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In vitro biosynthesis of cadinanes by cell-free extracts of
cultured cells of Heteroscyphus planus
. Kensuke Nabeta, Masaru Fujita, Kaori Komuro, Kinya Katayama, Toshihide Takasawa
, J. Chem. Soc., Perkin Trans. 1
, 1997
, 2065
- CCLVII.—The chemistry of cadinene. Part I. George Gerald Henderson, Alexander Robertson
, J. Chem. Soc., Trans.
, 1924
, 125
, 1992
- A single terpene synthase is responsible for a wide variety of sesquiterpenes in Sorangium cellulosum Soce56. Alexander Schifrin, Yogan Khatri, Philine Kirsch, Verena Thiel, Stefan Schulz, Rita Bernhardt
, Org. Biomol. Chem.
, 2016
, 14
, 3385
- Mechanistic characterization of three sesquiterpene synthases from the termite-associated fungus Termitomyces. Immo Burkhardt, Nina B. Kreuzenbeck, Christine Beemelmanns, Jeroen S. Dickschat
, Org. Biomol. Chem.
, 2019
, 17
, 3348
- CCCLXXIII.—The chemistry of cadinene. Part II. Compounds related to cadinene. George Gerald Henderson, John Monteath Robertson
, J. Chem. Soc.
, 1926
, 129
, 2811
- Bacterial terpene cyclases. Jeroen S. Dickschat
, Nat. Prod. Rep.
, 2016
, 33
, 87
- Silent catalytic promiscuity in the high-fidelity terpene cyclase δ-cadinene synthase. Marianna Loizzi, David J. Miller, Rudolf K. Allemann
, Org. Biomol. Chem.
, 2019
, 17
, 1206
- The amino-terminal segment in the β-domain of δ-cadinene synthase is essential for catalysis. Verónica González, Daniel J. Grundy, Juan A. Faraldos, Rudolf K. Allemann
, Org. Biomol. Chem.
, 2016
, 14
, 7451
- 210. Dehydrogenation. Part IV. Catalytic disproportionation and dehydrogenation of some terpenes and terpene ketones. R. P. Linstead, K. O. A. Michaelis, S. L. S. Thomas
, J. Chem. Soc.
, 1940
, 1139
- 259. Observations on the absorption spectra of terpenoid compounds. Part VI. “isocadinene”. A. E. Gillam, D. G. Moss, T. F. West
, J. Chem. Soc.
, 1948
, 1306