641-89-4Relevant articles and documents
Schmidt Reaction of ω-Azido Valeryl Chlorides Followed by Intermolecular Trapping of the Rearrangement Ions: Synthesis of Assoanine and Related Pyrrolophenanthridine Alkaloids
DIng, Shao-Lei,Ji, Yang,Su, Yan,Li, Rui,Gu, Peiming
, p. 2012 - 2021 (2019/02/14)
The Schmidt reaction of ω-azido valeryl chlorides in the presence of an additional nucleophile was explored. The arenes, alcohols, and amines were demonstrated as the intermolecular trapping reagents for isocyanate ion and N-acyliminium ion from the Schmidt rearrangement, affording the corresponding products with moderate to excellent yields. Two 2-oxoindoles from the reaction were successfully converted into four natural alkaloids, namely, assoanine, anhydrolycorine, oxoassoanine, and anhydrolycorinone.
Concise synthesis of pyrrolophenanthridine alkaloids using a Pd-mediated biaryl coupling reaction with regioselective C-H activation via the intramolecular coordination of the amine to Pd
Harayama, Takashi,Hori, Akihiro,Abe, Hitoshi,Takeuchi, Yasuo
, p. 1611 - 1616 (2007/10/03)
The concise synthesis of Amaryllidaceae alkaloids, such as anhydrolycorinone, anhydrolycorin-7-one, assoanine, and oxoassoanine, which have a pyrrolophenanthridine skeleton, was achieved in moderate yield using the Pd-mediated biaryl coupling reaction of
FURTHER EXPERIMENTS ON STRUCTURE-ACTIVITY RELATIONSHIPS AMONG THE LYCORINE ALKALOIDS
Evidente, Antonio,Arrigoni, Oreste,Liso, Rosalia,Calabrese, Giuseppe,Randazzo, Giacomino
, p. 2739 - 2744 (2007/10/02)
Key Word Index - Sternbergia lutea; Amaryllidaceae; ascorbate biosynthesis inhibition; phenanthridine alkaloids; lycorine; narciclasine; structure-activity relationships.Syhthetic lycorine analogues, five Amaryllidaceae alkaloids and narciclasine, all structurally related to lycorine, were tested for their ability to inhibit ascorbic acid biosynthesis in vivo.The highest potency observed was displayed by narciclasine followed by compounds having an aromatic C-ring.Derivatives modified at C-1 and/or C-2 were inactive, while the compound with a double bond between these positions is a weak inhibitor.Also lutessine and its deacetyl derivative having an α-methoxyl group bonded to C-4 of the D-ring appeared completely inactive.These results confirm that the presence of an appropriately substituted C-ring is a neccessary requirement for optimal 'responsetriggering' conctact between the lycorine derivatives and the specific receptor.Functional groups jutting out from the α-side of the molecule do not allow a good fit with the binding sites.