Site-Specifically Labeled RNA & DNA Synthesis Service
For site-specific incorporation of stable isotope-labeled (2H, 13C, 15N, 18O, 19F) nucleotides into RNA or DNA sequences solid-phase chemical synthesis is the method of choice. For this purpose nucleoside phosphoramidites are used during the respective cycle of oligonucleotide synthesis.
Silantes offers both:
- Stable isotope-labeled ribo- and deoxy-phosphoramidites oligonucleotide synthesis building blocks
- Solid phase synthesis service for stable isotope-labeled oligonucleotides
Overview
Optimized Process Parameters for Solid-Phase Synthesis with Stable Isotope-Labeled Phosphoramidites
The chemical synthesis of oligonucleotides is carried out from 3′- to 5′-end. During the coupling step, a 3′-phosphoramidite reacts with a free 5′-hydroxy group. The coupling yield is a measure of the quality of the synthesis process. For the synthesis of stable isotope-labeled oligonucleotides, the isotope-labeled phosphoramidites are the main cost drivers. The coupling yield and material usage therefore impacts the price of stable isotope-labeled RNA and DNA reagents.
At Silantes we have optimised our solid-phase synthesis processes to guarantee high coupling yields with stable isotope-labeled phosphoramidites. Furthermore, we know from years of experience how to best prepare the stable isotope-labeled phosphoramidites during the critical coupling step with the goal to minimize material input. At Silantes, we are able to synthesise your site-specifically stable isotope-labeled oligonucleotide at the highest cost efficiency.
Have your site-specifically stable isotope-labeled RNA or DNA synthesised by Silantes
If you need a site-specifically stable isotope-labeled RNA or DNA sequence for your project, Silantes can take care of the synthesis work for you. For a quote we need the following information:
- Sequence of the target RNA or DNA
- Sequence positions to be isotopically-labeled
- Isotopic labeling pattern of the nucleotide to be incorporated in the respective positions
- Synthesis scale, 1.3 µmol or 0.5 µmol
- Is purification desired? Depending on the sequence, Silantes experts will decide which method of purification (gel or HPLC) is best suited for your sequence.
Based on this information, we provide a quotation for the synthesis of your oligonucleotide. Once an order is placed, purified oligonucleotide delivery time is commonly less than 6 weeks.
References
Relevant documents:
Use cases of the Silantes NTPs in scientific publications:
- Mieczkowski, M., Steinmetzger, C., Bessi, I., Lenz, A., Schmiedel, A., Holzapfel, M., Lambert, C., Pena, V., & Höbartner, C. (2021). Large Stokes shift fluorescence activation in an RNA aptamer by intermolecular proton transfer to guanine. Nature Communications, 12(1). https://doi.org/10.1038/s41467-021-23932-0
- Musheev, M. U., Schomacher, L., Basu, A., Han, D., Krebs, L., Scholz, C., & Niehrs, C. (2022). Mammalian N1-adenosine PARylation is a reversible DNA modification. Nature Communications, 13(1). https://doi.org/10.1038/s41467-022-33731-w
- Xu, Y., McSally, J., Andricioaei, I., & Al-Hashimi, H. M. (2018). Modulation of Hoogsteen dynamics on DNA recognition. Nature Communications, 9(1). https://doi.org/10.1038/s41467-018-03516-1
- Li, M., Wang, Y., Wei, X., Cai, W., Wu, J., Zhu, M., Wang, Y., Liu, Y., Xiong, J., Qu, Q., Chen, Y., Tian, X., Yao, L., Xie, R., Li, X., Chen, S., Huang, X., Zhang, C., Xie, C., . . . Lin, S. (2024). AMPK targets PDZD8 to trigger carbon source shift from glucose to glutamine. Cell Research. https://doi.org/10.1038/s41422-024-00985-6
