59207-23-7Relevant articles and documents
3D-printed cartridge system for in-flow photo-oxygenation of 7-aminothienopyridinones
Rastelli, Ettore J.,Yue, Doris,Millard, Caroline,Wipf, Peter
supporting information, (2020/12/29)
A 3D-printed polypropylene (PP) continuous-photoflow cell based on a modular cartridge system was developed for the photo-oxygenation of 7-aminothieno[3,2-c]pyridin-4(5H)-ones, using ambient air as the sole co-reactant. This strategy takes advantage of the versatility of 3D-printing to construct cost-effective meso-scale reactors. In addition to scalability, a short residence time (tR 2 min) in 100-W blue LED light that minimizes the formation of dark, insoluble decomposition products is a tangible benefit of this technology.
A METHOD FOR THE SITE-SPECIFIC ENZYMATIC LABELLING OF NUCLEIC ACIDS IN VITRO BY INCORPORATION OF UNNATURAL NUCLEOTIDES
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, (2015/02/25)
Provided herein are analogs of unnatural nucleotides bearing predominantly hydrophobic nucleobase analogs that form unnatural base pairs during DNA polymerase- mediated replication of DNA or RNA polymerase-mediated transcription of RNA. In this manner, the unnatural nucleobases can be introduced in a site-specific way into oligonucleotides (single or double stranded DNA or RNA), where they can provide for site-specific cleavage, or can provide a reactive linker than can undergo functionalization with a cargo -bearing reagent by means of reaction with a primary amino group or by means of click chemistry with an alkyne group of the unnatural nucleobase linker.
Design and synthesis of piperazinylpyridine derivatives as novel 5-HT 1A agonists/5-HT3 antagonists for the treatment of irritable bowel syndrome (IBS)
Asagarasu, Akira,Matsui, Teruaki,Hayashi, Hiroyuki,Tamaoki, Satoru,Yamauchi, Yukinao,Sato, Michitaka
experimental part, p. 34 - 42 (2009/07/18)
We have prepared a series of piperazinylpyridine derivatives for the treatment of irritable bowel syndrome (IBS). These compounds, which were designed by pharmacophore analysis, bind to both serotonin subtype 1A (5-HT 1A) and subtype 3 (5-HT3) receptors. The nitrogen atom of the isoquinoline, a methoxy group and piper-azine were essential to the pharmacophore for binding to these receptors. We also synthesized furo- and thienopyridine derivatives according to structure-activity relationship analyses. Compound 17c (TZB-20810) had high affinities to these receptors and exhibited 5-HT1A agonistic activity and 5-HT3 antagonistic activity concurrently, and is a promising drug for further development in the treatment of IBS.