Abstract: In one embodiment of the present invention, a synthesis of grossularine-1 and N,N-didesmethylgrossularine-1 2 and analogs thereof based on a novel oxidative dimerization-electrocyclization sequence of 2-amino-4-(3-indolyl)imidazoles derived from oxotryptamine 3 is described.

Abstract: In one embodiment of the present invention, a synthesis of grossularine-1 and N,N-didesmethylgrossularine-1 2 and analogs thereof based on a novel oxidative dimerization-electrocyclization sequence of 2-amino-4-(3-indolyl)imidazoles derived from oxotryptamine 3 is described.

Abstract: Methods for making bis-heterocyclic compounds, especially bis-heterocyclic compounds having five and six-membered heterocyclic linkers are described.

Abstract: Methods for making bis-heterocyclic compounds, especially bis-heterocyclic compounds having five and six-membered heterocyclic linkers are described. Also described are methods for making an alpha amino ketone synthon that enables facile syntheses of bisindole compounds, including topsentins and dragmacidins.

Abstract: The synthesis of C11N5 marine sponge alkaloids (±)-hymenin (1), stevensine (2), hymenialdisine (3), and debromohymenialdisine (4) is described. These natural products are the primary family members of the sponge metabolites that contain a fused pyrrolo[2,3-c]lazepin-8-one ring system with either a 2-aminoimidazole (AI) or glycocyamidine appendage. The key steps in the synthesis centered around the generation of novel azafulvenium ions and their regioselective heterodimerization with AI in order to create the tricyclic core. A rarely used protodebromination/oxidation strategy was employed to selectively generate the desired a-bromo substitution pattern seen in hymenialdisine (3). In addition, the AI moiety was shown to be a useful precursor to the glycocyamidine unit found in 3 and 4, which suggests that AI derived natural products may be the biogenic forerunners to glycocyamidine metabolites.

Abstract: The synthesis of C11N5 marine sponge alkaloids (±)-hymenin (1), stevensine (2), hymenialdisine (3), and debromohymenialdisine (4) is described. These natural products are the primary family members of the sponge metabolites that contain a fused pyrrolo[2,3-c]lazepin-8-one ring system with either a 2-aminoimidazole (AI) or glycocyamidine appendage. The key steps in the synthesis centered around the generation of novel azafulvenium ions and their regioselective heterodimerization with AI in order to create the tricyclic core. A rarely used protodebromination/oxidation strategy was employed to selectively generate the desired a-bromo substitution pattern seen in hymenialdisine (3). In addition, the AI moiety was shown to be a useful precursor to the glycocyamidine unit found in 3 and 4, which suggests that AI derived natural products may be the biogenic forerunners to glycocyamidine metabolites.

Abstract: The subject invention provides a bicyclic aminoimidazole compound, a hydroxyalkyl aminoimidazole compound, a bicyclic pyrrole compound, a hymenin compound, an aldehyde aminoimidazole compound, a ketal aminoimidazole compound, a tricyclic compound, and a tetrahydropurine compound. The subject invention also provides for processes for preparing the compounds.

Abstract: A method for making debromohymenialdisine (DBH) 2 and analogs thereof is described. One embodiment of the present method first comprises forming hymenin 4, and then converting hymenin into DBH 2 as described herein. One such embodiment first comprises providing a compound having Formula 3 where R is independently selected from the group consisting of hydrogen and lower aliphatic, and X is independently selected from the group consisting of hydrogen and halogen. A compound having Formula 3, such as Compound 10 with R and X as hydrogen, is then converted to DBH 2 or an analog thereof. An alternative embodiment of the method comprises forming Compound 30 or Compound 32, which are then directly converted to DBH 2. Alternatively, Compound 30 can be converted to Compound 10, which is then subsequently converted to DBH 2 by reaction with a halogen in the presence of an acid.

Abstract: The synthesis of C11N5 marine sponge alkaloids (±)-hymenin (1), stevensine (2), hymenialdisine (3), and debromohymenialdisine (4) is described. These natural products are the primary family members of the sponge metabolites that contain a fused pyrrolo[2,3-c]azepin-8-one ring system with either a 2-aminoimidazole (AI) or glycocyamidine appendage. The key steps in the synthesis centered around the generation of novel azafulvenium ions and their regioselective heterodimerization with AI in order to create the tricyclic core. A rarely used protodebromination/oxidation strategy was employed to selectively generate the desired a-bromo substitution pattern seen in hymenialdisine (3). In addition, the AI moiety was shown to be a useful precursor to the glycocyamidine unit found in 3 and 4, which suggests that AI derived natural products may be the biogenic forerunners to glycocyamidine metabolites.

Abstract: The subject invention provides a bicyclic aminoimidazole compound, a hydroxyalkyl aminoimidazole compound, a bicyclic pyrrole compound, a hymenin compound, an aldehyde aminoimidazole compound, a ketal aminoimidazole compound, a tricyclic compound, and a tetrahydropurine compound. The subject invention also provides for processes for preparing the compounds.

Abstract: The subject invention provides a bicyclic aminoimidazole compound, a hydroxyalkyl aminoimidazole compound, a bicyclic pyrrole compound, a hymenin compound, an aldehyde aminoimidazole compound, a ketal aminoimidazole compound, a tricyclic compound, and a tetrahydropurine compound. The subject invention also provides for processes for preparing the compounds. The bicyclic aminoimidazole compounds of the invention have anti-tumor and anti-microbial activity.