Enantioselective synthesis of nagilactone F via vinylsilane-terminated cationic cyclization
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[1] J. Gage,et al. Total synthesis of (+)-calyculin A , 1992 .
[2] I. Kubo,et al. Effects of nagilactones on the growth of lettuce seedlings , 1991 .
[3] D. N. Deaton,et al. Synthesis of (+)-dihydrocompactin and (+)-compactin via vinylsilane terminated cationic cyclization , 1991 .
[4] S. D. Burke,et al. Synthesis of (+)-fragolide and (−)-pereniporin B via vinylsilane terminated cationic cyclization , 1991 .
[5] J. B. Lambert. Tetrahedron report number 273 , 1990 .
[6] F. A. Davis,et al. Applications of oxaziridines in organic synthesis , 1990 .
[7] L. A. Silks,et al. Enantioselective synthesis of the nagilactone ring system via vinylsilane-mediated polyene cyclization , 1989 .
[8] R. Hernández,et al. Fragmentation of alkoxy radicals: Mechanistic aspects of the tandemβ-fragmentation-intramolecular functionalization reaction , 1988 .
[9] L. A. Silks,et al. Remote functionalization and molecular modeling: Observations relevant to the barton and hypoiodite reactions , 1988 .
[10] T. Wada,et al. Studies on the syntheses of sesquiterpene lactones. 10. Improved syntheses of (+)-tuberiferin and the related .alpha.-methylene-.gamma.-lactones and their biological activities , 1987 .
[11] B. Lipshutz,et al. 2-thienyl(cyano)copper lithium. A lower order, stable “cuprate in a bottle” precursor to higher order reagents , 1987 .
[12] A. Groot,et al. Total synthesis of (.mu.)-3.beta.-hydroxynagilactone F , 1986 .
[13] Scott G. Wierschke,et al. Magnitude and origin of the .beta.-silicon effect on carbenium ions , 1985 .
[14] S. Nagao,et al. Total synthesis of (+)-pederin. 2. Stereocontrolled synthesis of (+)-benzoylselenopederic acid and total synthesis of (+)-pederin , 1985 .
[15] W. Johnson,et al. Asymmetric Synthesis via Acetal Templates. 10. Aldol-Type Reactions. Preparation of a Nonacetic Acid Intermediate , 1984 .
[16] R. Hernández,et al. Intramolecular hydrogen abstraction. Iodosobenzene diacetate, an efficient and convenient reagent for alkoxy radical generation , 1984 .
[17] S. Byrn,et al. Revised structure of podolactone C, the antileukemic component of Podocarpus milanjianus Rendle , 1984 .
[18] F. A. Davis,et al. Oxidation of selenides to selenoxides using 2-sulfonyloxaziridines , 1983 .
[19] Takeshi Matsumoto,et al. Reaction and interconversion of norditerpenoid dilactones, biologically active principles isolated from Podocarpus plants , 1982 .
[20] V. Martín,et al. A greatly improved procedure for ruthenium tetroxide catalyzed oxidations of organic compounds , 1981 .
[21] Y. Hayashi,et al. Antitumor activity of norditerpenoid dilactones in Podocarpus plants: structure-activity relationship on in vitro cytotoxicity against Yoshida sarcoma. , 1979, Gan.
[22] Takeshi Matsumoto,et al. New Congeners of Cytotoxic Nor-diterpenoid Dilactones in Podocarpus nagi : C19 Lactones of an a-Pyrone Type and a 7:8,9:11-Dienolide Type , 1978 .
[23] M. Nishizawa,et al. Remote double bond migration via rhodium catalysis: a novel enone transposition , 1976 .
[24] D. Barton. The use of photochemical reactions in organic synthesis , 1968 .