6972-27-6Relevant articles and documents
Iodine/persulfate-promoted site-selective direct thiolation of quinolones and uracils
Beukeaw, Danupat,Noikham, Medena,Yotphan, Sirilata
supporting information, (2019/09/03)
A simple and general method for direct thiolation of 4-quinolones with disulfides or thiols under I2/K2S2O8 system has been developed. Under the optimal conditions, the C–S bond coupling can take place effectively with good to decent yields and excellent regioselectivity of the S-linked products. The established metal-free site-selective approach was also applicable to transform a range of uracil substrates to the thio-substituted products under mild conditions. Further transformation to the sulfone derivatives can be conveniently performed in one-pot. These easy-to-handle protocols represent a useful and interesting synthetic alternative with good substrate scope and functional group compatibility.
Pd/PTABS: Catalyst for Room Temperature Amination of Heteroarenes
Murthy Bandaru, Siva Sankar,Bhilare, Shatrughn,Chrysochos, Nicolas,Gayakhe, Vijay,Trentin, Ivan,Schulzke, Carola,Kapdi, Anant R.
supporting information, p. 473 - 476 (2018/01/28)
A mild and highly efficient catalytic amination procedure for chloroheteroarenes at ambient temperature using the Pd/PTABS catalytic system is reported. The protocol is selective for the amination of chloroheteroarenes using secondary amines such as piperidine, pyrrolidine, and several others. The exceptional mildness of the developed protocol is beneficial for the synthesis of a crucial Buparlisib intermediate as well as the formal synthesis of Alogliptin in competitive yields.
ETHYNYLXANTHINES, PREPARATION AND USE AS CALCIUM ION CHANNEL MODULATORS
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Page/Page column 12; 13, (2016/10/27)
The present invention relates to novel pharmaceutical compounds, which exhibit ability to act as calcium ion channel modulators, methods for their synthesis and the treatment and/or prevention of various diseases and disorders including deregulated calcium ion channel activity.