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N1-Methylpseudouridine (abbreviated m1蠄) and its unmethylated cousin pseudouridine1 (abbreviated 蠄) are nucleosides and isomers of N1-methyluridine2 and uridine3, respectively. Both pseudouridines are components of transfer RNAs (tRNAs).
m1蠄 and 蠄 are used to produce and mosify RNA vaccines. In particular, both played a role in the development of messenger RNA (mRNA) vaccines that were created to minimize the effects of the SARS-CoV-2 virus responsible for COVID-19.
In a 2021 article, Pedro Morais* at ProQR Therapeutics (Leiden, the Netherlands) and Hironori Adachi and Yi-Tao Yu* at the University of Rochester Medical Center (NY) wrote about the critical contribution that the pseudouridines played when Pfizer鈥揃ioNTech and Moderna Therapeutics developed the COVID vaccines in 2020. They wrote that and that the m1蠄 modification also increased the vaccine鈥檚 efficacy compared with previously developed vaccines. Earlier positive results with 蠄-modified RNA vaccines guided the drug companies鈥� efforts to develop COVID vaccines.
1. CAS Reg. No. 1445-07-4.
2. CAS Reg. No. 615-77-0.
3. CAS Reg. No. 58-96-8.
N1-Methylpseudouridine听hazard information*
| Hazard class** | GHS code and hazard statement | |
|---|---|---|
| Acute toxicity, oral, category 4 | H302鈥擧armful if swallowed |  |
| Skin corrosion/irritation, category 2 | H315鈥擟auses skin irritation |  |
| Serious eye damage/eye irritation, category 2A | H319鈥擟auses serious eye irritation | |
| Specific target organ toxicity, single exposure, respiratory tract irritation, category 3 | H335鈥擬ay cause respiratory irritation | |
*Most safety data sheets state 鈥渘ot a hazardous substance or mixture鈥�, but one reports the data given here.
**Globally Harmonized System (GHS) of Classification and Labeling of Chemicals.听.
Molecules from the Journals
Silver selenide1 (Ag2Se) occurs in nature as the mineral naumannite; but the article of commerce is usually synthetic. An early preparation of Ag2Se was reported in 1902 by R. D. Hall and Victor Lehner at the University of Wisconsin (Madison), who to form the selenide salt. Other syntheses include melting the elements together and passing hydrogen selenide gas through silver solutions.
The 尾-crystal phase of Ag2Se is known to have semiconductor and thermoelectric properties. This past April, Kirill Kovnir and colleagues at Iowa State University (Ames), Ames National Laboratory, and the National Graduate School of Engineering of Caen (France) reported a benchtop route from silver chloride and elemental selenium to 尾-Ag2Se, which they then doped with 0.20鈥�0.25 at% zinc. The safe, scalable, economical process produced compared with existing 尾-Ag2Se substances.
Propyne2, or methylacetylene, is the second simplest triple-bond hydrocarbon after acetylene itself. It was by G. Harris Morris at Mason Science College (Birmingham, UK) in an article about constituents of 鈥渞esin spirit鈥� (i.e., liquids distilled from pine resins, among others).
Fast-forward to the Spage Age: In April, Theresa C. Marlin and collaborators at Caltech (Pasadena, CA), the Australian Nuclear Science and Technology Organisation (Lucas Heights), and NASA Goddard Space Flight Center (Greenbelt, MD) described features of propyne in the atmosphere of Saturn鈥檚 giant moon Titan. The molecule is photochemically produced as a gas in the upper atmosphere; but it condenses at lower altitudes. The authors reported .
1. CAS Reg. No. 1302-09-6.
2. CAS Reg. No. 74-99-7.
Molecules from the Journals
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N1-Methylpseudouridine fast facts
| CAS Reg. No. | 13860-38-3 |
| SciFindern name | 2,4(1H,3H)-Pyrimidinedione, 1-methyl-5-尾-D-ribofuranosyl- |
| Empirical formula | C10H14N2O6 |
| Molar mass | 258.23 g/mol |
| Appearance | White to off-white crystals or powder |
| Melting point | 189 掳C |
| Water solubility | 26 g/L |
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