34225-11-1Relevant articles and documents
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Reid,D.H.,Sutherland,R.G.
, p. 3295 - 3308 (1963)
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Evaluation of synthetic naphthalene derivatives as novel chemical chaperones that mimic 4-phenylbutyric acid
Mimori, Seisuke,Koshikawa, Yukari,Mashima, Yu,Mitsunaga, Katsuyoshi,Kawada, Koichi,Kaneko, Masayuki,Okuma, Yasunobu,Nomura, Yasuyuki,Murakami, Yasuoki,Kanzaki, Tetsuto,Hamana, Hiroshi
, p. 811 - 814 (2015/02/19)
The chemical chaperone 4-phenylbutyric acid (4-PBA) has potential as an agent for the treatment of neurodegenerative diseases. However, the requirement of high concentrations warrants chemical optimization for clinical use. In this study, novel naphthalene derivatives with a greater chemical chaperone activity than 4-PBA were synthesized with analogy to the benzene ring. All novel compounds showed chemical chaperone activity, and 2 and 5 possessed high activity. In subsequent experiments, the protective effects of the compounds were examined in Parkinson's disease model cells, and low toxicity of 9 and 11 was related to amphiphilic substitution with naphthalene.
Synthesis of musafluorone: A naphthoxanthenone isolated from Musa acuminata
Duque, Luisa,Restrepo, Catalina,Sáez, Jairo,Gil, Jesús,Schneider, Bernd,Otálvaro, Felipe
experimental part, p. 4640 - 4643 (2010/09/10)
5-Methoxy-3H-naphtho[2,1,8-mna]xanthen-3-one (musafluorone, 1), the only naphthoxanthenone reported so far from Musaceae, was synthesized starting from 2-naphthol in nine steps and resulted in an overall yield of 3%. Grignard addition of phenylmagnesium b