- Cromsigt, J., Schleucher, J., Gustafsson, T., Kihlberg, J., & Wijmenga, S. (2002). Preparation of partially 2H/13C-labelled RNA for NMR studies. Stereo-specific deuteration of the H5’’ in nucleotides. Nucleic Acids Research, 30(7), 1639–1645. https://doi.org/10.1093/nar/30.7.1639
- Rangadurai, A., Szymanski, E. S., Kimsey, I., Shi, H., & Al-Hashimi, H. M. (2020). Probing conformational transitions towards mutagenic Watson–Crick-like G·T mismatches using off-resonance sugar carbon R1ρ relaxation dispersion. Journal of Biomolecular NMR, 74(8–9), 457–471. https://doi.org/10.1007/s10858-020-00337-7
- Noeske, J., Richter, C., Grundl, M. A., Nasiri, H. R., Schwalbe, H., & Wöhnert, J. (2005). An intermolecular base triple as the basis of ligand specificity and affinity in the guanine- and adenine-sensing riboswitch RNAs. Proceedings of the National Academy of Sciences, 102(5), 1372–1377. https://doi.org/10.1073/pnas.0406347102
- Ohira, T., Minowa, K., Sugiyama, K., Yamashita, S., Sakaguchi, Y., Miyauchi, K., Noguchi, R., Kaneko, A., Orita, I., Fukui, T., Tomita, K., & Suzuki, T. (2022). Reversible RNA phosphorylation stabilizes tRNA for cellular thermotolerance. Nature, 605(7909), 372–379. https://doi.org/10.1038/s41586-022-04677-2
- Vögele, J., Duchardt-Ferner, E., Bains, J. K., Knezic, B., Wacker, A., Sich, C., Weigand, J. E., Šponer, J., Schwalbe, H., Krepl, M., & Wöhnert, J. (2024). Structure of an internal loop motif with three consecutive U•U mismatches from stem–loop 1 in the 3′-UTR of the SARS-CoV-2 genomic RNA. Nucleic Acids Research, 52(11), 6687–6706. https://doi.org/10.1093/nar/gkae349
- Broft, P., Rosenkranz, R. R., Schleiff, E., Hengesbach, M., & Schwalbe, H. (2022). Structural analysis of temperature-dependent alternative splicing of HsfA2 pre-mRNA from tomato plants. RNA Biology, 19(1), 266–278. https://doi.org/10.1080/15476286.2021.2024034
Use cases of the Silantes phosphoramidites in scientific publications:
- Becette, O., Olenginski, L. T., & Dayie, T. K. (2019). Solid-Phase chemical synthesis of stable Isotope-Labeled RNA to aid structure and dynamics studies by NMR spectroscopy. Molecules, 24(19), 3476. https://doi.org/10.3390/molecules24193476
- Štih, V., Amenitsch, H., Plavec, J., & Podbevšek, P. (2023). Spatial arrangement of functional domains in OxyS stress response sRNA. RNA, 29(10), 1520–1534. https://doi.org/10.1261/rna.079618.123
Use cases of the Silantes oligonucleotide synthesis service in scientific publications:
- Belfetmi, A., Zargarian, L., Tisné, C., Sleiman, D., Morellet, N., Lescop, E., Maskri, O., René, B., Mély, Y., Fosse, P., & Mauffret, O. (2016). Insights into the mechanisms of RNA secondary structure destabilization by the HIV-1 nucleocapsid protein. RNA, 22(4), 506–517. https://doi.org/10.1261/rna.054445.115
- Borggräfe, J., Victor, J., Rosenbach, H., Viegas, A., Gertzen, C. G. W., Wuebben, C., … Etzkorn, M. (2021). Time-resolved structural analysis of an RNA-cleaving DNA catalyst. Nature, 601(7891), 144–149. https://doi.org/10.1038/s41586-021-04225-4
- Chernatynskaya, A. V., Deleeuw, L., Trent, J. O., Brown, T., & Lane, A. N. (2009). Structural analysis of the DNA target site and its interaction with Mbp1. Organic & Biomolecular Chemistry, 7(23), 4981. https://doi.org/10.1039/b912309a
- Van Melckebeke, H., Devany, M., Di Primo, C., Beaurain, F., Toulmé, J., Bryce, D. L., & Boisbouvier, J. (2008). Liquid-crystal NMR structure of HIV TAR RNA bound to its SELEX RNA aptamer reveals the origins of the high stability of the complex. Proceedings of the National Academy of Sciences, 105(27), 9210–9215. https://doi.org/10.1073/pnas.0712121105
Use cases of the Silantes 14-mer RNA Standard in scientific publications:
