e.g., azobenzene).…”
Section: Preparation Of Site-specific Labeled Rnas Using a Chemo-enzymentioning
confidence: 99%
“…Our description within this protocol covers the synthesis of the DNA template (Support Protocols 1 and 2), the optimization of the transcription reaction (Basic Protocol 1), the purification of the RNA (Basic Protocol 1, Alternate Protocols 1 and 2) as well as the expression and purification of several required enzymes within this process (Support Protocols 3 and 4). Furthermore, we provide a general guide on the ligation-based chemo-enzymatic synthesis of an RNA that is labeled or modified at a single position (Basic Protocol 2; Keyhani, Goldau, Blümler, Heckel, & Schwalbe, 2018). Here, the chemical synthesis of the required 3 ,5 -nucleoside bisphosphate (Support Protocol 5), the ligation reactions with T4 RNA Ligases 1 and 2 as well as the expression and purification of T4 RNA Ligase 2 (Support Protocol 6) are described.…”
Section: Introductionmentioning
confidence: 99%
“…A more detailed discussion of chemical incorporation of non‐natural nucleotides is subject of a recent review (Holstein & Rentmeister, ). While chemical synthesis allows for high flexibility regarding the position and nature of the non‐natural nucleotide, synthesis of RNAs longer than 50 nt remains challenging, necessitating enzymatic ligation (Keyhani, Goldau, Blümler, Heckel, & Schwalbe, ). Enzymatic production of modified RNA does not face length restrictions (Figure b).…”
Section: In Vitro Treatment Of Rna For Application In Cellsmentioning
confidence: 99%
“…Such RNAs carrying a hydroxyl group and a modified nucleotide at the 3′‐end undergo ligation with a 5′‐phosphorylated RNA in presence of T4 RNA ligase 2 in an ATP‐dependent reaction. With this method, shown in Figure , RNAs up to a length of 390 nts containing a single position‐specific modification have been synthesized …”
Section: Requirements: From Nmr Probes To Sample Preparationmentioning
confidence: 99%
“…With this method, shown in Figure 2, RNAs up to a length of 390 nts containing a single positionspecific modification have been synthesized. [32] 3. 13 C-detection NMR spectroscopic experiments for RNA…”
Section: Requirements: From Nmr Probes To Sample Preparationmentioning
confidence: 99%