I. Synthetic Studies Toward the Total Synthesis of Polycyclic Natural Products – Communesin F, Perophoramidine and Ineleganolide. II. Nickel Catalyzed Intramolecular C–O Bond Formation

Expedient synthetic approaches to the highly functionalized polycyclic alkaloids communesin F and perophoramidine are described using a unified approach featuring a key decarboxylative allylic alkylation to access a crucial and highly congested 3,3-disubstituted oxindole. Described are two distinct, stereoselective alkylations that produce structures in divergent diastereomeric series possessing the critical vicinal all-carbon quaternary centers needed for each synthesis. Synthetic studies toward these challenging core structures have revealed a number of unanticipated modes of reactivity inherent to these complex alkaloid scaffolds. Finally, a previously unknown mild and efficient deprotection protocol for the o-nitrobenzyl group is disclosed – this serendipitous discovery permitted a concise endgame for the formal syntheses of both communesin F and perophoramidine.

In addition, the atroposelective synthesis of PINAP ligands has been accomplished via a palladium-catalyzed C–P coupling process through dynamic kinetic resolution. These catalytic conditions allow access to a wide variety of alkoxy- and benzyloxy-substituted PINAP ligands in high enantiomeric excess.

An efficient and exceptionally mild intramolecular nickel-catalyzed carbon–oxygen bond-forming reaction between vinyl halides and primary, secondary, and tertiary alcohols has been achieved. This operationally simple method allows direct access to cyclic vinyl ethers in high yields in a single step.

Finally, synthetic studies toward polycyclic ineleganolide are described. The entire fragmented carbon framework has been constructed from this work. Highly (Z)-selective olefination was achieved by the method by the Ando group.

Avaliação toxicológica da ayahuasca em ratos Wistar : comportamento e toxicidade reprodutiva em machos

Dissertação (mestrado)—Universidade de Brasília, Faculdade de Ciências da Saúde, Programa de Pós-Graduação em Ciências da Saúde, 2016.

Alkaloid production and capacity for methyljasmonate induction by hairy roots of two species in Tribe Anthocercideae, family Solanaceae

In addition to producing medicinally important tropane alkaloids, some species in the mainly Australian Solanaceous tribe Anthocercideae, sister to genus Nicotiana, are known to also contain substantial levels of the pyridine alkaloids nicotine and nornicotine. Here, we demonstrate that axenic hairy root cultures of two tribe Anthocercideae species, Cyphanthera tasmanica Miers and Anthocercis ilicifolia ssp. ilicifolia Hook, contain considerable amounts of both nicotine and nornicotine (∼0.5-1% DW), together with lower levels of the tropane alkaloid hyoscyamine (<0.2% DW). Treatment of growing hairy roots of both species with micromolar levels of the wound stress hormone methyl-jasmonate (MeJa) led to significant increases (P<0.05) in pyridine alkaloid concentrations but not of hyoscyamine. Consistent with previous studies involving Nicotiana species, we also observed that transcript levels of key genes required for pyridine alkaloid synthesis increased in hairy roots of both Anthocercideae species following MeJa treatment. We hypothesise that wound-associated induction of pyridine alkaloid synthesis in extant species of tribe Anthocercideae and genus Nicotiana was a feature of common ancestral stock that existed before the separation of both lineages ∼15million years ago.