- Duchardt, E., & Schwalbe, H. (2005). Residue Specific Ribose and Nucleobase Dynamics of the cUUCGg RNA Tetraloop Motif by MNMR 13C Relaxation. Journal of Biomolecular NMR, 32(4), 295–308. https://doi.org/10.1007/s10858-005-0659-x
- Hartlmüller, C., Günther, J. C., Wolter, A. C., Wöhnert, J., Sattler, M., & Madl, T. (2017). RNA structure refinement using NMR solvent accessibility data. Scientific Reports, 7(1). https://doi.org/10.1038/s41598-017-05821-z
- Nozinovic, S., Fürtig, B., Jonker, H. R. A., Richter, C., & Schwalbe, H. (2009). High-resolution NMR structure of an RNA model system: the 14-mer cUUCGg tetraloop hairpin RNA. Nucleic Acids Research, 38(2), 683–694. https://doi.org/10.1093/nar/gkp956
- Richter, C., Kovacs, H., Buck, J., Wacker, A., Fürtig, B., Bermel, W., & Schwalbe, H. (2010). 13C-direct detected NMR experiments for the sequential J-based resonance assignment of RNA oligonucleotides. Journal of Biomolecular NMR, 47(4), 259–269. https://doi.org/10.1007/s10858-010-9429-5
- Ferner, J., Villa, A., Duchardt, E., Widjajakusuma, E., Wöhnert, J., Stock, G., & Schwalbe, H. (2008). NMR and MD studies of the temperature-dependent dynamics of RNA YNMG-tetraloops. Nucleic Acids Research, 36(6), 1928–1940. https://doi.org/10.1093/nar/gkm1183
Relevant blog articles:
- What Are Stable-Isotope Labeled Nucleic Acids?
- Synthesizing Stable Isotope-Labeled Nucleic Acids
- The Advantages of Using Stable Isotope-Labeled Nucleic Acids
- Applications of Stable Isotope-Labeled Molecules: Exploring the Power of Isotopic Tracers
- Custom RNA & DNA Synthesis Services : Tailored Solutions for Your Nucleic Acid Needs
Relevant webinars:
Related product(s) for your projects:
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Adenosine Phosphoramidite
Synonyms: N6-Ac-5'-O-DMT-2'-O-TBDMS-Adenosine-3'-CE phosphoramidite, DMT-2'O-TBDMS-rA(Ac) Amidite
From: 300 € plus VAT, plus delivery Select options This product has multiple variants. The options may be chosen on the product page
Available in various isotopic labelings and/or quantities. -
Cytidine Phosphoramidite
Synonyms: N4-Ac-5'-O-DMT-2'-O-TBDMS-Cytidine-3'-CE phosphoramidite, DMT-2'O-TBDMS-rC(Ac) Amidite
From: 260 € plus VAT, plus delivery Select options This product has multiple variants. The options may be chosen on the product page
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DeoxyAdenosine Phosphoramidite
Synonyms: N6-Bz-5'-O-DMT-2'-Deoxyadenosine-3'-CE phosphoramidite, DMT-dA(Bz) Amidite
From: 470 € plus VAT, plus delivery Select options This product has multiple variants. The options may be chosen on the product page
Available in various isotopic labelings and/or quantities. -
DeoxyCytidine Phosphoramidite
Synonyms: N4-Ac-5'-O-DMT-2'-Deoxycytidine-3'-CE phosphoramidite, DMT-dC(Ac) Amidite
From: 500 € plus VAT, plus delivery Select options This product has multiple variants. The options may be chosen on the product page
Available in various isotopic labelings and/or quantities. -
DeoxyGuanosine Phosphoramidite
Synonyms: N2-dmf-5'-O-DMT-2'-Deoxyguanosine-3'-CE phosphoramidite, DMT-dG(dmf) Amidite
From: 360 € plus VAT, plus delivery Select options This product has multiple variants. The options may be chosen on the product page
Available in various isotopic labelings and/or quantities. -
Guanosine Phosphoramidite
Synonyms: N2-Ac-5'-O-DMT-2'-O-TBDMS-Guanosine-3'-CE phosphoramidite, DMT-2'O-TBDMS-rG(Ac) Amidite
From: 260 € plus VAT, plus delivery Select options This product has multiple variants. The options may be chosen on the product page
Available in various isotopic labelings and/or quantities.