6017-21-6Relevant articles and documents
Substituted pyrazolopyridine derivatives and medicinal use thereof
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Paragraph 0050; 0052; 0053, (2018/05/07)
The invention relates to substituted pyrazolopyridine derivatives represented by formula (I), and pharmaceutically acceptable salts, isomers, prodrugs and medicinal compositions thereof. Above compounds are stimulants of soluble guanylate cyclase. In the formula (I), R1 represents a thienyl group or a substituted pyridyl group, R2 represents -NH2, -NHCH3 or -NHC(=O)CH(CH3)2, R3 represents hydrogenor a C1-C4 alkyl group, and R4 represents a C1-C6 alkyl group. The invention also discloses a preparation method of the compounds and an application of the compounds as medicines, especially an application as cardiovascular disease treatment medicines, such as anti-pulmonary arterial hypertension medicines.
Total chemical synthesis method of adenine
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, (2017/08/29)
The invention relates to a total chemical synthesis method of adenine. The method comprises the following steps of: 1) dissolving primary amine in strong-acid solution, dripping sodium nitrite solution to prepare diazonium salt, adding malononitrile for dissolving, and dripping alkaline solution to regulate a pH value of reaction solution and generate coupling reaction, thereby obtaining an azo compound; 2) adding the azo compound into formamide, and introducing liquid ammonia, heating to carry out high-temperature condensation and cyclization reaction, thereby obtaining a pyrimidine-azo compound; 3) dissolving the pyrimidine-azo compound into water, adding a catalyst, and introducing hydrogen for hydrogenation, thereby obtaining 4,5,6-triamidopyrimidine; and 4) dissolving the 4, 5, 6-triamidopyrimidine into the formamide to carry out high-temperature cyclization with the formamide, thereby obtaining an adenine crude product, and after recrystallization, obtaining white crystalline powder, i.e., a high-purity refined adenine product. The total chemical synthesis method has the advantages that water is used as a solvent in the step 1), and solvents used in the steps 2), 3) and 4) can be repeatedly used, so that the 'three wastes' are fewer, and the environment-friendly effect is achieved; and the total yield is 64.75% (calculated according to the amount of malononitrile), and the cost is low, so that the industrialization is easy and the economic benefit is obvious.
Nano-CuFe2O4-supported sulfonic acid as a novel and recyclable nanomagnetic acid for diazotization of aromatic amines: efficient synthesis of various azo dyes
Nemati, Firouzeh,Elhampour, Ali,Natanzi, Mahshid B.,Sabaqian, Samaneh
, p. 1045 - 1054 (2016/05/02)
Abstract: A novel heterogeneous sulfonic acid functionalized nanomagnetic CuFe2O4 was successfully prepared and characterized by analyzing different obtained data including Fourier transform infrared spectroscopy, X-ray powder diffraction, field emission scanning electron microscopy, energy-dispersive X-ray spectroscopy, thermogravimetric analysis, dynamic light scattering and vibrating sample magnetometer. Then the novel acidic reagent was examined in synthesis of various azo-containing compounds from coupling of aryl diazonium ferrite sulfate salts with aromatic and non-aromatic compounds. The procedure starts by diazotization of aromatic amines with NaNO2 and wet CuFe2O4–SO3H and then coupling reaction of aryl diazonium ferrite sulfate salts with appropriate reagent. The prepared nano-solid acid showed high activity in synthesis of variety of aryl diazonium salts. In addition the as-prepared aryl diazonium ferrite sulfate salts are stable at room temperature for many hours and reacted efficiently in coupling reactions of aryl diazonium salts. All the azo dyes are synthesized in high yields and simple reaction conditions at room temperature. Moreover, the nanomagnetic solid acid was easily recovered from the reaction mixture and reused five runs without significant loss of activity. Graphical Abstract: [Figure not available: see fulltext.]
